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The ability to produce toxins is spread among a huge variety of bacterial strains. A very prominent class of bacterial protein toxins is the family of binary AB toxins sharing a common mode of intoxication. A pore forming component B binds and translocates an enzymatic component A into the cytosol of target cells exhibiting a fatal mode of action. These components are supposed to be not toxic themselves but both required for cell toxicity. Anthrax toxin produced by the Gram-positive bacteria Bacillus anthracis is the best studied binary toxin especially since its use as a biological weapon in the context of the attacks of 9/11 in 2001. In contrast to other binary toxins, Anthrax toxin possesses two different enzymatic components, edema factor (EF), a calcium- and calmodulin-dependent adenylat-cyclase and lethal factor (LF), a zinc-dependent metalloprotease. Protective antigen (PA) is the pore-forming component responsible for binding and translocation. Clostridium botulinum possesses in addition to the well known botulinum toxin (Botox) a variety of other toxins, such as the binary C2 toxin. C2 toxin is composed of the binding and translocation moiety C2II and the enzymatic moiety C2I acting as an actin-ADP-ribosyltransferase. In this study, the mode of translocation and the binding kinetics to the enzymatic component were studied in a biophysical experimental setup. In chapter 2, the binding of the N-terminal fractions EFN and LFN to the PA channel are analyzed in artificial bilayer membranes revealing lower binding affinity compared to full-length EF and LF. Other biophysical properties like voltage-dependency and ionic-strength dependency are not influenced. The results suggest that additional forces are involved in the binding process, than those concerning the N-terminus exclusively, as it was supposed previously. As the treatment of an Anthrax infection with antibiotics is often medicated very late due to the lack of early symptoms, tools to prevent intoxication are required. 4-aminoquinolones like chloroquine are known to block the PA channel, thereby inhibiting intoxication but they also lead to severe side-effects. In chapter 3 new promising agents are described that bind to PA in artificial bilayer systems, elucidating common motives and features which are necessary for binding to PA in general. The possible interaction of Anthrax and C2 toxin is investigated by measuring the binding of one enzymatic component to the respective other toxin’s pore (chapter 4). Interestingly, in vitro experiments using the black lipid bilayer assay show that PA is able to bind to C2I resulting in half saturation constants in the nanomolar range. Furthermore, in vivo this combination of toxin components exhibits cell toxicity in human cell lines. This is first-time evidence that a heterologous toxin combination is functional in in vitro and in vivo systems. In contrast, C2II is able to bind to EF as well as to LF in vitro, whereas in in vivo studies almost no toxic effect is detected. In the case of PA, an N-terminal His6-tag attached to the enzymatic subunit increased the binding affinity (chapter 5). A His6-tag attached to not related proteins also led to high binding affinities, providing the possibility to establish PA as a general cargo protein. In chapter 6 a set of different molecules and proteins is summarized, which are either related or not related to binary toxins, PA is able to bind. In first line, the presence of positive charges is found to be responsible for binding to PA which is in accordance to the fact that PA is highly cation selective. Furthermore, we present evidence that different cationic electrolytes serve as a binding partner to the PA channel. In the last decade another toxin has aroused public attention as it was found to be responsible for a rising number of nosocomial infections: Clostridium difficile CDT toxin. The mode of action of the enzymatic subunit CDTa is similar to C2I of C2 toxin, acting as an ADP-ribosylating toxin. The channel forming and binding properties of CDT toxin are studied in artificial bilayer membranes (chapter 7). We found that two different types of channels are formed by the B component CDTb. The first channel is similar to that of iota toxin’s Ib of Clostridium perfringens with comparable single channel conductance, selectivity and binding properties to the enzymatic subunit CDTa. The formation of this type of channel is cholesterol-dependent, whereas in the absence of cholesterol another kind of channel is observed. This channel has a single channel conductance which is rather high compared to all other binary toxin channels known so far, it is anion selective and does not show any binding affinity to the enzymatic component CDTa. The results reveal completely new insights in channel formation properties and the flexibility of a pore-forming component. Additionally, these findings suggest further possibilities of toxicity of the pore forming component itself which is not known for any other binary toxin yet. Therefore, the pathogenic role of this feature has to be studied in detail.
Malignant melanomas (MM) in the fish Xiphophorus and in humans were studied both by transmission electron microscopy (TEM) and freeze-etching (FE). In both fish and human melanomas the cells show interdigitations of the,plasma membranes. The nuclei are large and lobulated and have many nuclear pores. Melanosomes are abundant and melanosome complexes ("compound melanosomes") occur regularly. Pinocytotic vesicles could be demonstrated in fish and human melanomas showing iocal differences in frequency and distribution patterns in the tumor. lntercellular junctions are lacking in MM cells from fish and humans. The FE technique showed considerable advantages in demonstrating membrane-surface peculiarities such as nuclear pores or pinocytotic vesicles. The FE replicas of fish melanomas are like those of humans. These findings may support the hypothesis that melanoma in fish and humans reflect the same biological phenomenon.
The observation of a slower migrating form of pp6oc-src in neural tissue of chicken and mouse has recently been shown to be due to an alternative transcript form of tbe c-src gene (Martinez et al.: Science 237:411-415, 1987; Levy et al.: Mol Cell Bio17:4142- 4145, 1987). An insertion of 18 basepairs between exons 3 and 4, presumed to be due to alternative splicing of a mini-exon, gives rise to six amino acid residues not found in the non-neuronal (termed flbroblastic) form of pp60\(^{c-src}\). Wehave addressed the question of the evolutionary origin of the c-src neuronal insert · and its functional signiflcance regarding neural-speciflc expression of the c-src gene. To this end we have investigated whether the c-src gene of a lower verlebrate (the teleost fish Xiphophorus) gives rise to a neural-specific transcript in an analogous manner. We could show that the fish c-src gene does encode for a "fibroblastic" and a "neuronal" form of transcript and that the neuronal transcript does indeed arise by way of alternative splicing of a mini-exon. The miniexon is also 18 basepairs long and we could demoostrate directly that this exon lies within the intron separating exons 3 and 4. For comparative purposes we have examined whether the fish c-yes gene, the member of the src gene family most closely related to c-src, also encodes a neural tissue-specific transcript. No evidence for a second transcript form in brain was obtained. This result suggests that the mini-exon arose within the c-src gene lineage sometime between the srclyes gene duplication event and the divergence of the evolutionary lineage giving rise to the teleost fish. Published genomic sequence of src-related genes in Drosophila and our own results with Hydra demoostrate no intron in these species at the analogous location, consistent with first appearance of this mini-exon sometime between 550 and 400 million years ago.
Although age is one of the most salient and fundamental aspects of human faces, its processing in the brain has not yet been studied by any neuroimaging experiment. Automatic assessment of temporal changes across faces is a prerequisite to identifying persons over their life-span, and age per se is of biological and social relevance. Using a combination of evocative face morphs controlled for global optical flow and functional magnetic resonance imaging (fMRI), we segregate two areas that process changes of facial age in both hemispheres. These areas extend beyond the previously established face-sensitive network and are centered on the posterior inferior temporal sulcus (pITS) and the posterior angular gyrus (pANG), an evolutionarily new formation of the human brain. Using probabilistic tractography and by calculating spatial cross-correlations as well as creating minimum intersection maps between activation and connectivity patterns we demonstrate a hitherto unrecognized link between structure and function in the human brain on the basis of cognitive age processing. According to our results, implicit age processing involves the inferior temporal sulci and is, at the same time, closely tied to quantity decoding by the presumed neural systems devoted to magnitudes in the human parietal lobes. The ventral portion of Wernicke’s largely forgotten perpendicular association fasciculus is shown not only to interconnect these two areas but to relate to their activations, i.e. to transmit age-relevant information. In particular, post-hoc age-rating competence is shown to be associated with high response levels in the left angular gyrus. Cortical activation patterns related to changes of facial age differ from those previously elicited by other fixed as well as changeable face aspects such as gender (used for comparison), ethnicity and identity as well as eye gaze or facial expressions. We argue that this may be due to the fact that individual changes of facial age occur ontogenetically, unlike the instant changes of gaze direction or expressive content in faces that can be “mirrored” and require constant cognitive monitoring to follow. Discussing the ample evidence for distinct representations of quantitative age as opposed to categorical gender varied over continuous androgyny levels, we suggest that particular face-sensitive regions interact with additional object-unselective quantification modules to obtain individual estimates of facial age.
Das Proto-Onkoprotein Myc ist an der Entstehung und Aufrechterhaltung einer Vielzahl humaner Tumore entscheidend beteiligt. In der vorliegenden Arbeit wurde Serin 227 in Fbw7 als Ziel für eine PI3K-abhängige Phosphorylierung identifiziert. Diese Phosphorylierung führt zur Stabilisierung von Fbw7 und steigert die Fähigkeit von Fbw7, Substratproteine zu ubiquitinieren und abzubauen. Um die Bedeutung von Usp28 in der Myc-induzierten Tumorentstehung und in der normalen Gewebehomöostase zu untersuchen, wurde ein konditionales Knockout-Mausmodell für Usp28 charakterisiert. Mäuse mit einer Keimbahndeletion von Usp28 sind lebensfähig, fertil und phänotypisch unauffällig. Weder in Organen der Usp28-negativen Tiere, noch in entsprechenden murinen embryonalen Fibroblasten kann eine Destabilisierung von Myc festgestellt werden. Allerdings zeigen Fibroblasten mit heterozygotem Usp28-Verlust einen Proliferationsdefekt und in Eμ-Myc-Lymphomen dieses Genotyps werden tendenziell niedrigere Myc-Proteinmengen gefunden. Das tumorfreie Überleben ist bei den Eμ-Myc; Usp28 +/- Tieren verlängert.