Cytoplasmic dynein, a large minus-end-directed microtubule motor, performs multiple functions during the cell cycle. In interphase, dynein moves membrane organelles, while in mitosis it moves chromosomes and helps to form the mitotic spindle. The cell-cycle regulation of dynein activity may be controlled, at least in part, by the phosphorylation of its light intermediate chains (DLIC), since a 10-fold increase in light intermediate chain phosphorylation correlates with a decrease in dynein-based membrane transport of similar magnitude in mitosis. In this study, we sought to identify the kinase responsible for this potentially important phosphorylation event. We show that bacterially-expressed chicken light intermediate chain (chDLIC) will undergo mitosisspecific phosphorylation when added to Xenopus egg extracts. Mutation of a conserved cdc2 kinase consensus site (Ser197) abolishes this phosphorylation event, and mass spectroscopy analysis confirms that the wild-type DLIC is stoichiometrically phosphorylated at this site when incubated with metaphase but not interphase extracts. We also show that purified cdc2 kinase phosphorylates purified DLICs at Ser197 in vitro and that Ser197 phosphorylation is dramatically reduced in metaphase extracts depleted of cdc2 kinase. These results indicate that cdc2 kinase directly phosphorylates dynein and thus may be an important regulator of dynein activity in the cell cycle.
A Ca2+- and phospholipid-dependent protein kinase (protein kinase C) was partially purified from the media of bovine aortas by chromatography on DEAE-Sephacel and phenyl-Sepharose. Enzyme activity was characterized with both histone and a 47 kDa platelet protein (P47) as substrates, because the properties of protein kinase C can be modified by the choice of substrate. Both phosphatidylserine and Ca2+ were required for kinase activity. With P47 as substrate, protein kinase C had a Ka for Ca2+ of 5 microM. Addition of diolein to the enzyme assay caused a marked stimulation of activity, especially at low Ca2+ concentrations, but the Ka for Ca2+ was shifted only slightly, to 2.5 microM. With histone as substrate, the enzyme had a very high Ka (greater than 50 microM) for Ca2+, which was substantially decreased to 3 microM-Ca2+ by diolein. A Triton X-100 mixed-micelle preparation of lipids was also utilized to assay protein kinase C with histone as the substrate. Under these conditions kinase activity was almost totally dependent on the presence of diolein; again, diolein caused a large decrease in the Ka for Ca2+, from greater than 100 microM to 2.5 microM. The increased sensitivity of protein kinase C to Ca2+ with P47 rather than histone, and the ability of diacylglycerol to activate protein kinase C without shifting the Ka for Ca2+, when P47 is the substrate, illustrate that the mechanism of protein kinase C activation is influenced by the exogenous substrate used to assay the enzyme.
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