The general aim of this project is to investigate the role of intracellular free calcium levels ((Ca2+)i) in the regulation of vascular smooth muscle (VSM) contraction and relaxation. It is now well established that (Ca2+)i is involved in the mechanisms by which VSM contracts; however the precise role of this ion has not yet been defined. We will use aequorin to monitor (Ca2+) isimultaneously with isometric force form strips of ferret portal vein and aorta. Length-tension relationships will be determined while simultaneously monitoring (Ca2+)i in order to determine if length-dependent changes in active force in VSM are accompanied by and possibly caused by changes in (Ca2+)i. The mechanism of receptor-response coupling will be investigated by determining if different subtypes of alpha and beta adrenergic receptors produce different (Ca2+)i profiles or produce differential effects on calcium sensitivity. We will utilize phorbol esters as tools to activate protein kinase C (PKC) to investigate the possible role of PKC activation in the calcium dependent regulation of force maintenance. We will use two dimensional gel electrophoresis to measure the phosphorylation levels of the 20,000 dalton myosin light chains to see whether temporal changes in (Ca2+)i are accompanied by similar changes in the myosin light chain (MLC) phosphorylation levels, We will determine the effect of relatively specific inhibitors of protein kinase C and calmodulin antagonists on force generation, force maintenance (Ca2+)i and MLC phosphorylation. We will use calcium channel blockers as experimental tools to determine the source of the various components of the (Ca2+)i signals and to test the putative relationship between the calcium signals and the force profiles. We will also perform studies on enzymatically isolated smooth muscle cells using fura-2 to determine the degree to which the nonlinear properties and Mg2+ dependence of aequorin might have biased our perception of (Ca2+)i profiles. Finally, we plan to evaluate the use of fura-2 to study the mobilization of calcium from intracellular storage sites. The information obtained in this study should allow us to take a considerable step forward in understanding the role of (Ca2+)i in the regulation of normal (and eventually, abnormal) smooth muscle contraction.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL031704-06
Application #
3342927
Study Section
Experimental Cardiovascular Sciences Study Section (ECS)
Project Start
1983-07-01
Project End
1992-11-30
Budget Start
1988-12-01
Budget End
1989-11-30
Support Year
6
Fiscal Year
1989
Total Cost
Indirect Cost
Name
Beth Israel Deaconess Medical Center
Department
Type
DUNS #
076593722
City
Boston
State
MA
Country
United States
Zip Code
02215
Poythress, Ransom H; Gallant, Cynthia; Vetterkind, Susanne et al. (2013) Vasoconstrictor-induced endocytic recycling regulates focal adhesion protein localization and function in vascular smooth muscle. Am J Physiol Cell Physiol 305:C215-27
Yilmaz, Mehtap; Gangopadhyay, Samudra S; Leavis, Paul et al. (2013) Phosphorylation at Ser²? in the ATP-binding site of Ca²?/calmodulin-dependent kinase II as a mechanism for switching off the kinase activity. Biosci Rep 33:
Min, Jianghong; Reznichenko, Maya; Poythress, Ransom H et al. (2012) Src modulates contractile vascular smooth muscle function via regulation of focal adhesions. J Cell Physiol 227:3585-92
Gallant, Cynthia; Appel, Sarah; Graceffa, Philip et al. (2011) Tropomyosin variants describe distinct functional subcellular domains in differentiated vascular smooth muscle cells. Am J Physiol Cell Physiol 300:C1356-65
Appel, Sarah; Allen, Philip G; Vetterkind, Susanne et al. (2010) h3/Acidic calponin: an actin-binding protein that controls extracellular signal-regulated kinase 1/2 activity in nonmuscle cells. Mol Biol Cell 21:1409-22
Vetterkind, Susanne; Lee, Eunhee; Sundberg, Eric et al. (2010) Par-4: a new activator of myosin phosphatase. Mol Biol Cell 21:1214-24
Vetterkind, Susanne; Morgan, Kathleen G (2009) The pro-apoptotic protein Par-4 facilitates vascular contractility by cytoskeletal targeting of ZIPK. J Cell Mol Med 13:887-95
Gangopadhyay, Samudra S; Kengni, Edouard; Appel, Sarah et al. (2009) Smooth muscle archvillin is an ERK scaffolding protein. J Biol Chem 284:17607-15
Kim, H R; Appel, S; Vetterkind, S et al. (2008) Smooth muscle signalling pathways in health and disease. J Cell Mol Med 12:2165-80
Gangopadhyay, Samudra S; Gallant, Cynthia; Sundberg, Eric J et al. (2008) Regulation of Ca2+/calmodulin kinase II by a small C-terminal domain phosphatase. Biochem J 412:507-16

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