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Transforming growth factor beta 1 modulates electrophysiological parameters of vas deferens epithelial cellsYi, Sheng January 1900 (has links)
Doctor of Philosophy / Department of Anatomy and Physiology / Bruce Schultz / Transforming growth factor β1 (TGF-β1) is a cytokine that reportedly affects the severity of cystic fibrosis lung disease. The goal of this project was to define the effect of TGF-β1 on vas deferens, an organ that is universally affected in male cystic fibrosis patients.
In the first study, experiments were conducted using freshly isolated porcine vas deferens epithelial cells. Primary porcine vas deferens epithelial cells exposed to TGF-β1 exhibited a significantly reduced basal transepithelial electrical resistance (Rte). TGF-β1-induced reduction in Rte was prevented by SB431542, a TGF-β receptor I inhibitor, indicating that the effect of TGF-β1 requires the activation of TGF-β receptor I. Western blot and immunohistochemistry results showed the expression of TGF-β receptor I in native vas deferens epithelia, indicating that the impaired barrier function and anion secretion that were observed in cultured vas deferens cells can likely be observed in the native context. Immunohistochemical outcomes showed that TGF-β1 exposure led to loss of organization of tight junction proteins occludin and claudin-7. These outcomes suggest that TGF-β1 impairs the barrier integrity of epithelial cells lining the vas deferens.
In a parallel study that employed PVD9902 cells that are derived from porcine vas deferens, TGF-β1 exposure significantly reduced anion secretion stimulated by forskolin, forskolin/IBMX, and 8-pCPT-cAMP, suggesting that TGF-β1 affects downstream targets of the cAMP signaling pathway. Real-time RT-PCR and western blot analysis showed that TGF-β1 exposure reduced both the mRNA and the protein abundance of cystic fibrosis transmembrane conductance regulator (CFTR). Pharmacological studies showed that the inhibitory effect of TGF-β1 on forskolin-stimulated anion secretion was abrogated by SB431542 and attenuated by SB203580, a p38 mitogen-activated protein kinase (MAPK) inhibitor. These outcomes suggest that TGF-β1, via the activation of TGF-β receptor I and p38 MAPK signaling, reduces CFTR expression, and thus impairs CFTR-mediated anion secretion.
Outcomes from these studies suggest that, in epithelial cells lining the vas deferens, TGF-β1 exposure leads to an impaired physical barrier and/or reduced anion secretion, which is expected to modify the composition and the maintenance of the luminal environment and thus, is expected to reduce male fertility.
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Potassium channels support anion secretion in porcine vas deferens epithelial cellsMalreddy, Pradeep Reddy January 1900 (has links)
Master of Science / Department of Anatomy and Physiology / Bruce D. Schultz / Epithelial cells lining the vas deferens modify the luminal contents to which sperm are exposed in response to neuroendocrine, autocrine and lumicrine transmitters. The role and identity of vas deferens epithelial potassium channels that provide the correct luminal environment for sperm maturation and delivery have not yet been determined. Cultures of vas deferens epithelial cells isolated from adult pigs were employed to investigate contributions of
selected ion channels to net flux. A two-pore potassium channel, TASK-2, was identified on the apical membrane of cultured primary porcine vas deferens epithelial cells (1°PVD). Bupivacaine,
a known TASK-2 inhibitor, when added to the apical bathing solution, inhibited forskolin- stimulated short circuit current, Isc, in a concentration dependent manner with a maximum inhibition of 72 ± 6% and an IC50 of 7.4 ± 2.2 µM. Apical exposure of 1°PVD cells to quinidine, lidocaine, and clofilium (other known TASK-2 blockers) inhibited forskolin-stimulated Isc in a
concentration dependent manner. Fitting a modified Michalis-Menten function to the data revealed IC50 values of 274 µM, 531 µM, and 925 µM, respectively. Riluzole, a two-pore potassium channel activator, stimulated bupivacaine-sensitive Isc, further confirming the contribution of TASK-2 to net ion flux. Western blotting demonstrated the presence of TASK-2
immunoreactivity in 1°PVD cell lysates, while immunocytochemistry demonstrated apical localization of the targeted epitope in virtually all cells lining native porcine vas deferens. These results suggest that TASK-2 likely plays a role in vas deferens epithelial ion transport that may
account for the reportedly high concentration of potassium in the male reproductive duct lumen.
TASK-2 likely contributes to male fertility as an integral member of the regulated transport processes that account for the luminal environment to which sperm are exposed.
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