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Fanconi anemia (FA) is a genetically and phenotypically heterogenous autoso- mal recessive disease associated with chromosomal instability, progressive bone marrow failure, typical birth defects and predisposition to neoplasia. The clinical phenotype is similar in all known complementation groups (FA-A, FA-B, FA-C,FA-D1, FA-D2, FA-E, FA-F and FA-G). The cellular phenotype is characterized by hypersensitivity to DNA crosslinking agents (MMC,DEB), which is exploited as a diagnostic tool. Alltogether, the FA proteins constitute a multiprotein pathway whose precise biochemical function(s) remain unknown. FANCA, FANCC, FANCE, FANCF and FANCG interact in a nuclear complex upstream of FANCD2. Complementation group FA-D1 was recently shown to be due to biallelic mutations in the human breast cancer gene 2 (BRCA2). After DNA damage, the nuclear complex regulates monoubiquitylation of FANCD2, result- ing in targeting of this protein into nuclear foci together with BRCA1 and other DNA damage response proteins. The close connection resp. identity of the FA genes and known players of the DSB repair pathways (BRCA1, BRCA2, Rad51) firmly establishs an important role of the FA gene family in the maintenance of genome integrity. The chapter 1 provides a general introduction to the thesis describing the current knowledge and unsolved problems of Fanconi anemia. The following chapters represent papers submitted or published in scientific literature. They are succeeded by a short general discussion (chapter 7). Mutation analysis in the Fanconi anemia genes revealed gene specific mutation spectra as well as different distributions throughout the genes. These results are described in chapter 1 and chapter 2 with main attention to the first genes identified, namely FANCC, FANCA and FANCG. In chapter 2 we provide general background on mutation analysis and we report all mutations published for FANCA, FANCC and FANCG as well as our own unpublished mutations until the year 2000. In chapter 3 we report a shift of the mutation spectrum previously reported for FANCC after examining ten FA-patients belonging to complementation group C. Seven of those patients carried at least one previously unknown mutation, whereas the other three patients carried five alleles with the Dutch founder mu- tation 65delG and one allele with the Ashkenazi founder mutation IVS4+4A>T, albeit without any known Ashkenazi ancestry. We also describe the first large deletion in FANCC. The newly detected alterations include two missense mu- tations (L423P and T529P) in the 3´-area of the FANCC gene. Since the only previously described missense mutation L554P is also located in this area, a case can be made for the existence of functional domain(s) in that region of the gene. In chapter 4 we report the spectrum of mutations found in the FANCG gene com- piled by several laboratories working on FA. As with other FA genes, most muta- tions have been found only once, however, the truncating mutation, E105X, was identified as a German founder mutation after haplotype analysis. Direct compar- ison of the murine and the human protein sequences revealed two leucine zipper motifs. In one of these the only identified missense mutation was located at a conserved residue, suggesting the leucine zipper providing an essential protein-protein interaction required for FANCG function. With regard to genotype-phenotype correlations, two patients carrying a homozygous E105X mutation were seen to have an early onset of the hematological disorder, whereas the missense mutation seems to lead to a disease with later onset and milder clinical course. In chapter 5 we explore the phenomenon of revertant mosaicism which emerges quite frequently in peripheral blood cells of patients suffering from FA. We de- scribe the types of reversion found in five mosaic FA-patients belonging to com- plementation groups FA-A and FA-C. For our single FA-C-patient intragenic crossover could be proven as the mechanism of self-correction. In the remaining four patients (all of them being compound heterozygous in FANCA), either the paternal or maternal allele has reverted back to WT sequence. We also describe a first example of in vitro phenotypic reversion via the emergence of a compensat- ing missense mutation 15 amino acids downstream of the constitutional mutation explaining the MMC-resistance of the lymphoblastoid cell line of this patient. In chapter 6 we report two FA-A mosaic patients where it could be shown that the spontaneous reversion had taken place in a single hematopoietic stem cell. This has been done by separating blood cells from both patients and searching for the reverted mutation in their granulocytes, monocytes, T- and B-lymphocytes as well as in skin fibroblasts. In both patients, all hematopoietic lineages, but not the fibroblasts, carried the reversion, and comparison to their increase in erythrocyte and platelet counts over time demonstrated that reversion must have taken place in a single hematopoietic stem cell. This corrected stem cell then has been able to undergo self-renewal and also to create a corrected progeny, which over time repopulated all hematopoietic lineages. The pancytopenia of these patients has been cured due to the strong selective growth advantage of the corrected cells in vivo and the increased apoptosis of the mutant hematopoietic cells.
This study investigated patterns of arthropod community organisation and the processes structuring these communities on a range of different tree species in a natural West African savannah (Comoé National Park, Côte d'Ivoire). It described and analysed patterns of arthropod distribution on the level of whole communities, on the level of multiple-species interactions, and on the level of individual insect species. Community samples were obtained by applying (i) canopy fogging for mature individuals of three tree species (Anogeissus leiocarpa, Burkea africana, Crossopteryx febrifuga) and (ii) a modified beating technique allowing to sample the complete arthropod communities of the respective study plants for medium-sized (up to 3 m) individuals of two other species (Combretum fragrans, Pseudocedrela kotschyi). General information on ant-plant interactions was retrieved from ant community comparisons of the mature savannah trees. In addition, ant-ant, ant-plant and ant-herbivore interactions were studied in more detail considering the ant assemblages on the myrmecophilic tree Pseudocedrela kotschyi. Herbivore-plant interactions were investigated on a multiple-species level (interrelationships between herbivores and Pseudocedrela trees) and on a species level (detailed studies of interrelationships between herbivorous beetles and caterpillars and the host tree Combretum fragrans). The studies on individual herbivore species were complemented by a study on an abundant ant species, clarifying not only the relationship between host plant and associated animal but allowing also to look at interactive (competitive) aspects of community organisation. The study demonstrated for the first time that (i) the structure of beetle communities on tropical trees can be strongly dependent on the host tree species, (ii) individual trees can host specific arthropod communities whose characteristic structure is stable over years and is strongly determined by the individual tree's attributes, (iii) ants can express a pronounced fidelity to single leaves as foraging area and can thereby determine distribution patterns of other ants, (iv) intraspecifically variable palatability of plants for insect herbivores can be stable over years and can influence the distribution of herbivores that can distinguish between individual hosts according to palatability and (v) intraspecific host plant change can positively affect fitness of herbivores if host plant quality is variable. In general, the present study contributes to our knowledge of anthropogenically unaltered processes affecting community assembly in a natural environment. The fundamental understanding of these processes is crucial for the identification of anthropogenic alterations and the establishment of sustainable management measures. The study points out the important role local factors can play for the distribution of organisms and thereby for community organisation. It emphasises the relevance of small scale heterogeneity of the abiotic and biotic environment to biodiversity and the need to consider these factors for development of effective conservation and restoration strategies.
Summary Myelin protein zero (P0) is a key myelin component in maintaining the integrity and functionality of the peripheral nervous system. Mutated variants are the cause for several disabilitating peripheral neuropathies such as Charcot-Marie-Tooth disease or Dejerine –Sotas syndrome. Using P0 knockout mice - a mouse model for these diseases - together with their wt counterparts on C57BL/6 background we studied the shaping of the T-cell repertoire specific for P0 in the presence and in the absence of this protein during the ontogeny of T-cells. Our approach was to use a series of overlapping 20-mer peptides covering the entire amino acid sequence of P0. This series of P0 peptides was employed for epitope mapping of the H2-Ab restricted T cell response. Thus, P0 peptide 5 (P0 41-60) in the extracellular domain of P0 was identified as the main immunogenic peptide. The immunogenic peptide containing the core immunodominant determinant in the P0 sequence was employed in studies of tolerance, revealing a highly reactive P0 specific T-cell repertoire in P0 ko mice while in wt mice the high avidity repertoire was inactivated in order to ensure self tolerance. In wild type and heterozygous P0 mice tolerance is not dependent on gene dosage. P0 is a tissue specific antigen whose expression is limited to myelinating Schwann cells. The classical view on tolerance to tissue specific antigens attributed this role to peripheral mechanisms. Driven by the finding that intrathymic expression of tissue-specific antigens is a common occurrence, we confirmed that “promiscuous” expression on thymic stroma holds true also for myelin P0. In addition, using bone marrow chimeras we investigated the capacity of bone marrow derived cells versus nonhematopoietic cells to induce tolerance towards P0. Our findings show that bone marrow derived cells although tolerogenic to some degree are not sufficient to mediate complete tolerance. P0 expression on cells with origin other than bone marrow showed to be sufficient and necessary to induce sound tolerance. We identified one cryptic (P0 peptide 8) and two subdominant epitopes (P0 petides 1, and 3). P0 peptide 8 was reactive in both wt and P0 ko mice. Peptides 1 and 3 were immunogenic in P0 ko but not in wt mice. Several P0 peptides including the immunogenic peptide 5 were involved in direct and adoptive transfer EAN studies. None of them induced clinical signs of EAN. Immunization with P0 peptide 3 did induce inflammation of the peripheral nerves reflected by the infiltration of macrophages and CD3 positive cells. More studies involving highly P0 specific T-cell lines are needed to characterize the P0 induced EAN. Our findings may have direct implications for secondary autoimmunity and inflammation in peripheral nerves developing after correcting the P0 genetic defect by gene therapy in aforementioned diseases.
Best disease (OMIM 153700) is an early-onset, autosomal dominant maculopathy characterized by egg yolk-like lesions in the central retina. The disease gene, the vitelliform macular dystrophy gene type 2 (VMD2), encodes a 585-aa VMD2 transmembrane protein, termed bestrophin. The protein is predominantly expressed on the basolateral side of the retinal pigment epithelium (RPE) and is thought to be involved in the transport of chloride ions. Bestrophin as well as three closely related VMD2-like proteins (VMD2L1-L3) contain multiple putative transmembrane (TM) domains and an invariant tripeptide (RFP) motif in the N-terminal half of the protein. This and the tissue-restricted expression to polarized epithelial cells are typical features of the VMD2 RFP-TM family. Best disease is predominantly caused by missense mutations, clustering in four distinct „hotspots“ in the evolutionary highly conserved N-terminal region of the protein. To further augment the spectrum of mutations and to gain novel insights into the underlying molecular mechanisms, we screened VMD2 in a large cohort of affected patients. In total, nine novel VMD2 mutations were identified, raising the total number of known Best disease-related mutations from 83 to 92. Eight out of nine novel mutations are hotspot-specific missense mutations, underscoring their functional/structural significance and corroborating the dominant-negative nature of the mutations. Of special interest is a one-basepair deletion (Pro260fsX288) encoding a truncated protein with a deletion of an important functional domain (TM domain four) as well as the entire C-terminal half of bestrophin. For the first time, a nonsense mutation leading to a 50 % non-functional protein has been identified suggesting that on rare occassions Best disease may be caused by haploinsufficiency. Molecular diagnostics strongly requires a reliable classification of VMD2 sequence changes into pathogenic and non-pathogenic types. Since the molecular pathomechanism is unclear at present, the pathogenicity of novel sequence changes of VMD2 are currently assessed in light of known mutations. We therefore initiated a publicly accessible VMD2 mutation database (http://www.uni-wuerzburg.de/humangenetics/vmd2.html) and are collecting and administrating the growing number of mutations, rare sequence variants and common polymorphisms. Missense mutations may disrupt the function of proteins in numerous ways. To evaluate the functional consequences of VMD2 mutations in respect to intracellular mislocalization and/or protein elimination, a set of molecular tools were generated. These included the establishment of an in vitro COS7 heterologous expression assay, the generation of numerous VMD2 mutations by site-directed mutagenesis as well as the development of bestrophin-specific antibodies. Surprisingly, membrane fractionation/Western blot experiments revealed no significant quantitative differences between intact and mutant bestrophin. Irrelevant of the type or location of mutation, incorporation of mutant bestrophin to the membraneous fraction was observed. Thus, impaired membrane integration may be ruled out as causative pathomechanism of Best disease consistent with a dominant-negative effect of the mutations. In a different approach, efforts were directed towards identifying and characterizing the VMD2 RFP-TM protein family in mouse. While clarification of the genomic organization of murine Vmd2 was required as basis to generate Vmd2-targeted animals (see below), the study of closely related proteins (Vmd2L1, Vmd2L2 and Vmd2L3) may provide further clues as to the function of bestrophin. For this, biocomputational as well as RT PCR analyses were performed. Moreover, the novel genes were analyzed by real time quantitative RT PCR, displaying predominant expression in testis, colon and skeletal muscle of Vmd2, Vmd2L1 and Vmd2L3 transcripts, respectively as well as in eye tissue. Interestingly, neither an ORF was determined for murine Vmd2L2 nor was the transcript present in a panel of 12 mouse tissues, suggesting that murine Vmd2L2 may represent a functionally inactive pseudogene. The murine Vmd2L3 gene, as its human counterpart, is a highly differentially spliced transcript. Finally, generating mouse models of Best disease will provide essential tools to investigate the pathophysiology of bestrophin in vivo. We have initiated the generation of two different mouse lineages, one deficient of Vmd2 (knock-out) and the other carrying a human disease-related mutation (Tyr227Asn) in the orthologous murine gene (knock-in). Genetic engineering of both constructs has been achieved and presently, four ES clones harboring the homologous recombination event (Vmd2+/-) have been isolated and are ready for the subsequent steps to generate chimeric animals. The resulting mouse lineages will represent two key models to elucidate the functional role of bestrophin in Best disease, in RPE development and physiology.
A distinguishing feature of eukaryotic cells is the spatial separation of the site of mRNA synthesis (nucleus) from the site of mRNA function (cytoplasm) by the nuclear envelope. As a consequence, mRNAs need to be actively exported from the nucleus to the cytoplasm. At the time when this study was initiated, both human TAP and yeast Mex67p had been proposed to play a role in this process. Work presented in this thesis (section 2.1) revealed that TAP and Mex67p belong to an evolutionarily conserved family of proteins which are characterized by a conserved modular domain organization. This family was termed nuclear export factor (NXF) family. While the yeast genome encodes only one NXF protein (Mex67p), the genomes of higher eukaryotes encode several NXF proteins. There are two nxf genes in C. elegans and A. gambiae, four in D. melanogaster, and at least four in H. sapiens and M. musculus. It was unclear whether, apart from TAP and Mex67p, other members of this family would also be involved in mRNA export. In the first part of this thesis (2.1), several human NXF members were tested for a possible function in nuclear mRNA export. They were analyzed for their interaction with RNA, nucleoporins and other known TAP partners in vitro, and tested for their ability to promote nuclear export of a reporter mRNA in vivo. Using these assays, human NXF2, NXF3 and NXF5 were all shown to interact with the known NXF partner p15. NXF2 and NXF5 were also found to bind directly to RNA, but only NXF2 was able to bind directly to nucleoporins and to promote the nuclear export of an (untethered) reporter mRNA. Thus NXF2 possesses many and NXF3 and NXF5 possess some of the features required to serve as an export receptor for cellular mRNAs. As NXF2 and NXF3 transcripts were mainly found in testis, and the closest orthologue of NXF5 in mouse has the highest levels of expression in brain, these NXF members could potentially serve as tissue-specific mRNA export receptors. In the second part of this work (2.2), the role of different Drosophila NXF proteins and other export factors in mRNA export was investigated using double-stranded RNA interference (RNAi) in Drosophila Schneider cells. Three of the four predicted Drosophila NXF members (NXF1-3) were found to be expressed in this cell line and could be targeted by RNAi. Depletion of endogenous NXF1 inhibited growth and resulted in the nuclear accumulation of polyadenylated RNA. Fluorescence in situ hybridization revealed that export of both heat shock and non-heat shock mRNAs, including intron-containing and intronless mRNAs, was inhibited. Depleting endogenous NXF2 or NXF3 had no apparent phenotype. These results suggested that NXF1 (but not NXF2-NXF4) mediates the export of bulk mRNA in Drosophila cells. We and others have shown that human NXF proteins function as heterodimers bound to the small protein p15. Accordingly, silencing of Drosophila p15 resulted in a block of mRNA export which was indistinguishable from the export inhibition seen after targeting NXF1. These observations indicated that neither NXF1 nor p15 can promote export in the absence of the other subunit of the heterodimer. NXF1:p15 heterodimers are implicated in late steps of mRNA export, i.e. in the translocation of mRNP export cargoes across the nuclear pore complex. The mechanism by which NXF1:p15 dimers are recruited to the mRNA is unclear. A protein that is thought to play a role in this process is the putative RNA helicase UAP56. Similar to NXF1 and p15, UAP56 was shown to be essential for mRNA export in Drosophila. UAP56 is recruited cotranscriptionally to nascent transcripts and was suggested to facilitate the interaction of NXF1:p15 with mRNPs. Even though both NXF1:p15 heterodimers and UAP56 had been implicated in general mRNA export, it was unclear whether there are classes of mRNAs that require NXF1:p15, but not UAP56 or vice versa. It was also unclear what fraction of cellular mRNAs is exported by NXF1:p15 dimers and UAP56, and whether mRNAs exist that reach the cytoplasm through alternative routes, i.e. by recruiting other export receptors. To address these issues we performed a genome-wide analysis of nuclear mRNA export pathways using microarray technology (2.2.2). We analyzed the relative abundance of nearly half of the Drosophila transcriptome in the cytoplasm of Drosophila Schneider cells depleted of different export factors by RNAi. We showed that the vast majority of transcripts were underrepresented in the cytoplasm of cells depleted of NXF1, p15 or UAP56 as compared to control cells. Only a small number of mRNAs were apparently not affected by the depletions. These observations, together with the wide and similar effects on mRNA levels caused by the depletion of NXF1, p15 or UAP56, indicate that these proteins define the major mRNA export pathway in these cells. We also identified a small subset of mRNAs which appeared to be exported by NXF1:p15 dimers independently of UAP56. In contrast, no significant changes in mRNA expression profiles were observed in cells depleted of NXF2 or NXF3, suggesting that neither NXF2 nor NXF3 play an essential role in mRNA export in Drosophila Schneider cells. Crm1 is a transport receptor implicated in the export of a variety of non-mRNA and protein cargoes. In addition, human Crm1 has been suggested to be involved in the export of a specific mRNA species, serving as a "specialized" mRNA export receptor. A role of human Crm1 in the export of bulk mRNA is considered unlikely. We analyzed the role of Drosophila Crm1 in mRNA export by inhibiting Crm1 with the drug leptomycin B in Schneider cells. Subsequent microarray analysis demonstrated that the inactivation of Crm1 resulted in decreased cytoplasmic levels of less than 1% of all mRNAs, indicating that Crm1 is indeed not a major mRNA export receptor. The genome-wide analysis also revealed a feedback loop by which a block to mRNA export triggers the upregulation of genes involved in this process. This thesis also includes two sections describing projects in which I participated during my Ph.D., but which were not the main focus of this thesis. In section 2.3, the role of the different TAP/NXF1 domains in nuclear mRNA export is discussed. Section 2.4 describes results that were obtained as part of a collaboration using the RNAi technique in Schneider cells to study the function of Cdc37.
The extracellular matrix within connective tissues represents a structural scaffold as well as a barrier for motile cells, such as invading tumor cells or passenger leukocytes. It remains unclear how different cell types utilize matrix-degrading enzymes for proteolytic migration strategies and, on the other hand, non-proteolytic strategies to overcome 3D fibrillar matrix networks. To monitor cell migration, a 3D collagen model in vitro or the mouse dermis in vivo were used, in combination with time-lapse video-, confocal- or intravital multiphoton-microscopy, and computer-assisted cell tracking. Expression of proteases, including several MMPs, ADAMs, serine proteases and cathepsins, was shown by flow cytometry, Western blot, zymography, and RT-PCR. Protease activity by migrating HT-1080 fibrosarcoma cells resulting in collagenolysis in situ and generation of tube-like matrix defects was detected by three newly developed techniques:(i) quantitative FITC-release from FITC-labelled collagen, (ii) structural alteration of the pyhsical matrix structure (macroscopically and microscopically), and (iii) the visualization of focal in situ cleavage of individual collagen fibers. The results show that highly invasive ollagenolytic cells utilized a spindle-shaped "mesenchymal" migration strategy, which involved beta1 integrindependent interaction with fibers, coclustering of beta1 integrins and matrix metalloproteinases (MMPs) at fiber bundling sites, and the proteolytic generation of a tube-like matrix-defect by MMPs and additional proteases. In contrast to tumor cells, activated T cells migrated through the collagen fiber network by flexible "amoeboid" crawling including a roundish, elliptoid shape and morphological adaptation along collagen fibers, which was independent of collagenase function and fiber degradation. Abrogation of collagenolysis in tumor cells was achieved by a cocktail of broad-spectrum protease inhibitors at non-toxic conditions blocking collagenolysis by up to 95%. While in T cells protease inhibition induced neither morphodynamic changes nor reduced migration rates, in tumor cells a time-dependent conversion was obtained from proteolytic mesenchymal to non-proteolytic amoeboid migration in collagen lattices in vitro as well as the mouse dermis in vivo monitored by intravital microscopy. Tumor cells vigorously squeezed through matrix gaps and formed constriction rings in regions of narrow space, while the matrix structure remained intact. MMPs were excluded from fiber binding sites and beta1 integrin distribution was non-clustered linear. Besides for fibrosarcoma cells, this mesenchymal-toameboid transition (MAT) was confirmed for epithelial MDA-MB-231 breast carcinoma cells. In conclusion, cells of different origin exhibit significant diversity as well as plasticity of protease function in migration. In tumor cells, MAT could respresent a functionally important cellular and molecular escape pathway in tumor invasion and migration.
Zars and co-workers were able to localize an engram of aversive olfactory memory to the mushroom bodies of Drosophila (Zars et al., 2000). In this thesis, I followed up on this finding in two ways. Inspired by Zars et al. (2000), I first focused on the whether it would also be possible to localize memory extinction.While memory extinction is well established behaviorally, little is known about the underlying circuitry and molecular mechanisms. In extension to the findings by Zars et al (2000), I show that aversive olfactory memories remain localized to a subset of mushroom body Kenyon cells for up to 3 hours. Extinction localizes to the same set of Kenyon cells. This common localization suggests a model in which unreinforced presentations of a previously learned odorant intracellularly antagonizes the signaling cascades underlying memory formation. The second part also targets memory localization, but addresses appetitive memory. I show that memories for the same olfactory cue can be established through either sugar or electric shock reinforcement. Importantly, these memories localize to the same set of neurons within the mushroom body. Thus, the question becomes apparent how the same signal can be associated with different events. It is shown that two different monoamines are specificaly necessary for formation of either of these memories, dopamine in case of electric shock and octopamine in case of sugar memory, respectively. Taking the representation of the olfactory cue within the mushroom bodies into account, the data suggest that the two memory traces are located in the same Kenyon cells, but in separate subcellular domains, one modulated by dopamine, the other by octopamine. Taken together, this study takes two further steps in the search for the engram. (1) The result that in Drosophila olfactory learning several memories are organized within the same set of Kenyon cells is in contrast to the pessimism expressed by Lashley that is might not be possible to localize an engram. (2) Beyond localization, a possibible mechanism how several engrams about the same stimulus can be localized within the same neurons might be suggested by the models of subcellular organisation, as postulated in case of appetitive and aversive memory on the one hand and acquisition and extinction of aversive memory on the other hand.
Living apart together
(2002)
Cohesiveness between members of a social unit is a defining characteristic of animal social organization. Dispersed social organizations, where members of a social unit spend the main part of their activity period apart, have only recently been distinguished from cohesive social organizations and are still poorly understood with respect to their ecological basis and reproductive consequences. The general goal of this dissertation was to study the three components of the social system of fork-marked lemurs (Phaner furcifer), a small nocturnal primate from Madagascar living in dispersed pairs. First, I characterise their social organization, focusing on behavioural mechanisms of cohesion between pair partners. Second, through application of van Schaik's ecological model, I investigate predictions about the ecological basis of female intra-sexual avoidance, male-female social relationships and the determinants of differential female reproductive success. Finally, I analyse behavioural and genetic aspects of the mating system to test a recent hypothesis that proposes high extra-pair paternity in dispersed primate pairs resulting from constraints on male mate guarding. The study was conducted in Kirindy Forest in Madagascar between September 1998 and April 2001 during three field seasons for a total of 20 months. During more than 1400 hours of focal animal protocols, I sampled year-round data on space use, feeding ecology, time budgets, and social behaviour of all adults and three subadults of 8 families, complemented by simultaneous focal follows of both pair partners, year-round information on sleeping site use, measures on food abundance in each territory, morphological measurements, and DNA-microsatellite data for seven newly discovered polymorphic loci. Across eight social units and three breeding seasons, pairs were the prevailing grouping pattern (18 of 21 family years). Most pairs were stable for more than three mating seasons and used well defined stable territories. Although both pair partners used the same territory in a fairly similar fashion, average distance between pair partners was 100m, which was far considering that many territories measure only 200m in diameter. Pair partners spent only about 20% of activity time in less than 25m distance of each other and shared a sleeping site on average only every third day. Females were found to be dominant over their partner as well as over neighbouring males in all behavioural contexts. Most important food resources were exudates of a small number of tree species. Major food resources were distributed in small, defendable patches characterized by fast depletion and rapid renewal. In accordance with the ecological model, this led to strong within-group contest and scramble competition and weak between-group contest competition over food, as indicated by a positive dominance effect and a negative group size effect on female physical condition. Female reproductive success was determined mainly by family size. Paternity likelihood and exclusion analyses revealed that four out of seven offspring were most likely sired by an extra-pair male. Behaviour during the mating season implied that females as well as males take an active part in obtaining extra-pair copulations and that males try to guard their mates. Dispersed social organization in itself, i.e. low cohesion between pair partners, cannot explain high extra-pair paternity. I propose instead that several other factors common to most primates living in dispersed pairs constrain mate guarding and lead to high EPP. The ecological settings determine the mode of food competition and have shaped the social system of fork-marked lemurs in several ways. Intense within-group competition for food may have ultimately led to female intra-sexual avoidance and range exclusivity which represents an evolutionary precursor of pair-living. Although it remains elusive why females ultimately associated with single males, patterns of within-group contest competition for food explain why pair partners avoid each other during nocturnal activity. The limited number of food resources that is used in repetitive fashion and incomplete knowledge about the pair partners position explain why pair partners meet relatively often and why most encounters involve agonistic conflict. Rigid feeding itineraries characteristic of exudate feeders are likely to pose high costs to offspring dispersing to unfamiliar areas. Feeding ecology can, therefore, explain why parents tolerate delayed natal dispersal despite a negative effect on actual female reproductive success. In conclusion, the present study successfully applied existing socio-ecological theory to a new area of research, refined a recent evolutionary model and contributed important comparative data to our understanding of dispersed pairs in particular and primate and animal societies in general.
Originally renowned for their spectacular epigaeic raids, army ants have captured scientific attention for almost two centuries. They now belong to one of the best studied group of ants. However, most of our knowledge about army ants was derived from the study of the minority of specialized, epigaeicly active species. These species evolved probably rather recently from hypogaeic ancestors. The majority of army ant species still leads a hypogaeic life and is almost completely unknown in its entire sociobiology. It thus remained speculative, whether the assumed 'general' characteristics of army ants represent an adaptation to epigaeic activity or apply also to the majority of hypogaeic species. Based on the recent observation that the hypogaeic Asian army ant Dorylus (Dichthadia) laevigatus recruits predictably to palm oil baits, I developed and tested an oil-baiting method for the study of hypogaeic (army)ants. Prior to my study, nothing was known about the sociobiology of the assumed rare D. laevigatus. Throughout my work, I showed D. laevigatus to be very common and abundant in a wide range of habitats in West-Malaysia and on Borneo. Investigating its foraging behavior, I revealed D. laevigatus to differ from epigaeicly active species in several ways. Never demonstrated for any of the epigaeic species, D. laevigatus established stable trunk trail systems. Such a trail system contradicted the perception of army ant foraging, which was believed to be characterized by raids with constantly alternating trail directions. The trunk trail system further enabled a near omnipresence of D. laevigatus within its foraging area, which was also believed to be atypical for an army ant. Raids differed in structure and composition of participating workers from those of epigaeic species. Also, bulky food sources could be exploited over long periods of time. The foraging system of D. laevigatus resembled in several ways that of e.g. leaf-cutter and harvester ants. Likewise contrary to the assumptions, D. laevigatus had a wide food spectrum and showed only little effect on local arthropod communities, even falling itself prey to other ants. Strong aggressive behavior was observed only towards ant species with similar lifestyles, enabling me to provide the first detailed documentation of interspecific fights between two sympatric Dorylus species. Similar to foraging habits or ecological impact, nothing was known about colony size and composition, nesting habits, or worker polymorphism for D. laevigatus or any other hypogaeic Dorylus species prior to my work. By observing and eventually excavating a colony, I showed D. laevigatus to have a much smaller colony size and to lack the large sized workers of epigaeic Dorylus species. Similar to epigaeic Dorylinae, I showed D. laevigatus to have a non-phasic brood production, to emigrate rarely, and to alter its nest form along with habitat conditions. Detailed morphological and geographical descriptions give an impression of the Asian Dorylus species and are expected to aid other researchers in the difficult species identification. The genetic analysis of a male collected at a light trap demonstrated its relation to D. laevigatus. Confirming the male and queen associations, D. laevigatus is now one of five Dorylus species (out of a total of 61), for which all castes are known. In cooperation with D. Kistner, I provide a morphological and taxonomical description of nine Coleopteran beetles associated with D. laevigatus. Behavioral observations indicated the degree of their integration into the colony. The taxonomic position of the beetles further indicated that D. laevigatus emigrated from Africa to Asia, and was accompanied by the majority of associated beetles. The diversity of D. laevigatus guests, which included a number of unidentified mites, was rather low compared to that of epigaeic species. Overall, I demonstrated the developed baiting containers to effectively enable the study of hypogaeic ants. I showed several other hypogaeic ant species to be undersampled by other methods. Furthermore, the method enabled me to documented a second hypogaeic Dorylus species on Borneo. A detailed description of this species' morphology, ecology, and interactions with D. laevigatus is provided. My study indicated D. laevigatus to be an ecologically important species, able to influence soil structure and organisms of tropical regions in many ways. Relating the observed traits of D. laevigatus to epigaeicly active species, I conclude that our assumption of 'general' army ant behavior is erroneous in several aspects and needs to be changed. The oil-baiting method finally provides a tool enabling the location and study of hypogaeic (army)ant species. This opens a broad field for future studies on this cryptic but nonetheless important group of ants.
The number of males in animal groups is an essential determinant of male and female reproductive strategies. Females may benefit from living with several males, whereas males generally strive to monopolize a group of females. Due to male intrasexual competition, the sex ratio of groups of anthropoid primates is generally female-biased. Gregarious Malagasy lemurs deviate from theoretical expectations derived from sexual selection theory and from patterns found among anthropoids because they live in relatively small groups with an even or male-biased adult sex ratio and lack sexual dimorphism. The aim of this thesis was to investigate sex-specific reproductive strategies relating to the unusual group composition of redfronted lemurs (Eulemur fulvus rufus) by combining behavioral, demographic and endocrinological data. In the first of a set of four studies I investigated the applicability of non-invasive endocrine measurements for monitoring ovarian function in wild redfronted lemur females in order to evaluate the degree of estrus synchrony. Further, I tested the prediction that males living in multi-male groups rely on indirect mechanisms of intrasexual competition, such as physiological suppression of testicular function. Several possible benefits gained from living with many males have been proposed and the hypothesis that additional males improve social thermoregulation was tested in the third study. Finally, I examined the proximate determinants of the unusual sex ratio within groups, the variation in the adult sex ratio as well as possible social benefits of the high number of males for both sexes. The study was conducted in Kirindy Forest, Madagascar, between April 1999 and July 2000. I recorded >3000 hours of focal animal data on social and sexual behavior of all adult members of five groups. Additionally, >2200 fecal samples of males and females were collected for subsequent hormone analysis using enzymeimmunoassay (EIA). Further, I analyzed demographic data from seven Eulemur fulvus rufus groups collected between 1996 and 2002. The analyses of fecal estrogen and progestogen excretion in wild and captive females revealed that monitoring ovarian function is principally possible in redfronted lemurs, as demonstrated by the analysis of samples from captive females. Characterization of ovarian cycles in wild females, however, was not possible, because of a high day-to-day variability in excreted hormones. Nevertheless, the study provided reliable information on gestation and cycle length as well as endocrine changes associated with gestation. Additionally, I established a method for prenatal sex determination using maternal fecal samples collected during late gestation. The excretion pattern of androgens in samples of males revealed no differences between dominant and subordinate males, indicating that dominant males did not suppress the endocrine function of subordinate rivals. High frequencies of matings in combination with large testes size suggest that male reproductive competition relies at least partly on sperm competition. Females did not benefit from the high number of males in their groups in terms of improved thermoregulation because surplus males did not participate frequently in huddling groups with females. Analysis of the demographic data revealed that birth and mortality rates were not sex-biased and that males migrated considerably more frequently than females, providing no proximate explanation for the unusual sex ratio. Females in this study may proximately regulate group composition by synchronizing their fertile periods, which were inferred indirectly from the temporal distribution of births within groups. Both males and females benefit from the high number of co-resident males because reduced male group size seemed to be the main predictor of take-over rate, and thus, infanticide risk. The results of these studies suggest that certain life history traits (fast maturation, short inter-birth intervals) may ultimately determine the high number of males and the lack of single-male groups seen in redfronted lemurs. An accelerated male life history may facilitate joint group transfers and take-overs of male coalitions without a transitional time outside bisexual groups. Because males and females both benefit from a high number of males the conflict of interests between the sexes is considerably defused.
The first goal of this study was to develop cell lines with a stable expression of bio-fluorescent topo II and topo I. This was successfully achieved using a bicistronic vector system. Control experiments showed that proteins of expected size were expressed, and that GFP-tagged topos I, IIa, and IIb were active in the cells and fully integrated in the endogenous pools of the enzymes. These cell-lines provided a novel tool for investigating the cell biology of human DNA topoisomerases. Our most important finding was, that both types of mammalian topoisomerases are entirely mobile proteins that are in continuous and rapid flux between all compartments of the nucleus and between the cytososl and the chromosomes of mitotic cells. This was particularly surprising with regard to topo II, which is considered to be a structural component of the nuclear matrix and the chromosome scaffold. We must conclude that if this was the case, then these architectural structures appear to be much more dynamic than believed until now. In this context it should also be mentioned, that the alignment of topo II with the central axes of the chromosome arms, which has until now been considered a hall-mark of the enzyme’s association with the chromosomal scaffold, is not seen in vivo and can be demonstrated to be to some extent an artefact of immunohistochemistry. Furthermore, we show that the two isoforms of topo II (a and b) have a different localisation during mitotic cell division, supporting the general concept that topo II functions at mitosis are exclusively assigned to the a-form, whereas at interphase the two isoenzymes work in concert. Despite unrestricted mobility within the entire nuclear space, topoisomerases I and II impose as mostly nucleolar proteins. We show that this is due to the fact that in the nucleoli they are moving slower than in the nucleoplasm. The decreased nucleolar mobility cannot be due to DNA-interactions, because compounds that fix topoisomerases to the DNA deplete them from the nucleoli. Interestingly, the subnucleolar distribution of topoisomerases I and II was complementary. The type II enzyme filled the entire nucleolar space, but excluded the fibrial centers, whereas topo I accumulated at the fibrial centers, an allocation directed by the enzyme’s N-terminus. During mitosis, it also mediates association with the nucleolar organising regions of the acrocentric chromosomes. Thus, topo I stays associated with the rDNA during the entire cell-cycle and consistently colocalizes there with RNA-polymerase I. Finally, we show that certain cancer drugs believed to act by stabilising covalent catalytic DNA-intermediates of topoisomerases, do indeed immobilize the enzymes in living cells. Interestingly, these drugs do not target topoisomerases in the nucleoli but only in the nucleoplasm.
Transforming-Growth-Factor-beta1 (TGF-b1) is a multifunctional cytokine that regulates cell growth and differentiation in many types of cells. TGF-b1 is especially known to exert a variety of regulatory functions in the immune system, such as T cell differentiation and T cell function. Signal transduction of TGF-b1 is mediated by phosphorylation of receptorassociated Smad proteins (R-Smads). R-Smads are phosphorylated by the activated type I receptor, which is itself phosphorylated by the high affinity type II receptor upon ligand binding. The phosphorylated R-Smads then associate with Co-Smads. Heterooligomers of R- and Co-Smads translocate into the nucleus where they regulate transcription of target genes in concert with other transcription factors such as CBP/p300 or AP-1. Recent findings suggest that the pleiotropic effects of TGF-b1 are conferred by crosstalks to other signal transduction pathways such as the MAP-kinases or the STAT-pathway. Here we describe the effect of long-term exposure to TGF-b1 on the effector function of differentially stimulated primary murine splenocytes and purified primary murine CD8+ cytotoxic T cells. Long-term exposure to TGF-b1 results in non-responsiveness to TGF-b1- induced Smad2 phosphorylation. This is seen either by no phosphorylation or sustained phosphorylation of Smad2. Furthermore, we observed a strong correlation between sustained Smad2 phosphorylation and resistance to TGF-b1 mediated growth inhibition. In contrast, splenocyte cultures strongly growth inhibited by TGF-b1 showed no Smad2 phosphorylation. Lytic activity of these cultures, however, was found to be suppressed regardless of proliferation properties and Smad2 phosphorylation pattern. We also describe that a functional MEK-1 pathway is a prerequisite for rendering murine splenocytes unresponsive to TGF-b1 mediated growth inhibition, and that inhibition of the MEK-1 cascade alters the Smad2 phosphorylation pattern. In addition, we show that resistance to TGF-b1 mediated growth inhibition correlates with the activation of the JNK pathway. However, the resistant phenotype was found unable to be reverted upon administration of exogeneous IFNg and/or aCD28 antibody. In human or mouse T cell lines, however, the described correlation between the type of stimulation and TGF-b growth resistance or growth sensitivity is not present. Thus, this correlation is specific for primary T cells. We also cloned a chimeric dominantnegative TGF-b receptor which is coupled to a suicide gene, in order to render T cells resistant to TGF-b mediated effects.These findings shed light on how TGF-b1 mediates its immunosuppressive role, and may help to gain knowledge of averting these TGF-b1 effects in the course of tumor therapy.
Transforming growth factor-ß (TGF-ß) is a multifunctional cytokine that is engaged in regulating versatile cellular processes that are pivotal for development and homeostasis of most tissues in multicellular organisms. TGF-ß signal transduction is initially propagated by binding of TGF-ß to transmembrane serine/threonine kinase receptors, designated TßRI and TßRII. Upon activation, the receptors phosphorylate Smad proteins which serve as downstream mediators that enter the nucleus and finally trigger transcriptional responses of specific genes. During the past years, it became evident that signaling cascades do not proceed in a linear fashion but rather represent a complex network of numerous pathways that mutually influence each other. Along these lines, members of the TGF-ß superfamily are attributed to synergize with neurotrophins. Together, they mediate neurotrophic effects in different populations of the nervous system, suggesting that an interdependence exists between TGF-ßs on the one hand and neurotrophins on the other. In the present work, the crosstalk of NGF and TGF-ß/Smad signaling pathways is characterized in rat pheochromocytoma cells (PC12) which are frequently used as a model system for neuronal differentiation. PC12 cells were found to be unresponsive to TGF-ß due to limiting levels of TßRII. However, stimulation with NGF results in initiation of Smad-mediated transcription independent of TGF-ß. Binding of NGF to functional TrkA receptors triggers activation of Smad3. This NGF-dependent Smad activation occurs by a mechanism which is different from being induced by TGF-ß receptors in that it provokes a different phosphorylation pattern of R-Smads. Together with an inferior role of TßRI, Smad3 is proposed to serve as a substrate for cellular kinases other than TßRI. Based on the presented involvement of components of both, the MAPK/Erk and the TAK1/MKK6 cascade, signal mediators of these pathways rank as candidates to mediate direct activation of Smad3. Smad3 is subsequently translocated to the nucleus and activates transcription in a Smad4-dependent manner. Negative regulation is provided by Smad7 which was found to act as a potent inhibitor of Smad signaling not only in TGF-ß- but also in NGF-mediated cascades. The potential of NGF to activate the Smad pathway independent of TGF-ß might be of special importance in regulating expression of genes that are essential for the development and function of neuronal cells or of other NGF-sensitive cells, in particular those which are TGF-ß-resistant.
Characterization of memories and ignorant (S6KII) mutants in operant conditioning in the heat-box
(2002)
Learning and memory processes of operant conditioning in the heat-box were analysed. Age, sex, and larval desity were not critical parameters influencing memory, while low or high activity levels of flies were negatively correlated with their performance. In a search for conditioning parameters leading to high retention scores, intermittent training was shown to give better results than continuous training. As the memory test is the immediate continuation of the conditioning phase just omitting reinforcement, we obtain a memory which consists of two components: a spatial preference for one side of the chamber and a stay-where-you-are effect in which the side preference is contaminated by the persistence of heat avoidance. Intermittent training strengthens the latter. In the next part, memory retention was investigated. Flies were trained in one chamber and tested in a second one after a brief reminder training. With this direct transfer, memory scores reflect an associative learning process in the first chamber. To investigate memory retention after extended time periods, indirect transfer experiments were performed. The fly was transferred to a different environment between training and test phases. With this procedure an after-effect of the training was still observed two hours later. Surprisingly, exposure to the chamber without conditioning also lead to a memory effect in the indirect transfer experiment. This exposure effect revealed a dispositional change that facilitates operant learning during the reminder training. The various memory effects are independent of the mushroom bodies. The transfer experiments and yoked controls proved that the heat-box records an associative memory. Even two hours after the operant conditioning procedure, the fly remembers that its position in the chamber controls temperature. The cAMP signaling cascade is involved in heat-box learning. Thus, amnesiac, rutabaga, and dunce mutants have an impaired learning / memory. Searching for, yet unknown, genes and signaling cascades involved in operant conditioning, a Drosophila melanogaster mutant screen with 1221 viable X-chromosome P-element lines was performed. 29 lines with consistently reduced heat avoidance/ learning or memory scores were isolated. Among those, three lines have the p[lacW] located in the amnesiac ORF, confirming that with the chosen candidate criteria the heat-box is a useful tool to screen for learning and /or memory mutants. The mutant line ignP1 (8522), which is defective in the gene encoding p90 ribosomal S6 kinase (S6KII), was investigated. The P-insertion of line ignP1 is the first Drosophila mutation in the ignorant (S6KII) gene. It has the transposon inserted in the first exon. Mutant males are characterized by low training performance, while females perform well in the standard experiment. Several deletion mutants of the ignorant gene have been generated. In precise jumpouts the phenotype was reverted. Imprecise jumpouts with a partial loss of the coding region were defective in operant conditioning. Surprisingly, null mutants showed wild-type behavior. This might indicate an indirect effect of the mutated ignorant gene on learning processes. In classical odor avoidance conditioning, ignorant null mutants showed a defect in the 3-min, 30-min, and 3-hr memory, while the precise jumpout of the transposon resulted in a reversion of the behavioral phenotype. Deviating results from operant and classical conditioning indicate different roles for S6KII in the two types of learning.
The hematopoietic-specific Rho-family GTP exchange factor (GEF) Vav-1 is a regulator of lymphocyte antigen receptor signaling and mediates normal maturation and activation of B and T cells. Recent findings suggest that Vav-1 also forms part of signaling pathways required for natural and antibody dependent cellular cytotoxicity (ADCC) of human NK cells. In this study, I show that Vav-1 is also expressed in murine NK cells. Vav-1-/- mice had normal numbers of splenic NK cells, and these displayed a similar expression profile of NK cell receptors as cells from wild type mice. Unexpectedly, IL-2-activated Vav-1-/- NK cells retained normal ADCC. Fc-receptor mediated activation of ERK, JNK, and p38 was also normal. In contrast, Vav-1-/- NK cells exhibited reduced natural cytotoxicity against EL4, C4.4.25, RMA and RMA/S. Together, these results demonstrate that Vav-1 is dispensable for mainstream NK cell development, but is required for NK cell natural cytotoxicity. Vav-2, a protein homologous to Vav-1 has also been implicated in NK cell functions. However, NK cells from Vav-2-/- mice have normal cytotoxic activities and NK cells that lack both Vav-1 and Vav-2 exhibit similar defect as Vav-1-/- cells. Thus Vav-2 has no apparent function in the development and the activation of NK cells. Although NK cell development is normal in Vav-1-/- mice, their numbers of NKT cells were dramatically diminished. Furthermore, NKT cells from Vav-1 mutant mice failed to produce IL-4 and IFNg following in vivo CD3 stimulation. A similar loss of NKT cells was observed in Vav-1-/-Vav-2-/- mice, but not in Vav-2-/- mice, suggesting that only Vav-1, and not Vav-2, is an essential regulator of NKT cell development and NK cell cytotoxicity. Similar to Vav-1, Lsc is a Rho GEF that is expressed specifically in the hematopoietic system. It contains a regulator of G-protein signaling (RGS) domain which negatively regulates the Ga12 and Ga13 subunits of G-protein coupled receptors (GPCRs). This study shows that NK and NKT cell development are normal in Lsc-/- mice. However, NK cells from mutant mice display enhanced cytotoxic responses towards a panel of tumor cells. These data implicate for the first time a RGS-containing Rho GEF in cytotoxic responses and suggest that Lsc down-modulate NK cell activation.
OMB and ORG-1
(2002)
Members of the T-box gene family encode transcription factors that play key roles during embryonic development and organogenesis of invertebrates and vertebrates. The defining feature of T-box proteins is an about 200 aa large, conserved DNA binding motif, the T domain. Their importance for proper development is highlighted by the dramatic phenotypes of T-box mutant animals. My thesis was mainly focused on two Drosophila T-box genes, optomotor-blind (omb) and optomotor-blind related 1 (org-1), and included (i) a genetic analysis of org-1 and (ii) the identification of molecular determinants within OMB and ORG-1 that confer functional specificity. (i) Genetic analysis of org-1 initially based on a behavioral Drosophila mutant, C31. C31 is a X-linked, recessive mutant and was mapped to 7E-F, the cytological region of org-1. This pleiotropic mutant is manifested in walking defects, structural aberrations in the central brain, and "held-out" wings. Molecular analysis revealed that C31 contains an insertion of a 5' truncated I retrotransposon within the 3' untranslated transcript of org-1, suggesting that C31 might represent the first org-1 mutant. Based on this hypothesis, we screened 44.500 F1 female offspring of EMS mutagenized males and C31 females for the "held-out" phenotype, but failed to isolate any C31 or org-1 mutant, although this mutagenesis was functional per se. Since we could not exclude the possibility that our failure is due to an idiosyncracy of C31, we intended not to rely on C31 in further genetic experiments and followed a reverse genetic strategy . All P element lines cytologically mapping to 7E-7F were characterized for their precise insertion sites. 13 of the 19 analyzed lines had P element insertions within a hot-spot 37 kb downstream of org-1. No P element insertions within org-1 could be identified, but several P element insertions were determined on either side of org-1. The org-1 nearest insertions were used for local-hop experiments, in which we associated 6 new genes with P insertions, but failed to target org-1. The closest P elements are still 10 kb away from org-1. Subsequently, we employed org-1 flanking P elements to induce precise deletions in 7E-F spanning org-1. Two org-1 flanking P elements were brought together on a recombinant chromosome. Remobilization of P elements in cis configuration frequently results in deletions with the P element insertion sites as deficiency endpoints. In a first attempt, we expected to identify deficiencies by screening for C31 alleles. 8 new C31 alleles could be isolated. The new C31 chromosomes, however, did not carry the desired deletion. Molecular analysis indicated that C31 is not caused by aberrations in org-1, but by mutations in a distal locus. We repeated the P element remobilization and screened for the absence of P element markers. 4 lethal chromosomes could be isolated with a deletion of the org-1 locus. (ii) The consequences of ectopic org-1 were analyzed using UAS-org-1 transgenic flies and a number of different Gal4 driver lines. Misexpression of org-1 during imaginal development interfered with the normal development of many organs and resulted in flies with a plethora of phenotypes. These include a homeotic transformation of distal antenna (flagellum) into distal leg structures, a strong size reduction of the legs along their proximo-distal axis, and stunted wings. Like ectopic org-1, ectopic omb leads to dramatic changes of normal developmental pathways in Drosophila as well. dpp-Gal4/ UAS-omb flies are late pupal lethal and show an ectopic pair of wings and largely reduced eyes. GMR-Gal4 driven ectopic omb expression in the developing eye causes a degeneration of the photoreceptor cells, while GMR-Gal4/ UAS-org-1 flies have intact eyes. Hence, ectopic org-1 and omb induce profound phenotypes that are qualitatively different for these homologous genes. To begin to address the question where within OMB and ORG-1 the specificity determinants reside, we conceptionally subdivided both proteins into three domains and tested the relevance ofthese domains for functional specificity in vivo. The single domains were cloned and used as modules to assemble all possible omb-org-1 chimeric trans- genes. A method was developed to determine the relative expression strength of different UAS-transgenes, allowing to compare the various transgenic constructs for qualitative differences only, excluding different transgene quantities. Analysis of chimeric omb-org-1 transgenes with the GMR-Gal4 driver revealed that all three OMB domains contribute to functional specificity.
In this thesis, I examined honey bee nectar foraging with emphasis on the communication system. To document how a honey bee colony adjusts its daily nectar foraging effort, I observed a random sample of individually marked workers during the entire day, and then estimated the number and activity of all nectar foragers in the colony. The total number of active nectar foragers in a colony changed frequently between days. Foraging activity did not usually change between days. A honey bee colony adjusts its daily foraging effort by changing the number of its nectar foragers rather than their activity. I tested whether volatiles produced by a foraging colony activated nectar foragers of a non-foraging colony by connecting with a glass tube two colonies. Each colony had access to a different green house. In 50% of all experiments, volatile substances from the foraging colony stimulated nectar foragers of the non-foraging colony to fly to an empty feeder. The results of this study show that honey bees can produce a chemical signal or cue that activates nectar foragers. However, more experiments are needed to establish the significance of the activating volatiles for the foraging communication system. The brief piping signal of nectar foragers inhibits forager recruitment by stopping waggle dances (Nieh 1993, Kirchner 1993). However, I observed that many piping signals (approximately 43%) were produced off the dance floor, a restricted area in the hive where most waggle dances are performed. If the inhibition of waggle dances would be the only function of the brief piping signal, tremble dancers should produce piping signals mainly on the dance floor, where the probability to encounter waggle dancers is highest. To therefore investigate the piping signal in more detail, I experimentally established the foraging context of the brief piping signal, characterized its acoustic properties, and documented for the first time the unique behavior of piping nectar foragers by observing foragers throughout their entire stay in the hive. Piping nectar foragers usually began to tremble dance immediately upon their return into the hive, spent more time in the hive, more time dancing, had longer unloading latencies, and were the only foragers that sometimes unloaded their nectar directly into cells instead of giving it to a nectar receiver bee. Most of the brief piping signals (approximately 99%) were produced by tremble dancers, yet not all tremble dancers (approximately 48%) piped. This suggests that piping and tremble dancing have related, but not identical functions in the foraging system. Thus, the brief piping signals may not only inhibit forager recruitment, but have an additional function both on and off the dance floor. In particular, the piping signal might function 1. to stop the recruitment of additional nectar foragers, and 2. as a modulatory signal to alter the response threshold of signal receivers to the tremble dance. The observation that piping tremble dancers often did not experience long unloading delays before they started to dance gave rise to a question. A forager’s unloading delay provides reliable information about the relative work capacities of nectar foragers and nectar receivers, because each returning forager unloads her nectar to a nectar receiver before she takes off for the next foraging trip. Queuing delays for either foragers or receivers lower foraging efficiency and can be eliminated by recruiting workers to the group in shortage. Short unloading delays indicate to the nectar forager a shortage of foragers and stimulate waggle dancing which recruits nectar foragers. Long unloading delays indicate a shortage of nectar receivers and stimulate tremble dancing which recruits nectar receivers (Seeley 1992, Seeley et al. 1996). Because the short unloading delays of piping tremble dancers indicated that tremble dancing can be elicited by other factors than long unloading delays, I tested whether a hive-external stimulus, the density of foragers at the food source, stimulated tremble dancing directly. The experiments show that tremble dancing can be caused directly by a high density of foragers at the food source and suggest that tremble dancing can be elicited by a decrease of foraging efficiency either inside (e.g. shortage of receiver bees) or outside (e.g. difficulty of loading nectar) the hive. Tremble dancing as a reaction to hive-external stimuli seems to occur under natural conditions and can thus be expected to have some adaptive significance. The results imply that if the hive-external factors that elicit tremble dancing do not indicate a shortage of nectar receiver bees in the hive, the function of the tremble dance may not be restricted to the recruitment of additional nectar receivers, but might be the inhibition or re-organization of nectar foraging.
In the various groups of social bees, different systems of communication about food sources occur. These communication systems are different solutions to a common problem of social insects: efficiently allocating the necessary number of workers first to the task of foraging and second to the most profitable food sources. The solution chosen by each species depends on the particular ecological circumstances as well as the evolutionary history of that species. For example, the outstanding difference between the bumble bee and the honey bee system is that honey bees can communicate the location of profitable food sources to nestmates, which bumble bees cannot. To identify possible selection pressures that could explain this difference, I have quantified the benefits of communicating location in honey bees. I show that these strongly depend on the habitat, and that communicating location might not benefit bees in temperate habitats. This could be due to the differing spatial distributions of resources in different habitats, in particular between temperate and tropical regions. These distributions may be the reason why the mostly temperate-living bumble bees have never evolved a communication system that allows them to transfer information on location of food sources, whereas most tropical social bees (all honey bees and many stingless bees) are able to recruit nestmates to specific points in their foraging range. Nevertheless, I show that in bumble bees the allocation of workers to foraging is also regulated by communication. Successful foragers distribute in the nest a pheromone which alerts other bees to the presence of food. This pheromone stems from a tergite gland, the function of which had not been identified previously. Usage of a pheromone in the nest to alert other individuals to forage has not been described in other social insects, and might constitute a new mode of communicating about food sources. The signal might be modulated depending on the quality of the food source. Bees in the nest sample the nectar that has been brought into the nest. Their decision whether to go out and forage depends not only on the pheromone signal, but also on the quality of the nectar they have sampled. In this way, foraging activity of a bumble bee colony is adjusted to foraging conditions, which means most bees are allocated to foraging only if high-quality food sources are available. In addition, foraging activity is adjusted to the amount of food already stored. In a colony with full honeypots, no new bees are allocated to foraging. These results help us understand how the allocation of workers to the task of food collection is regulated according to external and internal nest conditions in bumble bees.
Clinical evaluation of novel methods to determine dialysis parameters using conductivity cells
(2002)
Eine die letzten beiden Jahrzehnte anhaltende Diskussion über die erforderliche Dosis Dialyse, die ein Patient benötigt, ergab, daß der Harnstoff-basierte Kt/V-Wert signifikant mit der Morbidität von ‚end stage renal deasease' (ESRD)- Patienten korreliert. Wenn auch nicht vollständig akzeptiert, so scheint es doch zunehmende Übereinkunft zwischen Nephrologen, daß eine angemessene Dialysebehandlung von Patienten ohne Restdiurese im Rahmen eines 3x4 Stunden pro Woche- Schemas mindestens einen Kt/V-Wert von 1.2 bis 1.3 ergeben sollte, um auf lange Sicht die Lebensqualität zu sichern und die Morbidität und Mortalität niedrig zu halten. K ist die vom Dialysesystem erbrachte Clearance, t die Behandlungszeit und V das Harnstoff-Verteilungsvolumen, welches dem Gesamt-Körperwasser nahezu gleicht. Kt/V wird in der Dosiseinheit (ml Medikament pro ml Körperwasser) ausgedrückt und daher auch häufig als Dialyse-‚Dosis' bezeichnet, auch wenn darüber wegen der Zusammenfassung in nur einer Harnstoff-korrelierten Zahl konträr diskutiert wird. Diese Arbeit besitzt eine eher technische Prämisse und möchte sich nicht an dieser Diskussion beteiligen. Sie möchte dem interessierten Nephrologen lediglich eine patientenfreundliche, präzise, kostenneutrale und leicht zu handhabende technische Lösung an die Hand geben, um kontinuierlich die in Kt/V ausgedrückte Dialysedosis zu überwachen. Natürlich ist damit auch die Hoffnung verbunden, daß die Langzeit-Sterblichkeit verringert werden kann, wenn eine flächendeckende, zeitnahe Erfolgskontrolle der Dialyse ermöglicht wird. Die gewählte technische Lösung basiert auf der Äquivalenz der Diffusionskoeffizienten von gelöstem Harnstoff und Natriumchlorid. Es ist das zentrale Anliegen dieser Studie, festzustellen, ob das Diffusionsverhalten von NaCl und Harnstoff beim Durchtritt durch die Membran des Dialysefilters gleich ist. Der entscheidende Vorteil, der das Verfahren so leicht handhabbar macht, besteht darin, daß NaCl-Konzentrationen sehr genau durch die ohnehin in großer Zahl in Dialysegeräten verwendeten Leitfähigkeitsmeßzellen bestimmt werden können. Um die NaCl-Massenbilanz über den Dialysefilter zu bestimmen, benötigt man lediglich eine weitere Meßzelle, die stromab des Filters zu installieren ist. Die Messung von Harnstoff, die indirekt über die enzymatische Zerlegung in Ammonium-Ionen und das anschließende Erzeugen eines hoch zu verstärkenden elektrischen Potentials an einer Membran geschieht, ist komplizierter. Zudem ist eine geschlossene Kühlkette für das Enzym sicher zu stellen. Um eine leitfähigkeitsbasierte technische Lösung abzusichern, wurden zwei klinische Studien durchgeführt. In der ersten Studie wurde die Leitfähigkeit in Form von konstanten Stufenprofilen variiert. Sie wurde ausgehend von der Grundlinie für 7 min erhöht und anschließend für 7 min erniedrigt. Das Prinzip einer solchen Messung wurde erstmals 1982 in einer Patentschrift beschrieben. In einer Sequenz von 494 solchen Messungen in 206 automatisch aufgezeichneten Dialysesitzungen an 22 Patienten wurde gefunden, daß sich die Harnstoff- Clearance elektrolytisch mit einer Genauigkeit von -1.46+/-4.75% (Fehler+/-Standardabweichung) messen ließ. Die Messung von Kt/V gemäß dem Ein-Kompartment-Modell ergab eine ähnliche Genauigkeit von 2.88+/-4.15%. Obgleich diese Ergebnisse in Übereinstimmung mit anderen Studien stehen, wurde ein Effekt bemerkt, der nicht in Einklang mit der zunächst bestehenden Theorie zu bringen war. Dieser Effekt besteht darin, daß die Genauigkeit der elektrolytischen Clearancemessung vom beim Patienten vorhandenen Harnstoff-Verteilungsvolumen abhängig war. Weiter war es nicht bedeutungslos, welchen Teil des dreiteiligen Stufenprofils man zur Auswertung heranzog: Den Grundlinie-Hoch- Übergang, den von der Grundlinie zum Niedrig-Nieveau oder den Hoch-Niedrig- Übergang. Dies deutete auf einen Mangel an theoretischem Verständnis hin. Eine genaue weitere Untersuchung führte zu dem Ergebnis, daß unerwünschter NaCl-Transfer vom und zum Patienten die Ursache für die Abhängigkeit vom Verteilungsvolumen war. Es wurde daraufhin die Theorie dahingehend erweitert, daß dieser Effekt korrekt und plausibel beschrieben werden konnte. Aus dieser Erweiterung ergab sich die neue Forderung, den NaCl-Transfer bei der Messung weitestgehend zu minimieren. Die Benutzung von Stufenprofilen stellte hier jedoch an sich eine Limitierung dar, da in der zum Einnehmen eines stabilen Zustandes erforderlichen Zeit zuviel NaCl über die Membran transferiert wurde. Die Konsequenz war, von den Stufenprofilen auf kurze, dynamische Leitfähigkeitsboli überzugehen, die erlaubten, die NaCl-Gabe auf das Maß zu verringern, welches aufgrund der technischen Auflösung erforderlich war. Hierzu mußten jedoch die notwendigen mathematischen Algorithmen neu zugeschnitten werden. Nach diesem Schritt wurde eine weitere klinische Studie gestartet, die den Zweck verfolgte, das neue Verfahren am Patienten zu verifizieren. In dieser Studie mit 10 Patienten und 93 Dialysesitzungen, 264 Stufenprofil- und 173 Bolus-Dialysancemesssungen wurde gefunden, daß die Bolus-Messungen ihre zugehörigen blutseitigen Referenzmessungen mit außergewöhnlicher Genauigkeit von 0.06+/-4.76% trafen. Student's t-Test für gepaarte Daten ergab, daß sich die Datensätze nicht signifikant unterschieden (p=0.87). Die blutseitige Kt/V-Referenz auf der Basis des equilibrierten Einkompartment-Modells mit variablem Volumen wurde mit 5.32+/-3.9% getroffen, wobei eine Korrelation von 0.98 erzielt wurde. Die verbleibende Differenz von 5.32% wird der Vernachlässigung der Harnstoff-Erzeugung während der Messung zugeschrieben. Auch das Stufenprofil zeigte trotz seiner Abhängigkeit vom Verteilungsvolumen gegenüber dem gleichen Modell einen mittleren Fehler von 0.05+/-5% bei einer Korrelation von 0.96. Jedoch konnte es die Vernachlässigung der Harnstoff-Erzeugung nicht korrekt abbilden. Die kontinuierlich aufgenommenen Daten wurden auch nach dem 2-pool Modell untersucht, welches auch die Harnstoff-Erzeugung enthält sowie eine innere Kompartimentierung des Patienten annimmt und damit die tatsächlichen Verhältnisse besser beschreibt. Danach weicht das Bolus-Meßprinzip -3.04+/-14.3% von der Referenz ab (n.s.,p=0.13). Die relativ hohe Standardabweichung wird mit der Komplexität des Modells erklärt. Weiter ist aus der Theorie zum Na-Transfer eine vereinfachende Methode zur Messung des Na-Verteilungsvolumens abgeleitet worden. Diese Methode wurde in-vitro gegen ein Behältnis mit einer bekannten Menge an Dialysat geprüft. Es wurde ein mittlerer Fehler von -19.9+/-34% gefunden. Die Korrelation war 0.92 (n.s., p=0.916). Die gleiche Prüfung fand in-vivo gegen das Harnstoff-Verteilungsvolumen statt und ergab einen mittleren Fehler von -7.4+/-23.2% (r=0.71, n.s., p=0.39). Es hat den Anschein, als würden sich gemäß der Theorie der Dilution die Verteilungsvolumina für Natrium und für Harnstoff scheinbar nur wenig unterscheiden, obwohl sie sich absolut natürlich deutlich unterscheiden. In Anbetracht der erheblichen Vereinfachungen, die bei der Ableitung dieses Ansatzes gemacht wurden, scheint es ausgesprochen ermutigend, auf diesem Weg möglicherweise ein Verfahren entwickeln zu können, welches auf rein elektrolytischem Wege nun nicht mehr nur K, sondern auch V und damit alle zur Quantifizierung gesuchten Größen analytisch ermitteln kann. Weiter wurde im Rahmen dieser Arbeit anhand der analytisch ermittelten Volumina verglichen, ob man mit Hilfe anthropometrischer Formeln zur Ermittlung des Harnstoff-Verteilungsvolumens zu einer guten Abschätzung kommen kann. Es wurde gefunden, daß man das Ergebnis der Watson-Formel um ca. 13% vermindern kann und dann zu einem recht guten Wert für das tatsächliche Harnstoff-Verteilungsvolumen gelangt. Dies ist jedoch mit Vorsicht und Erfahrung zu tun, da sich damit Kt/V rechnerisch zum Nachteil des Patienten verändert. Auch ein elektrolytisches Verfahren mit empirischen Komponenten zur Ermittlung des Plasma-Natriums des Patienten wurde erprobt und konnte mit einer Genauigkeit von 4.3+/-1.2% den Laborwert vorhersagen. Zusammenfassend kann gesagt werden, daß sich im Rahmen dieser Arbeit die leitfähigkeitsbasierten Methoden zur Messung von einigen wichtigen Dialyseparametern als sehr nützlich für die klinische Praxis erwiesen haben und zudem mit keinem Zusatzaufwand für die Beteiligten verbunden sind. Das Ergebnis dieser Arbeit ist mittlerweile in größeren Stückzahlen in frei erhältliche Dialysegeräte implementiert worden. Die Erfahrung der ersten Zeit zeigt, daß das verwendete Prinzip von den Klinikern gut angenommen wird.