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Institut
- Theodor-Boveri-Institut für Biowissenschaften (28) (entfernen)
In the present study, a new gene cluster of Listeria monocytogenes EGD containing three internalin genes was identified and characterized. These genes, termed inlG, inlH and inlE, encode proteins of 490, 548 and 499 amino acids, respectively, which belong to the class of large, surface-bound internalins. Each of these proteins contains a signal peptide, two regions of repeats (Leucine-rich repeats and B repeats), an inter-repeat region and a putative cell wall anchor sequence containing the sorting motiv LPXTG. PCR analysis revealed the presence of the inlGHE gene cluster in most L. monocytogenes serotypes. A similar gene cluster termed inlC2DE localised to the same position on the chromosome was described in a different L. monocytogenes EGD isolate. Sequence comparison of the two clusters indicates that inlG is a new internalin gene, while inlH was generated by a site-specific recombination leading to an in-frame deletion which removed the 3'-terminal end of inlC2 and a 5'-portion of inlD. The genes inlG, inlH and inlE seem to be transcribed extracellularly and independent of PrfA. To study the function of the inlGHE gene cluster several in-frame deletion mutants were constructed which lack the genes of the inlGHE cluster individually or in combination with other inl genes. When tested in the mouse model, the inlGHE mutant showed a significant reduction of bacterial counts in liver and spleen in comparison to the wild type strain, indicating that the inlGHE gene cluster plays an important role in virulence of L. monocytogenes. The ability of this mutant to invade non-phagocytic cells in vitro was however two- to three-fold higher than that of the parental strain. To examine whether deletion of the single genes from the cluster has the same stimulatory effect on invasiveness as deletion of the complete gene cluster, the single in-frame deletion mutants inlG, inlH and inlE were constructed. These mutants were subsequently reverted to the wild type by introducing a copy of the corresponding intact gene into the chromosome by homologous recombination using knock-in plasmids. To determine a putative contribution of InlG, InlH and InlE in combination with other internalins to the entry of L. monocytogenes into mammalian cells, the combination mutants inlA/GHE, inlB/GHE, inlC/GHE, inlA/B/GHE, inlB/C/GHE, inlA/C and inlA/C/GHE were constructed. Transcription of the genes inlA, inlB and inlC in these mutants was studied by RT-PCR. Deletion of inlGHE enhances transcription of inlA and inlB, but not of inlC. This enhancement is not transient but can be observed at different time-points of the bacterial growth curve. Deletion of inlA also increases transcription of inlB and vice-versa. In contrast, the amounts of inlA and inlB transcripts in the single deletion mutants inlG, inlH and inlE were similar to those from the wild type.
Transforming growth factor-ß (TGF-ß) reguliert eine Vielzahl zellulärer Funktionen, wie Proliferation, Differenzierung und Apoptose. Über membrangebundene Serin/Threonin-Kinase-Rezeptoren werden TGF-ß Signale durch Phosphorylierung an Smad-Proteine, die intrazellulären Signaltransduktoren, weitergeleitet, die im Kern die Transkription spezifischer Gene modulieren. Obwohl die drei TGF-ß Isoformen, TGF-ß1, -ß2 und -ß3, äußerst homologe Proteine sind, unterscheiden sich die Phänotypen ihrer Genknockouts stark. Variabilität und Spezifität können auf vielerlei Arten und Ebenen der TGF-ß Signalübertragung erreicht werden. In der vorliegenden Arbeit wird eine alternativ gespleißte Variante des TGF-ß Typ II Rezeptors (TßRII), TßRII-B, charakterisiert. Dieser Rezeptor ist, im Gegensatz zum bisher bekannten TßRII, in der Lage alle drei TGF-ß Isoformen hochaffin zu binden und in Abwesenheit eines unterstützenden Typ III Rezeptors (TßRIII) Signale über den Smad-Pathway weiterzuleiten. TßRII-B ist außerdem fähig ligandenabhängig mit den verschiedenen TGF-ß Rezeptortypen zu Oligomerisieren. Erste Hinweise auf Besonderheiten der TGF-ß2 Bindung an TßRII-B wurden mittels verschiedener zellbiologischer Ansätzen gewonnen. Aus Untersuchungen zur gewebespezifischen Expression des Rezeptors geht hervor, daß TßRII-B, im Vergleich zu TßRII, ein distinktes Expressionsmuster aufweist und v.a. in TGF-ß2-beeinflußten Geweben nachgewiesen werden kann. In diesen Erkenntnissen spiegelt sich die Bedeutung dieses Rezeptors für eine TGF-ß Isoform-spezifische Signalübertragung wider. Der zweite Teil der vorliegenden Arbeit beschäftigt sich mit der Rolle von TGF-ß und seinen Rezeptoren bei der Entstehung von Tumoren. B-Zellen einiger Patienten mit chronischer lymphatischer Leukämie (B-CLL), der häufigsten Form adulter Leukämie in westlichen Ländern, zeigen Resistenz gegenüber TGF-ß-vermittelter Wachstumsinhibierung und ein verändertes Expressionsmuster der TGF-ß Rezeptoren an ihrer Zelloberfläche. In dieser Arbeit wird die Identifizierung und Charakterisierung zweier Mutationen innerhalb der putativen Signalpeptidsequenz des TGF-ß Typ I Rezeptors (TßRI) in B-Zellen TGF-ß resistenter CLL-Patienten beschrieben. Hierbei handelt es sich um einen Aminosäure-Austausch (L12Q) und eine ‚in-frame‘ Alanin-Deletion (A8) innerhalb einer aus 9 Alaninen bestehenden Sequenz. Es konnte gezeigt werden, daß diese Mutationen zwar keinen Einfluß auf Oberflächenexpression und Komplexbildungseigenschaften des TßRI haben, jedoch TGF-ß stimulierte Reportergeninduktion verringern, was eine kausale Beziehung bei der Entwicklung TGF-ß resistenter B-CLL-Zellen vermuten läßt. Ein Auftreten von Mutationen innerhalb der 9-Alanin-Sequenz des TßRI korreliert mit TGF-ß Insensitivität von B-CLL Zellen. Obwohl noch weitere Studien benötigt werden, um den präzisen molekularen Mechanismus zu verstehen, der zu TGF-ß Resistenz in B-CLL Zellen führt, kann spekuliert werden, daß TßRI Mutationen das Voranschreiten von B-CLL und evtl. anderen Tumorarten unterstützen. Gezieltes Screenen nach TßRI Signalpeptidsequenz Mutationen könnte demnach als prognostischer Indikator für Tumorprogression eingesetzt werden.
Ziel dieser Arbeit war es, NF-AT1-Gen-defiziente Mauslinien zu erzeugen und die Folgen dieser genetischen Manipulation in vivo zu untersuchen. Die Untersuchung sollte die durch die Gendefizienz erwarteten Mängel während der Entwicklung (Embryogenese) und, im Besonderen, die Auswirkungen auf das Immunsytem und die Entwicklung und Differenzierung der T-Zellen aufzeigen. Zur Untersuchung der genomischen Organisation des Maus-NF-AT1-Gens wurde eine genomische l-Phagen-DNA-Bibliothek "gescreent" (durchgeführt von Dr. E. Jankevics, Universität von Riga, Lettland), die entsprechenden l-Phagen, die das NF-AT1-Gen enthielten, isoliert und die DNA präpariert. Nach Analyse der klonierten Phagen (Subklonierung und Sequenzierung) wurde eine Restriktionskarte der entsprechenden Bereiche erstellt und der "targeting-vector" erstellt. Der "targeting-vector" wurde durch Elektroporation in embryonale Stammzellen (ES-Zellen) eingebracht und die Integration in das Genom ("Homologe Rekombination") durch Southern Blotting- bzw. PCR-Analyse untersucht. Manipulierte ES-Zellklone wurden in C57Bl/6-Blastozysten injiziert, diese in scheinschwangere Ammentiere transferiert und die Nachkommen nach Geburt anhand der Fellfarben klassifiziert. Nachkommen mit einem hohen Anteil hellen Fells wurden mit C57 Bl/6-Tieren verpaart und die Integration des manipulierten Zellklons in die Keimbahn wurde anhand der wildtypischen Fellfarbe und Genotypisierung nachgewiesen. Bezüglich des manipulierten NF-ATp-Gens heterozygote F1-Tiere wurden miteinander verpaart, um eine homozygote NF-ATp-defiziente Mäuse zu erhalten. Die Deletion des NF-ATp-Proteins wurde durch in Western-Blotting-Experimenten und EMSAs ("electrophoretic mobility shift assays") nachgewiesen. Die NF-ATp-/--Tiere zeigten keine augenscheinlichen Veränderungen während der Entwicklung und, bei jungen Tieren, keine offensichtlichen Veränderungen bei der Entwicklung des Immunsystems. In älteren Tieren (> 6 Wochen) war eine Hyperproliferation der Zellen des Immunsystems zu beobachten, was mit einer Splenomegalie, einer verstärkten Bildung von Keimzentren in lymphatischen Organen, vergrößerten Lymphknoten und einer verlangsamten Involution des Thymus einherging. Weitergehende Untersuchungen der Ursache dieser hyperproliferativen Erkrankung offenbarten eine verminderte klonale Deletion nach Aktivierung. Die Ursachen dieses überraschenden Effekts sind wahrscheinlich vielfältig, da NF-AT-Faktoren an der Regulation der Expression vieler Gene beteiligt sind, u.a. des Apoptose-assoziierten CD95-Liganden. Da sich bezüglich der IL-2-Expression keine Unterschiede zwischen NF-ATp-defizienten Tieren und Kontrollen zeigten, jedoch eine erhöhte IL-2-Konzentration im Medium kultivierter NF-ATp-defizienter T-Zellen beobachtet wurde, wurde die Bindung von NF-ATp an putative NF-AT-Bindungssequenzen des CD25-Promotors, die transkriptionelle Aktivierung des Promotors mittels Luciferase-Assays und die Expression der IL-2R-alpha-Kette (CD25) untersucht. Es konnte gezeigt werden, daß (1.) NF-ATp an zwei Regionen des CD25-Promotors bindet, (2.) der CD25-Promotor durch NF-ATp transkriptionell stark stimuliert wird und (3.) T-Zellen NF-ATp-defizienter Tiere nach Stimulation eine verminderte CD25-Expression zeigen. In NF-ATp-defizienten Tieren war die Expression von CD25 moderat reduziert, was eine Erklärung für den abgeschwächten Phänotyp dieser Tiere - im Vergleich zu IL-2- oder CD25-defizienten Tieren - sein kann. Die hyperproliferativen Erkrankungen dieser verschiedenen Mauslinien weisen auf eine Beteiligung der NF-AT-/IL-2-/IL-2R-Signalwege nicht nur während der T-Zell-Aktivierung hin, sondern auch auf eine Beteiligung an Signalwegen, die zur anschließenden Inaktivierung und Apoptose der T-Lymphozyten nötig sind.
Pollinating insects exhibit a complex behavior while foraging for nectar and pollen. Many studies have focused on ultimate mechanisms of this behavior, however, the sensory-perceptual processes that constrain such behavior have rarely been considered. In the present study I used bumblebees (Bombus terrestris), an important pollinating insect, to investigate possible sensory constraints on foraging behavior. Additionally, I survey inter-individual variation in the sensory capabilities and behavior of bumblebees caused by the pronounced size polymorphism among members of a single colony. In the first chapter I have focused on the sensory-perceptual processes that constrain the search for flowers. I measured search time for artificial flowers of various sizes and colors, a key variable defining the value of a prey type in optimal foraging theory. When flowers were large, search times correlate well with the color contrast of the targets with their green foliage-type background, as predicted by a model of color opponent coding using inputs from the bee's UV, blue, and green receptors. Targets which made poor color contrast with their backdrop, such as white, UV-reflecting ones, or red flowers, take longest to detect, even though brightness contrast with the background is pronounced. When searching for small targets, bumblebees change their strategy in several ways. They fly significantly slower and closer to the ground, so increasing the minimum detectable area subtended by an object on the ground. In addition they use a different neuronal channel for flower detection: instead of color contrast, they now employ only the green receptor signal for detection. I related these findings to temporal and spatial limitations of different neuronal channels involved in stimulus detection and recognition. Bumblebees do not only possess species-specific sensory capacities but they also exhibit inter-individual differences due to size. Therefore, in the next two chapters I have examined size-related effects on the visual and olfactory system of Bombus terrestris. Chapter two deals with the effect of scaling on eye architecture and spatial resolving power of workers. Foraging efficiency in bees is strongly affected by proficiency of detecting flowers. Both floral display size and bee spatial vision limit flower detection. In chapter one I have shown that search times for flowers strongly increases with decreasing floral display size. The second factor, bee spatial vision, is mainly limited by two properties of compound eyes: (a) the interommatidial angle Çå and (b) the ommatidial acceptance angle Çá. When a pollinator strives to increase the resolving power of its eyes, it is forced to increase both features simultaneously. Bumblebees show a large variation in body size. I found that larger workers with larger eyes possess more ommatidia and larger facet diameters. Large workers with twice the size of small workers (thorax width) have about 50 per cent more ommatidia, and a 1.5 fold enlarged facet diameter. In a behavioral test, large and small workers were trained to detect the presence of a colored stimulus in a Y-maze apparatus. The stimulus was associated with a sucrose reward and was presented in one arm, the other arm contained neither stimulus nor reward. The minimum visual angle a bee is able to detect was estimated by testing the bee at different stimuli sizes subtending angles between 30° and 3° on the bee’s eye. Minimum visual detection angles range from 3.4° to 7.0° among tested workers. Larger bumblebees are able to detect objects subtending smaller visual angles, i.e. they are able to detect smaller objects than their small conspecifics. Thus morphological and behavioral findings indicate an improved visual system in larger bees. Beside vision, olfaction is the most important sensory modality while foraging in bees. Bumblebees utilize species-specific odors for detecting and identifying nectar and pollen rich flowers. In chapter three I have investigated the olfactory system of Bombus terrestris and the effect of scaling on antennal olfactory sensilla and the first olfactory neuropil in the bumblebee brain, the antennal lobes. I found that the pronounced size polymorphism exhibited by bumblebees also effects their olfactory system. Sensilla number (I measured the most common olfactory sensilla type, s. placodea), sensilla density, volume of antennal lobe neuropil and volume of single identified glomeruli correlate significantly with worker’s size. The enlarged volume of the first olfactory neuropil in large individuals is caused by an increase in glomeruli volume and coarse neuropil volume. Additionally, beside an overall increase of brain volume with scaling I found that the olfactory neuropil increases disproportionately compared to a higher order neuropil, the central body. The data predict a higher odor sensitivity in larger bumblebee workers. In the last chapter I have addressed the question if scaling alters foraging behavior and rate in freely foraging bumblebees. I observed two freely foraging B. terrestris colonies and measured i) trip number, ii) trip time, iii) proportion of nectar trips, and iv) nectar foraging rate of different sized foragers. In all observation periods large foragers exhibit a significantly higher foraging rate than small foragers. None of the other three foraging parameters is affected by workers’ size. Thus, large foragers contribute disproportionately more to the current nectar influx of their colony. To summarize, this study shows that understanding the mechanisms of visual information processing and additionally comprising inter-individual differences of sensory capabilities is crucial to interpret foraging behavior of bees.
The social organization of insect colonies has long fascinated naturalists. One of the main features of colony organization is division of labor, whereby each member of the colony specializes in a subset of all tasks required for successful group functioning. The most striking aspect of division of labor is its plasticity: workers switch between tasks in response to external challenges and internal perturbations. The mechanisms underlying flexible division of labor are far from being understood. In order to comprehend how the behavior of individuals gives rise to flexible collective behavior, several questions need to be addressed: We need to know how individuals acquire information about their colony's current demand situation; how they then adjust their behavior according; and which mechanisms integrate dozens or thousands of insect into a higher-order unit. With these questions in mind I have examined two examples of collective and flexible behavior in social bees. First, I addressed the question how a honey bee colony controls its pollen collection. Pollen foraging in honey bees is precisely organized and carefully regulated according to the colony's needs. How this is achieved is unclear. I investigated how foragers acquire information about their colony's pollen need and how they then adjust their behavior. A detailed documentation of pollen foragers in the hive under different pollen need conditions revealed that individual foragers modulate their in-hive working tempo according to the actual pollen need of the colony: Pollen foragers slowed down and stayed in the hive longer when pollen need was low and spent less time in the hive between foraging trips when pollen need of their colony was high. The number of cells inspected before foragers unloaded their pollen load did not change and thus presumably did not serve as cue to pollen need. In contrast, the trophallactic experience of pollen foragers changed with pollen need conditions: trophallactic contacts were shorter when pollen need was high and the number and probability of having short trophallactic contacts increased when pollen need increased. Thus, my results have provided support for the hypothesis that trophallactic experience is one of the various information pathways used by pollen foragers to assess their colony's pollen need. The second example of collective behavior I have examined in this thesis is the control of nest climate in bumble bee colonies, a system differing from pollen collection in honey bees in that information about task need (nest climate parameters) is directly available to all workers. I have shown that an increase in CO2 concentration and temperature level elicits a fanning response whereas an increase in relative humidity does not. The fanning response to temperature and CO2 was graded; the number of fanning bees increased with stimulus intensity. Thus, my study has evidenced flexible colony level control of temperature and CO2. Further, I have shown that the proportion of total work force a colony invests into nest ventilation does not change with colony size. However, the dynamic of the colony response changes: larger colonies show a faster response to perturbations of their colony environment than smaller colonies. Thus, my study has revealed a size-dependent change in the flexible colony behavior underlying homeostasis. I have shown that the colony response to perturbations in nest climate is constituted by workers who differ in responsiveness. Following a brief review of current ideas and models of self-organization and response thresholds in insect colonies, I have presented the first detailed investigation of interindividual variability in the responsiveness of all workers involved in a collective behavior. My study has revealed that bumble bee workers evidence consistent responses to certain stimulus levels and differ in their response thresholds. Some consistently respond to low stimulus intensities, others consistently respond to high stimulus intensities. Workers are stimulus specialists rather than task specialists. Further, I have demonstrated that workers of a colony differ in two other parameters of responsiveness: response probability and fanning activity. Response threshold, response probability and fanning activity are independent parameters of individual behavior. Besides demonstrating and quantifying interindividual variability, my study has provided empirical support for the idea of specialization through reinforcement. Response thresholds of fanning bees decreased over successive trials. I have discussed the importance of interindividual variability for specialization and the collective control of nest climate and present a general discussion of self-organization and selection. This study contributes to our understanding of individual behavior and collective structure in social insects. A fascinating picture of social organization is beginning to emerge. In place of centralized systems of communication and information transmission, insect societies frequently employ mechanisms based upon self-organization. Self-organization promises to be an important and unifying principle in physical, chemical and biological systems.
Implications of Advanced Glycation Endproducts in Oxidative Stress and Neurodegenerative Disorders
(2001)
The reactions of reducing sugars with primary amino groups are the most common nonenzymatic modifications of proteins. Subsequent rearrangements, oxidations, and dehydrations yield a heterogeneous group of mostly colored and fluorescent compounds, termed "Maillard products" or advanced glycation end products (AGEs). AGE formation has been observed on long-lived proteins such as collagen, eye lens crystalline, and in pathological protein deposits in Alzheimer's (AD) and Parkinson's disease (PD) and dialysis-related amyloidosis. AGE-modified proteins are also involved in the complications of diabetes. AGEs accumulate in the the ß-amyloid plaques and neurofibrillary tangles (NFT) associated with AD and in the Lewy bodies characteristic of PD. Increasing evidence supports a role for oxidative stress in neurodegenerative disorders such as AD and PD. AGEs have been shown to contribute towards oxidative damage and chronic inflammation, whereby activated microglia secrete cytokines and free radicals, including nitric oxide (NO). Roles proposed for NO in the pathophysiology of the central nervous system are increasingly diverse and range from intercellular signaling, through necrosis of cells and invading pathogens, to the involvement of NO in apoptosis. Using in vitro experiments, it was shown that AGE-modified bovine serum albumin (BSA-AGE) and AGE-modified ß-amyloid, but not their unmodified proteins, induce NO production in N-11 murine microglia cells. This was mediated by the receptor for AGEs (RAGE) and upregulation of the inducible nitric oxide synthase (iNOS). AGE-induced enzyme activation and NO production could be blocked by intracellular-acting antioxidants: Ginkgo biloba special extract EGb 761, the estrogen derivative, 17ß-estradiol, R-(+)-thioctic acid, and a nitrone-based free radical trap, N-tert.-butyl-*-phenylnitrone (PBN). Methylglyoxal (MG) and 3-deoxyglucosone (3-DG), common precursors in the Maillard reaction, were also tested for their ability to induce the production of NO in N-11 microglia. However, no significant changes in nitrite levels were detected in the cell culture medium. The significance of these findings was supported by in vivo immunostaining of AD brains. Single and double immunostaining of cryostat sections of normal aged and AD brains was performed with polyclonal antibodies to AGEs and iNOS and monoclonal antibodies to Aß and PHF-1 (marker for NFT) and reactive microglia. In aged normal individuals as well as early stage AD brains (i.e. no pathological findings in isocortical areas), a few astrocytes showed co-localisation of AGE and iNOS in the upper neuronal layers of the temporal (Area 22) and entorhinal (Area 28, 34) cortices compared with no astrocytes detected in young controls. In late AD brains, there was a much denser accumulation of astrocytes co-localised with AGE and iNOS in the deeper and particularly upper neuronal layers. Also, numerous neurons with diffuse AGE but not iNOS reactivity and some AGE and iNOS-positive microglia were demonstrated, compared with only a few AGE-reactive neurons and no microglia in controls. Finally, astrocytes co-localised with AGE and iNOS as well as AGE and ß-amyloid were found surrounding mature but not diffuse ß-amyloid plaques in the AD brain. Parts of NFT were AGE-immunoreactive. Immunohistochemical staining of cryostat sections of normal aged and PD brains was performed with polyclonal antibodies to AGEs. The sections were counterstained with monoclonal antibodies to neurofilament components and a-synuclein. AGEs and a-synuclein were colocalized in very early Lewy bodies in the substantia nigra of cases with incidental Lewy body disease. These results support an AGE-induced oxidative damage due to the action of free radicals, such as NO, occurring in the AD and PD brains. Furthermore, the involvement of astrocytes and microglia in this pathological process was confirmed immunohistochemically in the AD brain. It is suggested that oxidative stress and AGEs participate in the very early steps of Lewy body formation and resulting cell death in PD. Since the iNOS gene can be regulated by redox-sensitive transcription factors, the use of membrane permeable antioxidants could be a promising strategy for the treatment and prevention of chronic inflammation in neurodegenerative disorders.
Ca2+-empfindliche K+-Kanäle mittlerer Leitfähigkeit (IK1-Kanäle) übernehmen wichtige Funktionen bei vielen physiologischen Prozessen wie z.B. bei der Zell-Proliferation, der epithelialen Salz- und Wasser-Sekretion und der Zellmigration. Die Kanäle werden durch die intrazeluläre Ca2+-Konzentration reguliert, wobei ihre Ca2+-Sensitivität durch Phosphorylierungsreaktionen moduliert werden kann. Ziel dieser Arbeit war die funktionelle Charakterisierung des aus transformierten Nierenepithelzellen (MDCK-F-Zellen) klonierten Ca2+-sensitiven K+-Kanals mittlerer Leitfähigkeit (cIK1) und die Untersuchung seiner Regulierung durch die Proteinkinase C (PKC). Dazu wurde der Kanal heterolog in CHO- und HEK293-Zellen exprimiert. Seine biophysikalischen und pharmakologischen Eigenschaften sowie der Einfluß der Proteinkinase C auf die Kanalaktivität wurden mit Hilfe der Patch-Clamp-Technik untersucht. Die cIK1-Ströme sind schwach einwärtsrektifizierend, zeigen keine Aktivierungs- oder Inaktivierungskinetik und weisen im physiologischen Bereich keine Spannungsabhängigkeit auf. Der cIK1 ist K+-selektiv und wird durch einen Anstieg der intrazellulären Ca2+-Konzentration aktiviert. Der Kanal wird durch Barium, Charybdotoxin und Clotrimazol blockiert und durch 1-Ethyl-2-Benzimidazolon aktiviert. Die funktionellen und pharmakologischen Eigenschaften des klonierten cIK1 entsprechen damit denen des nativen Kanals aus MDCK-F-Zellen und stimmen mit denen anderer Mitglieder der IK1-Kanalfamilie überein. Neben der Regulierung durch die intrazelluläre Ca2+-Konzentration wird der cIK1 auch durch eine PKC-abhängige Phosphorylierung reguliert. Sowohl ATP als auch ATP?S stimulieren die Kanalaktivität. Die ATP-abhängige Aktivierung wird durch Inhibitoren der Proteinkinase C (Bisindolylmaleimid, Calphostin C) gehemmt, während die mit ATP?S induzierte Kanalaktivität weitgehend resistent gegen diese PKC-Inhibitoren ist. Eine Stimulierung der Proteinkinase C mit Phorbol 12-Myristat 13-Acetat (PMA) führt zu einer sofortigen Aktivierung des cIK1. Im Gegensatz dazu sind die cIK1-Kanäle nach fast vollständigem Abbau der Proteinkinase C durch eine langfristige Inkubierung der Zellen mit PMA nicht mehr aktiv. Um zu untersuchen, ob diese Regulierung eine direkte Interaktion der Proteinkinase C mit dem Kanalprotein erfordert, wurden die drei putativen PKC-Konsensussequenzen des cIK1 mittels zielgerichteter Mutagenese so verändert, daß eine Phosphorylierung an diesen Stellen nicht mehr möglich ist. Weder die einzelne Mutation der PKC-Konsensussequenzen (T101, S178, T329) noch die gleichzeitige Mutation aller drei Phosporylierungsstellen zu Alanin beeinflußt die akute Regulierung des cIK1 durch die Proteinkinase C. Die cIK1-Mutante T329A und die Dreifachmutante reagieren jedoch nach einem Abbau der Proteinkinase C mit einem extremen Anstieg der Kanalaktivität und demaskieren damit einen zweiten Weg der Kanalregulierung. Die Ergebnisse zeigen, daß der cIK1 durch zwei voneinander unabhängige Mechanismen reguliert wird. Eine PKC-abhängige Phosphorylierung erhöht die Aktivität der Kanäle, findet jedoch nicht an den bekannten PKC-Konsensusesquenzen des Kanalproteins statt. Dagegen werden die cIK1-Kanäle über einen zweiten ATP-abhängigen Mechanismus, der wahrschenlich eine direkte Interaktion mit dem Kanalprotein erfordert, gehemmt.