G.M. Jenkins scite author profile

Regulated fusion of secretory granules with the plasma membrane in secretory cells requires ATP, Ca2+ and cytosolic as well as membrane proteins. ATP-dependent steps in Ca(2+)-activated secretion from PC12 cells require three cytosolic PEP proteins (priming in exocytosis proteins, PEP1-3), the identity of which will provide insights into the required ATP-using reactions. PEP3 was recently identified as phosphatidylinositol transfer protein (PtdInsTP), and here we report that PEP1 consists of the type I phosphatidylinositol-4-phosphate 5-kinase (PtdInsP5K). The roles of PEP3/PtdInsTP and PEP1/PtdInsP5K in sequential phosphoinositide recruitment and phosphorylation explains their synergistic activity in ATP-dependent priming. Moreover, inhibition of Ca(2+)-activated secretion by PtdIns(4,5)P2-specific antibodies and phospholipase C implies that 5-phosphorylated inositides play a novel, necessary role in the regulated secretory pathway. The results indicate that lipid kinase-mediated phosphorylation is an important basis for ATP use in the exocytotic pathway.

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Structure of Glassy Carbon

Jenkins

Kawamura

1971

Nature

336

168

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Physical association of the small GTPase Rho with a 68-kDa phosphatidylinositol 4-phosphate 5-kinase in Swiss 3T3 cells.

Ren

Bokoch

Traynor‐Kaplan

et al. 1996

MBoC

201

125

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Our previous work showed that post-translationally modified Rho in its GTP-bound state stimulated phosphatidylinositol 4-phosphate 5-kinase (PIP5K) activity in mouse fibroblast lysates. To investigate whether Rho physically interacts with PIP5K, we incubated immobilized Rho-GST with Swiss 3T3 cell lysates and tested for retained PIP5K activity. Rho-GST, but not Ras-GST or GST alone, bound significant PIP5K activity. The binding of PIP5K was independent of whether Rho was in a GTP-or GDP-bound state. An antibody against a 68-kDa human erythrocyte type I PIP5K recognized a single 68-kDa protein eluted from Rho-GST column. The Rho-associated PIP5K responded to phosphatidic acid differentially from the erythrocyte type I PIP5K, suggesting that it could be a distinct isoform not reported previously. Rho co-immunoprecipitated with the 68-kDa PIP5K from Swiss 3T3 lysates, demonstrating that endogenous Rho also interacts with PIP5K. ADP-ribosylation of Rho with C3 exoenzyme enhanced PIP5K binding by approximately eightfold, consistent with the ADP-ribosylated Rho functioning as a dominant negative inhibitor. These results demonstrate that Rho physically interacts with a 68-kDa PIP5K, although whether the association is direct or indirect is unknown. INTRODUCTIONThe small GTPase Rho plays a key role in the regulation of actin filament polymerization and cell growth (Hall, 1994;Olson et al., 1995). Like other GTPases, Rho proteins cycle between a GDP-bound inactive state and a GTP-bound active state. In the GTP-bound state, Rho activates downstream effector(s), leading to the assembly of actin stress fibers and focal adhesions. These effects can be blocked by ADP-ribosylation of endogenous Rho protein within the putative effectorbinding region (amino acids 32-42) with C3 exoenzyme from Clostridium botulinum (Paterson et al., 1990;Ridley and Hall, 1992). Rho proteins (193 amino acids)

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The structure of polymeric carbons

Jenkins¹,

Kawamura²

1972

Carbon

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Type I phosphatidylinositol 4-phosphate 5-kinase isoforms are specifically stimulated by phosphatidic acid

Jenkins

Fisette

Anderson

1994

Journal of Biological Chemistry

390

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G.M. Jenkins

ATP-dependent inositide phosphorylation required for Ca2+-activated secretion

Structure of Glassy Carbon

Physical association of the small GTPase Rho with a 68-kDa phosphatidylinositol 4-phosphate 5-kinase in Swiss 3T3 cells.

The structure of polymeric carbons

Type I phosphatidylinositol 4-phosphate 5-kinase isoforms are specifically stimulated by phosphatidic acid

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