Isoprenylation of a protein kinase. Requirement of farnesylation/alpha-carboxyl methylation for full enzymatic activity of rhodopsin kinase.

J Inglese,J F Glickman,W Lorenz,M G Caron,R J Lefkowitz

doi:10.1016/s0021-9258(18)45960-1

J Inglese, J F Glickman + Show 3 more

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https://doi.org/10.1016/s0021-9258(18)45960-1

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Abstract

The primary structure of bovine rhodopsin kinase (RK), which phosphorylates light-activated rhodopsin (Rho*), terminates with the amino acid sequence Cys558-Val-Leu-Ser561, a motif that has been shown to direct the isoprenylation and alpha-carboxyl methylation of many proteins (e.g. p21Ha-ras). Transient expression of RK in COS-7 cells revealed the presence of two immunoreactive protein species. Consistent with RK being modified by isoprenylation, interconversion of these two species was dependent upon isoprenoid biosynthesis in the cells. Moreover, a serine substitution for Cys558 resulted in a single RK species whose migration on sodium dodecyl sulfate-polyacrylamide gels was identical to that of RK from cells treated with mevinolin, an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase and, thus, of isoprenoid biosynthesis. This finding indicates that isoprenylation of RK requires Cys558. The electrophoretic mobility of isoprenylated RK synthesized in COS-7 cells was identical to that of RK from bovine rod outer segments, suggesting that RK is isoprenylated in vivo. RK was determined to be modified by a farnesyl moiety and alpha-carboxyl-methylated. A time course of Rho* phosphorylation revealed that non-processed RK is approximately 4-fold less active than wild-type RK. This is the first demonstration of isoprenylation/alpha-carboxyl methylation of a protein kinase, and suggests that these modifications markedly influence enzymatic activity in vivo.

Highlights

From the $Howard Hughes Medical Institute, the Departments of §Biochemistry, **Cell Biology,and $$Medicine, Duke Uniuersity Medical Center, Durham, North Carolina 27710, and the I(Burroughs Wellcome Co., Research Triangle Park, North Carolina 27709
The primary structure of bovine rhodopsin kinase (RK),which phosphorylates light-activated rhodopsin (Rho*), terminates with the amino acid sequence C y ~ ~ ~ ~ - V a l - L e u - Saemro~t~if't,hat has been shown to direct the isoprenylation and a-carboxyl methylation of many proteins (e.g. ~ 2 1 ~ ~ " "Tr)a. nsient expression of RK in COS-7 cells revealed the presence of two immunoreactive protein species
This finding indicates that isoprenylation of RK requires C Y S ~ 'T~h. e electrophoretic mobility of isoprenylated RK synthesized in COS-7 cells was identical to that of RK from bovine rod outer segments, suggesting that RK is isoprenylated in vivo

Summary

Introduction

From the $Howard Hughes Medical Institute, the Departments of §Biochemistry, **Cell Biology,and $$Medicine, Duke Uniuersity Medical Center, Durham, North Carolina 27710, and the I(Burroughs Wellcome Co., Research Triangle Park, North Carolina 27709. The primary structure of bovine rhodopsin kinase (RK),which phosphorylates light-activated rhodopsin (Rho*), terminates with the amino acid sequence C y ~ ~ ~ ~ - V a l - L e u - Saemro~t~if't,hat has been shown to direct the isoprenylation and a-carboxyl methylation of many proteins

Results

Conclusion