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6. Phosphorylated HSP20 modulates the association of thin-filament binding proteins: caldesmon with tropomyosin in colonic smooth muscle

Author

Somara, Sita, Gilmont, Robert R., Varadarajan, Saranyaraajan, and Bitar, Khalil N.

Subjects
Heat shock proteins -- Chemical properties, Heat shock proteins -- Research, Phosphorylation -- Physiological aspects, Phosphorylation -- Research, Smooth muscle -- Physiological aspects, Smooth muscle -- Genetic aspects, Smooth muscle -- Research, Biological sciences
Abstract

Small heat shock proteins HSP27 and HSP20 have been implicated in regulation of contraction and relaxation in smooth muscle. Activation of PKC-[alpha] promotes contraction by phosphorylation of HSP27 whereas activation of PKA promotes relaxation by phosphorylation of HSP20 in colonic smooth muscle cells (CSMC). We propose that the balance between the phosphorylation states of HSP27 and HSP20 represents a molecular signaling switch for contraction and relaxation. This molecular signaling switch acts downstream on a molecular mechanical switch [tropomyosin (TM)] regulating thin-filament dynamics. We have examined the role of phosphorylation state(s) of HSP20 on HSP27-mediated thin-filament regulation in CSMC. CSMC were transfected with different HSP20 phosphomutants. These transfections had no effect on the integrity of actin cytoskeleton. Cells transfected with 16D-HSP20 (phosphomimic) exhibited inhibition of acetylcholine (ACh)-induced contraction whereas cells transfected with 16A-HSP20 (nonphosphorylatable) had no effect on ACh-induced contraction. CSMC transfected with 16D-HSP20 cDNA showed significant decreases in 1) phosphorylation of HSP27 (ser78); 2) phosphorylation of PKC-[alpha] (ser657); 3) phosphorylation of TM and CaD (ser789); 4) ACh-induced phosphorylation of myosin light chain; 5) ACh-induced association of TM with HSP27; and 6) ACh-induced dissociation of TM from caldesmon (CAD). We thus propose the crucial physiological relevance of molecular signaling switch (phosphorylation state of HSP27 and HSP20), which dictates 1) the phosphorylation states of TM and CaD and 2) their dissociations from each other. relaxation; heat shock protein; molecular signaling switch; molecular mechanical switch; smooth muscle contraction doi: 10.1152/ajpgi.00479.2009.

Published
2010

7. Successful implantation of physiologically functional bioengineered mouse internal anal sphincter

Author

Raghavan, Shreya, Miyasaka, Eiichi A., Hashish, Mohamed, Somara, Sita, Gilmont, Robert R., Teitelbaum, Daniel H., and Bitar, Khalil N.

Subjects
Artificial sphincters -- Research, Tissue engineering -- Research, Transplantation of organs, tissues, etc. -- Research, Biological sciences
Abstract

We have previously developed bioengineered three-dimensional internal anal sphincter (IAS) rings from circular smooth muscle cells isolated from rabbit and human IAS. We provide proof of concept that bioengineered mouse IAS rings are neovascularized upon implantation into mice of the same strain and maintain concentric smooth muscle alignment, phenotype, and IAS functionality. Rings were bioengineered by using smooth muscle cells from the IAS of C57BL/6J mice. Bioengineered mouse IAS rings were implanted subcutaneously on the dorsum of C57BL/6J mice along with a microosmotic pump delivering fibroblast growth factor-2. The mice remained healthy during the period of implantation, showing no external signs of rejection. Mice were killed 28 days postsurgery and implanted IAS rings were harvested. IAS rings showed muscle attachment, neovascularization, healthy color, and no external signs of infection or inflammation. Assessment of force generation on harvested IAS rings showed the following: 1) spontaneous basal tone was generated in the absence of external stimulation; 2) basal tone was relaxed by vasoactive intestinal peptide, nitric oxide donor, and nifedipine; 3) acetylcholine and phorbol dibutyrate elicited rapid-rising, dose-dependent, sustained contractions repeatedly over 30 min without signs of muscle fatigue; and 4) magnitudes of potassium chloride-induced contractions were 100% of peak maximal agonist-induced contractions. Our preliminary results confirm the proof of concept that bioengineered tings are neovascularized upon implantation. Harvested rings maintain smooth muscle alignment and phenotype. Our physiological studies confirm that implanted rings maintain 1) overall IAS physiology and develop basal tone, 2) integrity of membrane ionic characteristics, and 3) integrity of membrane associated intracellular signaling transduction pathways for contraction and relaxation by responding to cholinergic, nitrergic, and VIP-ergic stimulation. IAS smooth muscle tissue could thus be bioengineered for the purpose of implantation to serve as a potential graft therapy for dysfunctional internal anal sphincter in fecal incontinence. fecal incontinence; tissue engineering; smooth muscle contraction doi: 10.1152/ajpgi.00269.2009.

Published
2010

9. Ectopic expression of caveolin-1 restores physiological contractile response of aged colonic smooth muscle

Author

Somara, Sita, Gilmont, Robert R., Martens, Jeffrery R., and Bitar, Khalil N.

Subjects
Colon (Anatomy) -- Research, Muscle cells -- Research, Epithelial cells -- Research, Muscle contraction -- Research, Smooth muscle -- Research, Gastrointestinal system -- Motility, Gastrointestinal system -- Research, Cell research, Biological sciences
Abstract

Reduced colonic motility has been observed in aged rats with a parallel reduction in acetylcholine (ACh)-induced myosin light chain (ML[C.sub.20]) phosphorylation. ML[C.sub.20] phosphorylation during smooth muscle contraction is maintained by a coordinated signal transduction cascade requiring both PKC-[alpha] and RhoA. Caveolae are membrane microdomains that permit rapid and efficient coordination of different signal transduction cascades leading to sustained smooth muscle contraction of the colon. Here, we show that normal physiological contraction can be reinstated in aged colonic smooth muscle cells (CSMCs) upon transfection with wild-type caveolin-1 through the activation of both the RhoA/Rho kinase and PKC pathways. Our data demonstrate that impaired contraction in aging is an outcome of altered membrane translocation of PKC-[alpha] and RhoA with a concomitant reduction in the association of these molecules with the caveolae-specific protein caveolin-1, resulting in a parallel decrease in the myosin phosphatase-targeting subunit (MYPT) and CPI-17 phosphorylation. Decreased MYPT and CPI-17 phosphorylation activates MLC phosphatase activity, resulting in ML[C.sub.20] dephosphorylation, which may be responsible for decreased colonic motility in aged rats. Importantly, transfection of CSMCs from aged rats with wild-type yellow fluorescent protein-caveolin-1 cDNA restored translocation of RhoA and PKC-[alpha] and phosphorylation of MYPT, CPI-17, and ML[C.sub.20], thereby restoring the contractile response to levels comparable with young adult rats. Thus, we propose that caveolin-1 gene transfer may represent a promising therapeutic treatment to correct the age-related decline in colonic smooth muscle motility. aging; myosin phosphorylation; RhoA; PKC doi:10.1152/ajpgi.00064.2007

Published
2007

11. Contributors

Author

Abraham, Clara, primary, Abreu, Maria T., additional, Akiba, Yasutada, additional, Anderson, James M., additional, Aziz, Qasim, additional, Baker, Kristi, additional, Baldwin, Graham S., additional, Barnard, John A., additional, Bharucha, Adil E., additional, Bitar, Khalil N., additional, Ashley Blackshaw, L., additional, Blumberg, Richard S., additional, Bommer, Guido T., additional, Bornstein, Joel C., additional, Brierley, Stuart M., additional, Brookes, Simon J.H., additional, Chao, Celia, additional, Cho, Judy, additional, Coen, Steven J., additional, Collins, James F., additional, Dempsey, Peter J., additional, Koh, Sang Don, additional, Englander, Ella W., additional, Enomoto, Hideki, additional, Fearon, Eric R., additional, Fiebiger, Edda, additional, Frey, Mark R., additional, Fukata, Masayuki, additional, Fukudo, Shin, additional, Furness, John B., additional, Ghishan, Fayez K., additional, Gillilland, Merritt G., additional, Gilmont, Robert R., additional, Gomez, Guillermo A., additional, Greeley, George H., additional, Gwynne, Rachel M., additional, Ham, Maggie, additional, Harrington, Andrea, additional, Hebbard, Geoffrey S., additional, Hellmich, Mark R., additional, Hermann, Gerlinda E., additional, Herness, Scott, additional, Hobson, Anthony R., additional, Holzer, Peter, additional, Horowitz, Michael, additional, Huffnagle, Gary B., additional, Hughes, Patrick, additional, Jadcherla, Sudarshan R., additional, Johansen, Finn-Eirik, additional, Johnson, Leonard R., additional, Katz, Jonathan P., additional, Kaunitz, Jonathan D., additional, Kuemmerle, John F., additional, Labus, Jennifer S., additional, Lavoie, Brigitte, additional, Lencer, Wayne I., additional, Linden, David R., additional, Ma, Thomas Y., additional, Massol, Ramiro, additional, Mawe, Gary M., additional, Mayer, Emeran A., additional, McHugh, Kirk M., additional, Merchant, Juanita L., additional, Mittal, Ravinder K., additional, Montrose, Marshall H., additional, Naliboff, Bruce D., additional, Nelson, Mark T., additional, Newgreen, Donald F., additional, Brent Polk, D., additional, Poole, Daniel P., additional, Pozo, Maria J., additional, Raghavan, Shreya, additional, Ray, Ramesh M., additional, Rayner, Christopher K., additional, Rogers, Richard C., additional, Rozengurt, Enrique, additional, Samuelson, Linda C., additional, Sanders, Kenton M., additional, Shaker, Reza, additional, Sjövall, Henrik, additional, Somara, Sita, additional, Szurszewski, Joseph H., additional, Tack, Jan, additional, Takeuchi, Koji, additional, Tetreault, Marie-Pier, additional, Tillisch, Kirsten, additional, Turner, Jerrold R., additional, van den Brink, Gijs R., additional, van Dop, Willemijn A., additional, VanDussen, Kelli L., additional, Wald, Arnold, additional, Ward, Sean M., additional, Wood, Jackie D., additional, Wright, Nicholas A., additional, Xu, Hua, additional, Yang, Vincent W., additional, Young, Heather M., additional, Young, Vincent B., additional, Abumrad, Nada A., additional, Alrefai, Waddah A., additional, Ambatipudi, Kiran S., additional, Ammoury, Rana F., additional, Anderson, Gregory J., additional, Argent, Barry E., additional, Borthakur, Alip, additional, Case, R.Maynard, additional, Catalán, Marcelo A., additional, Chen, Zhouji, additional, Cheng, Xiaodong, additional, Chepurny, Oleg G., additional, Cousins, Robert J., additional, Cuppoletti, John, additional, Davidson, Nicholas O., additional, Dawson, Paul A., additional, de Lartigue, Guillaume, additional, Dudeja, Pradeep K., additional, Forte, John G., additional, Ganapathy, Vadivel, additional, Gill, Ravinder K., additional, Gorelick, Fred S., additional, Granger, D.Neil, additional, Gray, Michael A., additional, Grisham, Matthew B., additional, Harrison, Earl H., additional, Hecht, Gail, additional, Hirayama, Bruce A., additional, Hodges, Kim, additional, Holt, George G., additional, Israel, Dawn A., additional, Jamieson, James D., additional, Karvar, Serhan, additional, Kevil, Christopher G., additional, Kiela, Pawel R., additional, Kowdley, Kris V., additional, LaRusso, Nicholas F., additional, Leech, Colin A., additional, Liddle, Rodger A., additional, Liu, Sumei, additional, Loo, Donald D.F., additional, Lynch, John P., additional, MacNaughton, Wallace K., additional, Malinowska, Danuta H., additional, Mansbach, Charles M., additional, Masyuk, Anatoliy I., additional, Masyuk, Tatyana V., additional, McKay, Derek M., additional, Melvin, James E., additional, Messner, Donald J., additional, Meyer, Mark B., additional, Murray, Karen F., additional, Nexo, Ebba, additional, Okamoto, Curtis, additional, Ortega, Bernardo, additional, Ouellette, André J., additional, Peek, Richard M., additional, Wesley Pike, J., additional, Raybould, Helen E., additional, Rustgi, Anil K., additional, Said, Hamid M., additional, Sala-Rabanal, Monica, additional, Schubert, Mitchell L., additional, Seidler, Ursula, additional, Sjöblom, Markus, additional, Söderholm, Johan D., additional, Steward, Martin C., additional, Thiagarajah, Jay R., additional, Verkman, A.S., additional, Welling, Paul A., additional, Williams, John A., additional, Wolkoff, Allan W., additional, Wright, Ernest M., additional, Yao, Xuebiao, additional, and Yule, David I., additional

Published
2012
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