Ca2+-Dependent Rapid Ca2+ Sensitization of Contraction in Arterial Smooth Muscle

doi:10.1161/01.RES.0000253902.90489.df

Circulation Research. 2006
Published online before print December 7, 2006, doi: 10.1161/01.RES.0000253902.90489.df

A more recent version of this article appeared on January 5, 2007

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Submitted on July 27, 2006
Revised on November 15, 2006
Accepted on November 16, 2006

Ca²⁺-Dependent Rapid Ca²⁺ Sensitization of Contraction in Arterial Smooth Muscle

George J. Dimopoulos ; Shingo Semba ; Kazuyo Kitazawa ; Masumi Eto ; and Toshio Kitazawa ^*

From the Boston Biomedical Research Institute (G.J.D., S.S., K.K., T.K.), Watertown, Mass; and Department of Physiology (M.E.), Jefferson Medical College, Philadelphia, Pa.

^* To whom correspondence should be addressed. E-mail: Kitazawa{at}bbri.org.

Ca²⁺ ion is a universal intracellular messenger that regulatesnumerous biological functions. In smooth muscle, Ca²⁺ with calmodulinactivates myosin light chain (MLC) kinase to initiate a rapidMLC phosphorylation and contraction. To test the hypothesisthat regulation of MLC phosphatase is involved in the rapiddevelopment of MLC phosphorylation and contraction during Ca²⁺transient, we compared Ca²⁺ signal, MLC phosphorylation, and2 modes of inhibition of MLC phosphatase, phosphorylation ofCPI-17 Thr38 and MYPT1 Thr853, during ${alpha}$ ₁ agonist-induced contractionwith/without various inhibitors in intact rabbit femoral artery.Phenylephrine rapidly induced CPI-17 phosphorylation from anegligible amount to a peak value of 0.38±0.04 mol of Pi/molwithin 7 seconds following stimulation, similar to the rapidtime course of Ca²⁺ rise and MLC phosphorylation. This rapidCPI-17 phosphorylation was dramatically inhibited by eitherblocking Ca²⁺ release from the sarcoplasmic reticulum or bypretreatment with protein kinase C inhibitors, suggesting aninvolvement of Ca²⁺-dependent protein kinase C. This was followedby a slow Ca²⁺-independent and Rho-kinase/protein kinase C-dependentphosphorylation of CPI-17. In contrast, MYPT1 phosphorylationhad only a slow component that increased from 0.29±0.09at rest to the peak of 0.68±0.14 mol of Pi/mol at 1 minute,similar to the time course of contraction. Thus, there are 2components of the Ca²⁺ sensitization through inhibition of MLCphosphatase. Our results support the hypothesis that the initialrapid Ca²⁺ rise induces a rapid inhibition of MLC phosphatasecoincident with the Ca²⁺-induced MLC kinase activation to synergisticallyinitiate a rapid MLC phosphorylation and contraction in arterieswith abundant CPI-17 content.

Key words: CPI-17 • MYPT1 • PKC • Rho-kinase

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