937 resultados para CHANNEL
Resumo:
Työn tavoitteena oli selvittää, kokevatko matkapuhelinalalla toimivat kanavapartnerit heitä varten suunnitellun asiakassuhdehallintajärjestelmän lisäarvopalveluna vaiko eivät. Työ toteutettiin asiakastyytyväisyystutkimuksen avulla, jossa mitattiin erilaisten partnereiden asennetta palvelua kohtaan. Työn tuloksena ilmeni, että palvelussa olevan informaation määrällä ei ollut suurta vaikutusta asiakkaiden tyytyväisyyteen. Syyt ovat pikemminkin yleisissä asenteissa vastaavia palveluja kohtaan.
Resumo:
The chicken acid-sensing ion channel ASIC1 has been crystallized as a homotrimer. We address here the oligomeric state of the functional ASIC1 in situ at the cell surface. The oligomeric states of functional ASIC1a and mutants with additional cysteines introduced in the extracellular pore vestibule were resolved on SDS-PAGE. The functional ASIC1 complexes were stabilized at the cell surface of Xenopus laevis oocytes or CHO cells either using the sulfhydryl crosslinker BMOE, or sodium tetrathionate (NaTT). Under these different crosslinking conditions ASIC1a migrates as four distinct oligomeric states that correspond by mass to multiples of a single ASIC1a subunit. The relative importance of each of the four ASIC1a oligomers was critically dependent on the availability of cysteines in the transmembrane domain for crosslinking, consistent with the presence of ASIC1a homo-oligomers. The expression of ASIC1a monomers, trimeric or tetrameric concatemeric cDNA constructs resulted in functional channels. The resulting ASIC1a complexes are resolved as a predominant tetramer over the other oligomeric forms, after stabilization with BMOE or NaTT and SDS-PAGE/western blot analysis. Our data identify a major ASIC1a homotetramer at the surface membrane of the cell expressing functional ASIC1a channel.
Resumo:
The membrane-bound serine protease CAP2/Tmprss4 has been previously identified in vitro as a positive regulator of the epithelial sodium channel (ENaC). To study its in vivo implication in ENaC-mediated sodium absorption, we generated a knockout mouse model for CAP2/Tmprss4. Mice deficient in CAP2/Tmprss4 were viable, fertile, and did not show any obvious histological abnormalities. Unexpectedly, when challenged with sodium-deficient diet, these mice did not develop any impairment in renal sodium handling as evidenced by normal plasma and urinary sodium and potassium electrolytes, as well as normal aldosterone levels. Despite minor alterations in ENaC mRNA expression, we found no evidence for altered proteolytic cleavage of ENaC subunits. In consequence, ENaC activity, as monitored by the amiloride-sensitive rectal potential difference (ΔPD), was not altered even under dietary sodium restriction. In summary, ENaC-mediated sodium balance is not affected by lack of CAP2/Tmprss4 expression and thus, does not seem to directly control ENaC expression and activity in vivo.
Resumo:
Free induction decay (FID) navigators were found to qualitatively detect rigid-body head movements, yet it is unknown to what extent they can provide quantitative motion estimates. Here, we acquired FID navigators at different sampling rates and simultaneously measured head movements using a highly accurate optical motion tracking system. This strategy allowed us to estimate the accuracy and precision of FID navigators for quantification of rigid-body head movements. Five subjects were scanned with a 32-channel head coil array on a clinical 3T MR scanner during several resting and guided head movement periods. For each subject we trained a linear regression model based on FID navigator and optical motion tracking signals. FID-based motion model accuracy and precision was evaluated using cross-validation. FID-based prediction of rigid-body head motion was found to be with a mean translational and rotational error of 0.14±0.21 mm and 0.08±0.13(°) , respectively. Robust model training with sub-millimeter and sub-degree accuracy could be achieved using 100 data points with motion magnitudes of ±2 mm and ±1(°) for translation and rotation. The obtained linear models appeared to be subject-specific as inter-subject application of a "universal" FID-based motion model resulted in poor prediction accuracy. The results show that substantial rigid-body motion information is encoded in FID navigator signal time courses. Although, the applied method currently requires the simultaneous acquisition of FID signals and optical tracking data, the findings suggest that multi-channel FID navigators have a potential to complement existing tracking technologies for accurate rigid-body motion detection and correction in MRI.
Resumo:
The study of the stomach contents of 97 specimens of the narrow mouthed cat shark Schroederichthys bivius shows that their basic food consists of crabs, mainly Munida subrugosa. No significant variations were observed between size classes. The strongly developed sexual dimorphism in Touch morphology and mouth shape was not correlated with the diet of males and females
Resumo:
Voltage-dependent K+ channels (Kv) are involved in the proliferation and differentiation of mammalian cells, since Kv antagonists impair cell cycle progression. Although myofibers are terminally differentiated, some myoblasts may re-enter the cell cycle and proliferate. Since Kv1.3 and Kv1.5 expression is remodeled during tumorigenesis and is involved in smooth muscle proliferation, the purpose of this study was to analyze the expression of Kv1.3 and Kv1.5 in smooth muscle neoplasms. In the present study, we examined human samples of smooth muscle tumors together with healthy specimens. Thus, leiomyoma (LM) and leiomyosarcoma (LMS) tumors were analyzed. Results showed that Kv1.3 was poorly expressed in the healthy muscle and indolent LM specimens, whereas aggressive LMS showed high levels of Kv1.3 expression. Kv1.5 staining was correlated with malignancy. The findings show a remodeling of Kv1.3 and Kv1.5 in human smooth muscle sarcoma. A correlation of Kv1.3 and Kv1.5 expression with tumor aggressiveness was observed. Thus, our results indicate Kv1.5 and Kv1.3 as potential tumorigenic targets for aggressive human LMS.
Resumo:
The CA1 region of the hippocampus is particularly vulnerable to ischemic damage. While NMDA receptors play a major role in excitotoxicity, it is thought to be exacerbated in this region by two forms of post-ischemic AMPA receptor (AMPAR) plasticity - namely, anoxic long-term potentiation (a-LTP), and a delayed increase in the prevalence of Ca2+ -permeable GluA2-lacking AMPARs (CP-AMPARs). The acid-sensing ion channel 1a (ASIC1a) which is expressed in CA1 pyramidal neurons, is also known to contribute to post-ischemic neuronal death and to physiologically induced LTP. This raises the question - does ASIC1a activation drive the post-ischemic forms of AMPAR plasticity in CA1 pyramidal neurons? We have tested this by examining organotypic hippocampal slice cultures (OHSCs) exposed to oxygen glucose deprivation (OGD), and dissociated cultures of hippocampal pyramidal neurons (HPN) exposed to low pH (acidosis). We find that both a-LTP and the delayed increase in the prevalence of CP-AMPARs are dependent on ASIC1a activation during ischemia. Indeed, acidosis alone is sufficient to induce the increase in CP-AMPARs. We also find that inhibition of ASIC1a channels circumvents any potential neuroprotective benefit arising from block of CP-AMPARs. By demonstrating that ASIC1a activation contributes to post-ischemic AMPAR plasticity, our results identify a functional interaction between acidotoxicity and excitotoxicity in hippocampal CA1 cells, and provide insight into the role of ASIC1a and CP-AMPARs as potential drug targets for neuroprotection. We thus propose that ASIC1a activation can drive certain forms of CP-AMPAR plasticity, and that inhibiting ASIC1a affords neuroprotection.
Resumo:
Acid-sensing ion channels (ASICs) are neuronal, voltage-independent Na(+) channels that are transiently activated by extracellular acidification. They are involved in pain sensation, the expression of fear, and in neurodegeneration after ischemic stroke. Our study investigates the role of extracellular subunit interactions in ASIC1a function. We identified two regions involved in critical intersubunit interactions. First, formation of an engineered disulfide bond between the palm and thumb domains leads to partial channel closure. Second, linking Glu-235 of a finger loop to either one of two different residues of the knuckle of a neighboring subunit opens the channel at physiological pH or disrupts its activity. This suggests that one finger-knuckle disulfide bond (E235C/K393C) sets the channel in an open state, whereas the other (E235C/Y389C) switches the channel to a non-conducting state. Voltage-clamp fluorometry experiments indicate that both the finger loop and the knuckle move away from the β-ball residue Trp-233 during acidification and subsequent desensitization. Together, these observations reveal that ASIC1a opening is accompanied by a distance increase between adjacent thumb and palm domains as well as a movement of Glu-235 relative to the knuckle helix. Our study identifies subunit interactions in the extracellular loop and shows that dynamic changes of these interactions are critical for normal ASIC function.
Resumo:
Channel activating proteases (CAP) are membrane-bound serine proteases that have been identified as in vitro activators of the epithelial sodium channel (ENaC). Two of them are mainly studied in the laboratory. CAP1/Prss8 was previously shown implicated in colonic sodium homeostasis in vivo. In the first part of this thesis, we generated and characterized mice deficient for CAP2/Tmprss4. The mice are healthy and viable, and they do not show any obvious phenotype. We investigated ENaC activity and expression under regular and sodium- deficient diet, and we could demonstrate that CAP2 is not a major regulator of sodium homeostasis in vivo. We next studied whether CAP2 is implicated in potassium homeostasis. We detected a strong gender-dependency when CAP2 knock-out mice were put under a potassium-deficient diet. We showed in male mice an implication of CAP2 in the regulation of the colonic H+, K+- ATPase, and we propose an implication of membrane-associated progesterone receptors and their binding partners, as well as a possible cleavage-mediated glucocorticoid receptor signalling. We studied the possible interaction between CAPI and CAP2 by generating and characterizing two different mouse study groups, displaying different hypomorphic mutations in the CAPI gene, and deficient for CAP2. We demonstrate that balanced expression of CAPI and CAP2 is required for maintainance of skin integrity and for normal placental development. As CAPI knock-out embryos die due to a placental failure, the additional combined deletion of CAP2 resulted in survival until birth. We could evidence that CAPI and CAP2 are implicated in the same signalling pathway as proposed in cancer studies at the level of the placenta, implicating integrin a5, ERK, AKT, E- and N-cadherin. Furthermore, we investigated whether CAPI is implicated in the pathogenesis and susceptibility to experimental chronic colitis in a mutant rat model. By giving CAPI mutant rats Dextran sodium sulfate, we induced chronic inflammation of the colon, and we highlighted the protective role of CAPI at the histopathological and clinical levels. In conclusion, we showed that CAP2 is not a major regulator of ENaC-mediated sodium homeostasis in vivo, but rather a regulator of potassium homeostasis in a gender-dependent manner implicating the colonic H+, K+-ATPase, membrane progesterone receptors, and the glucocorticoid receptor. We have investigated whether CAPI and CAP2 interact at the functional level, and we show that a balanced expression of CAPI and CAP2 is required in the skin, but also in the placenta. Imbalanced expression of CAPI and CAP2 leads to impaired EMT-associated signalling. We have studied whether CAPI is implicated in the pathogenesis and susceptibility to chronic colitis, and we demonstrated the protective role of CAPI in distal colon. -- Les protéases activatrices de canal (CAP) sont des protéases à serine attachées à la membrane qui ont été identifiées comme activateurs in vitro du canal sodique épithélial (ENaC). Deux de ces protéases sont principalement étudiées dans le laboratoire. CAP1/Prss8 a été identifié préalablement comme impliqué dans l'homéostasie du sodium in vivo au niveau du côlon. Dans la première partie de cette thèse, nous avons généré et caractérisé des souris déficientes pour CAP2/Tmprss4. Les souris sont en bonne santé et viables, et elles ne présentent pas de phénotype visible. Nous avons étudié l'activité et l'expression d'ENaC sous diète normale et déficiente en sodium, et nous avons démontré que CAP2 n'est pas un régulateur essentiel de l'homéostasie sodique in vivo. Nous avons ensuite étudié si CAP2 est impliqué dans l'homéostasie du potassium. Nous avons détecté une forte dépendance du sexe lorsque les souris knock-out pour CAP2 étaient placées sous diète déficiente en potassium. Nous avons démontré dans les souris mâles une implication de CAP2 dans la régulation de la H+, K+- ATPase colonique, des récepteurs membranaires à la progestérone et de leur partenaires de liaison, ainsi que dans la possible signalisation médiée par le clivage du récepteur aux glucocorticoïdes. Nous avons étudié l'interaction possible entre CAPI et CAP2 en générant et en caractérisant deux groupes d'étude de souris différents, porteurs de différentes mutations hypomorphiques dans le gène de CAPI, et déficients pour CAP2. Nous avons pu montrer qu'une expression équilibrée de CAPI et CAP2 est requise pour le maintien de l'intégrité de la peau et pour le développement normal du placenta. Les embryons knock-out pour CAPI meurent suite à une défaillance placentaire, et la délétion additionnelle et combinée de CAP2 permet la survie jusqu'à la naissance. Nous supposons que CAPI et CAP2 sont impliqués dans la même voie de signalisation au niveau du placenta que celle proposée dans les études de cancer, impliquant l'intégrine a5, ERK, AKT, E- et N-cadhérine. De plus, nous avons étudié si CAPI est impliqué dans la pathogenèse et la susceptibilité de colite chronique expérimentale dans un modèle de rat mutant. En administrant aux rats mutants pour CAPI du Dextran sodium sulfate, nous avons induit une inflammation chronique du côlon, et nous avons pu mettre en évidence le rôle protecteur de CAPI au niveau histopathologique et au niveau clinique. En conclusion, nous avons démontré que CAP2 n'est pas un régulateur essentiel de l'homéostasie sodique médiée par ENaC in vivo, mais plutôt de l'homéostasie potassique d'une manière dépendante du sexe et impliquant la H+, K+-ATPase colonique, les récepteurs membranaires à la progestérone et le récepteur aux glucocorticoïdes. Nous avons étudié si CAPI et CAP2 interagissent au niveau fonctionnel, et nous avons montré qu'une expression équilibrée entre CAPI et CAP2 est requise dans la peau et le placenta. L'expression déséquilibrée de CAPI et CAP2 mène à une altération de la signalisation associée à l'EMT. Nous avons étudié si CAPI est impliqué dans la pathogenèse et la susceptibilité de colite chronique expérimentale, et nous avons démontré le rôle protecteur de CAPI dans le côlon distal.
Resumo:
OBJECTIVE: To evaluate a comprehensive MRI protocol that investigates for cancer, vascular disease, and degenerative/inflammatory disease from the head to the pelvis in less than 40 minutes on a new generation 48-channel 3T system. MATERIALS AND METHODS: All MR studies were performed on a 48-channel 3T MR scanner. A 20-channel head/neck coil, two 18-channel body arrays, and a 32-channel spine array were employed. A total of 4 healthy individuals were studied. The designed protocol included a combination of single-shot T2-weighted sequences, T1-weighted 3D gradient-echo pre- and post-gadolinium. All images were retrospectively evaluated by two radiologists independently for overall image quality. RESULTS: The image quality for cancer was rated as excellent in the liver, pancreas, kidneys, lungs, pelvic organs, and brain, and rated as fair in the colon and breast. For vascular diseases ratings were excellent in the aorta, major branch vessel origins, inferior vena cava, portal and hepatic veins, rated as good in pulmonary arteries, and as poor in the coronary arteries. For degenerative/inflammatory diseases ratings were excellent in the brain, liver and pancreas. The inter-observer agreement was excellent. CONCLUSION: A comprehensive and time efficient screening for important categories of disease processes may be achieved with high quality imaging in a new generation 48-channel 3T system.
Resumo:
Under pathological conditions, microglia, the resident CNS immune cells, become reactive and release pro-inflammatory cytokines and neurotoxic factors. We investigated whether this phenotypic switch includes changes in the expression of the L-type voltage-gated calcium channel (VGCC) in a rat model of N-methyl-d-aspartate-induced hippocampal neurodegeneration. Double immunohistochemistry and confocal microscopy evidenced that activated microglia express the L-type VGCC. We then analyzed whether BV2 microglia express functional L-type VGCC, and investigated the latter's role in microglial cytokine release and phagocytic capacity. Activated BV2 microglia express the CaV1.2 and CaV1.3 subunits of the L-type VGCC determined by reverse transcription-polymerase chain reaction, Western blot and immunocytochemistry. Depolarization with KCl induced a Ca2+ entry facilitated by Bay k8644 and partially blocked with nifedipine, which also reduced TNF-α and NO release by 40%. However, no nifedipine effect on BV2 microglia viability or phagocytic capacity was observed. Our results suggest that in CNS inflammatory processes, the L-type VGCC plays a specific role in the control of microglial secretory activity.
