Your search keyword '"Hypotonicity"' showing total 7 results

1. Hypotonic stimuli enhance proton-gated currents of acid-sensing ion channel-1b

Author

Ugawa, Shinya, Ishida, Yusuke, Ueda, Takashi, Yu, Yong, and Shimada, Shoichi

Subjects

*ION channels, *HAIR cells, *MEMBRANE proteins, *ACTIVE biological transport

Abstract

Abstract: Acid-sensing ion channels (ASICs) are strong candidates for mammalian mechanoreceptors. We investigated whether mouse acid-sensing ion channel-1b (ASIC1b) is sensitive to mechanical stimuli using oocyte electrophysiology, because ASIC1b is located in the mechanosensory stereocilia of cochlear hair cells. Hypotonic stimuli that induced membrane stretch of oocytes evoked no significant current in ASIC1b-expressing oocytes at pH 7.5. However, acid (pH 4.0 or 5.0)-evoked currents in the oocytes were substantially enhanced by the hypotonicity, showing mechanosensitivity of ASIC1b and possible mechanogating of the channel in the presence of other components. Interestingly, the ASIC1b channel was permeable to K+ (a principal charge carrier for cochlear sensory transduction) and the affinity of the channel for amiloride (IC50 (inhibition constant)=approximately 48.3μM) was quite similar to that described for the mouse hair cell mechanotransducer current. Taken together, these data raise the possibility that ASIC1b participates in cochlear mechanoelectrical transduction. [Copyright &y& Elsevier]

Published

2008

2. WNK kinases influence TRPV4 channel function and localization.

Author

Yi Fu, Subramanya, Arohan, Rozansky, David, and Cohen, David M.

Subjects

*TRP channels, *ION channels, *PROTEIN kinases, *CALCIUM metabolism disorders, *HYPERCALCEMIA, *MEMBRANE proteins, *CELL membranes, *RENAL circulation

Abstract

TRPV4, a renally expressed nonselective cation channel of the transient receptor potential (TRP) family, is gated by hypotonicity. Kinases of the WNK family influence expression and function of the thiazide-sensitive Na+-Cl- cotransporter, and monogenic human hypertension has been linked to mutations in the gene coding for WNK4. Along with TRPV4, WNK isoforms are highly expressed in the distal nephron. We show here that coexpression of WNK4 downregulates TRPV4 function in human embryonic kidney (HEK-293) cells and that this effect is mediated via decreased cell surface expression of TRPV4; total abundance of TRPV4 in whole cell lysates is unaffected. The effect of the related kinase WNKI on TRPV4 function and surface expression was similar to that of WNK4. Disease-causing point mutations in WNK4 abrogate, but do not eliminate, the inhibitory effect on TRPV4 function. In contrast to wild-type WNK4, a kinase-dead WNK4 point mutant failed to influence TRPV4 trafficking; however, deletion of the entire WNK4 kinase domain did not blunt the effect of WNK4 on localization of TRPV4. Deletion of the extreme COOH-terminal putative coiled-coil domain of WNK4 abolished its effect. In immunoprecipitation experiments, we were unable to detect direct interaction between TRPV4 and either WNK kinase. In aggregate, these data indicate that TRPV4 is functionally regulated by WNK family kinases at the level of cell surface expression. Because TRPV4 and WNK kinases are coexpressed in the distal nephron in vivo and because there is a tendency toward hypercalcemia in TRPV4-/- mice, we speculate that this pathway may impact systemic Ca2+ balance. In addition, because WNK kinases and TRPV4 are activated by anisotonicity, they may comprise elements of an osmosensing or osmotically responsive signal transduction cascade in the distal nephron. [ABSTRACT FROM AUTHOR]

Published

2006

3. Multiple eicosanoid-activated nonselective cation channels regulate B-lymphocyte adhesion to integrin ligands.

Author

Xiaohong Liu, Peimin Zhu, and Freedman, Bruce D.

Subjects

*INTEGRINS, *CELL adhesion, *ION channels, *LYMPHOCYTES, *B cells, *EICOSANOIDS, *CELL membranes

Abstract

Arachidonic acid (AA) is a substrate for a variety of proinflammatory mediators, which are generated by cyclooxygenases (COXs), lipoxygenases (LOXs), and cytochrome P-450 (CYP450) enzymes. COX (e.g., PGs and prostacyclins) and LOX (e.g., leukotrienes) products have well-established proinflammatory roles; however, little is known about the functions of CYP450 products in leukocytes. We previously found that mechanical strain generated by subjecting lymphocytes to hypotonic challenge triggered AA production and that two CYP450 products of AA, 5,6-epoxyeicosatrienoic acid (5,6-EET) and 20-hydroxyeicosatetraenoic acid (20-HETE), as well as a product of LOX, 5-(S)-hydroper-oxyeicosatetrenoic acid (5-HPETE), induced Ca2+ entry into primary B cells. The main goal of the present studies, therefore, was to define the biophysically properties of eicosanoid-activated channels responsible for Ca2+ entry and the physiological consequences of activating these channels, including their role in mechanical signaling. We found that 5,6-EET, 20-HETE, and 5-HPETE each activated distinct Ca2+-per-meant nonselective cation channels (NSCC5) in primary B cells. These NSCCs each regulate plasma membrane potential and B-cell adhesion to integrin ligands ICAM-1 and VCAM-1. Thus our data demonstrate that proinflammatory mediators produced in response to osmotic and/or physical stress play a direct role in regulating the B-cell membrane potential and their adhesion to specific ECM proteins. These results not only have important implications for understanding normal mechanisms of B-cell activation, differentiation, and trafficking but also point to novel targets for modulating the pathogenesis of B-cell-mediated inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2006

4. Transient receptor potential cation channel subfamily V member 4 (TRPV4) and airway, sensory afferent activation: role of adenosine triphosphate (ATP)

Author

Belvisi, MG, Medical Research Council (MRC), Imperial Innovations Ltd, and North West Lung Centre

Subjects

ATP, hypotonicity, Allergy, cough, sensory nerves, 1107 Immunology, Transient receptor potential, ion channels, vagus

Published

2015

5. Transient receptor potential cation channel, subfamily V, member 4 and airway sensory afferent activation: Role of adenosine triphosphate

Author

Gema Tarrason, John J. Adcock, Maria G. Belvisi, Sara J. Bonvini, Fisnik Shala, Eric Dubuis, Anthony P. Ford, Yee-Man Ching, Sarah A. Maher, Jaclyn A. Smith, Montserrat Miralpeix, Megan S. Grace, Michael A. Wortley, and Mark A. Birrell

Subjects

0301 basic medicine, Male, Pathology, NCBI, National Center for Biotechnology Information, Respiratory System, vagus, Nerve Fibers, Myelinated, CV, Conduction velocity, Transient receptor potential channel, Mice, hypotonicity, 0302 clinical medicine, Adenosine Triphosphate, cough, Medicine, Immunology and Allergy, Mice, Knockout, ion channels, Nodose Ganglion, Vagus Nerve, Px1, Pannexin 1, medicine.anatomical_structure, Nociceptor, TRPV4, Transient receptor potential cation channel, subfamily V, member 4, Mechanisms of Allergy and Clinical Immunology, TRP, Transient receptor potential, Sensory nerve, [Ca2+]i, Intracellular free calcium, TRPV4, DiI, 1,1′-Dioctacetyl-3,3,3′,3′-tetramethylindocarbocyanine perchlorate, ECS, Extracellular solution, medicine.medical_specialty, Purinergic P2X Receptor Antagonists, sensory nerves, Guinea Pigs, Immunology, TRPV Cation Channels, COPD, Chronic obstructive pulmonary disease, 4α-PDD, 4α Phorbol 12,13-didecanoate, 03 medical and health sciences, RAR, Rapidly adapting stretch receptor, Animals, Calcium Signaling, Neurons, Afferent, K50, 50 mmol/L Potassium chloride solution, Dose-Response Relationship, Drug, business.industry, DMSO, Dimethyl sulfoxide, AUC, Area under the curve, Vagus nerve, ATP, 030104 developmental biology, 030228 respiratory system, Transient receptor potential, Reflex, business, Neuroscience, αβ-MeATP, αβ-Methylene-ATP

Abstract

Background Sensory nerves innervating the airways play an important role in regulating various cardiopulmonary functions, maintaining homeostasis under healthy conditions and contributing to pathophysiology in disease states. Hypo-osmotic solutions elicit sensory reflexes, including cough, and are a potent stimulus for airway narrowing in asthmatic patients, but the mechanisms involved are not known. Transient receptor potential cation channel, subfamily V, member 4 (TRPV4) is widely expressed in the respiratory tract, but its role as a peripheral nociceptor has not been explored. Objective We hypothesized that TRPV4 is expressed on airway afferents and is a key osmosensor initiating reflex events in the lung. Methods We used guinea pig primary cells, tissue bioassay, in vivo electrophysiology, and a guinea pig conscious cough model to investigate a role for TRPV4 in mediating sensory nerve activation in vagal afferents and the possible downstream signaling mechanisms. Human vagus nerve was used to confirm key observations in animal tissues. Results Here we show TRPV4-induced activation of guinea pig airway–specific primary nodose ganglion cells. TRPV4 ligands and hypo-osmotic solutions caused depolarization of murine, guinea pig, and human vagus and firing of Aδ-fibers (not C-fibers), which was inhibited by TRPV4 and P2X3 receptor antagonists. Both antagonists blocked TRPV4-induced cough. Conclusion This study identifies the TRPV4-ATP-P2X3 interaction as a key osmosensing pathway involved in airway sensory nerve reflexes. The absence of TRPV4-ATP–mediated effects on C-fibers indicates a distinct neurobiology for this ion channel and implicates TRPV4 as a novel therapeutic target for neuronal hyperresponsiveness in the airways and symptoms, such as cough.

Published

2016

6. Transient receptor potential cation channel, subfamily V, member 4 and airway sensory afferent activation: Role of adenosine triphosphate.

Author

Bonvini, Sara J., Birrell, Mark A., Grace, Megan S., Maher, Sarah A., Adcock, John J., Wortley, Michael A., Dubuis, Eric, Ching, Yee-Man, Ford, Anthony P., Shala, Fisnik, Miralpeix, Montserrat, Tarrason, Gema, Smith, Jaclyn A., and Belvisi, Maria G.

Abstract

Background Sensory nerves innervating the airways play an important role in regulating various cardiopulmonary functions, maintaining homeostasis under healthy conditions and contributing to pathophysiology in disease states. Hypo-osmotic solutions elicit sensory reflexes, including cough, and are a potent stimulus for airway narrowing in asthmatic patients, but the mechanisms involved are not known. Transient receptor potential cation channel, subfamily V, member 4 (TRPV4) is widely expressed in the respiratory tract, but its role as a peripheral nociceptor has not been explored. Objective We hypothesized that TRPV4 is expressed on airway afferents and is a key osmosensor initiating reflex events in the lung. Methods We used guinea pig primary cells, tissue bioassay, in vivo electrophysiology, and a guinea pig conscious cough model to investigate a role for TRPV4 in mediating sensory nerve activation in vagal afferents and the possible downstream signaling mechanisms. Human vagus nerve was used to confirm key observations in animal tissues. Results Here we show TRPV4-induced activation of guinea pig airway–specific primary nodose ganglion cells. TRPV4 ligands and hypo-osmotic solutions caused depolarization of murine, guinea pig, and human vagus and firing of Aδ-fibers (not C-fibers), which was inhibited by TRPV4 and P2X3 receptor antagonists. Both antagonists blocked TRPV4-induced cough. Conclusion This study identifies the TRPV4-ATP-P2X3 interaction as a key osmosensing pathway involved in airway sensory nerve reflexes. The absence of TRPV4-ATP–mediated effects on C-fibers indicates a distinct neurobiology for this ion channel and implicates TRPV4 as a novel therapeutic target for neuronal hyperresponsiveness in the airways and symptoms, such as cough. [ABSTRACT FROM AUTHOR]

Published

2016

7. Transient Receptor Potential Vanilloid 4 Regulates Aquaporin-5 Abundance under Hypotonic Conditions

Author

Sidhaye, Venkataramana K., Güler, Ali D., Schweitzer, Kelly S., D'Alessio, Franco, Caterina, Michael J., and King, Landon S.

Published

2006