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Query: EC:2.7.11.13 (
protein kinase C
)
49,245
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
West-Western screening of a cDNA expression library using 32P-labeled, autophosphorylated protein kinase Cdelta (PKCdelta) as a probe, led us to identify cDNA clones encoding a PKCdelta-binding protein that contains a leucine zipper-like motif in its N-terminal region and two PEST sequences in its C-terminal region. This protein shows overall sequence similarity (43.3%) to the
serum deprivation response
(sdr) gene product, and we named it SRBC (sdr-related gene product that binds to c-kinase). PKCdelta binds to the C-terminal half of SRBC through the regulatory domain and phosphorylates it in vitro. In COS1 cells, the phosphorylation of over-expressed SRBC is stimulated by 12-O-tetradecanoylphorbol-13-acetate and further enhanced by the over-expression of PKCdelta. The mRNA for SRBC is detected in a wide variety of cultured cell lines and tissues and is strongly induced by serum starvation. Furthermore, SRBC mRNA is induced during retinoic acid-induced differentiation of P19 cells. These results suggest that SRBC serves as a substrate and/or receptor for
PKC
and might be involved in the control of cell growth mediated by
PKC
.
...
PMID:A protein kinase Cdelta-binding protein SRBC whose expression is induced by serum starvation. 905 38
Previously, we showed caveolae contain a population of protein kinase Calpha (PKCalpha) that appears to regulate membrane invagination. We now report that multiple
PKC
isoenzymes are enriched in caveolae of unstimulated fibroblasts. To understand the mechanism of
PKC
targeting, we prepared caveolae lacking PKCalpha and measured the interaction of recombinant PKCalpha with these membranes. PKCalpha bound with high affinity and specificity to caveolae membranes. Binding was calcium dependent, did not require the addition of factors that activate the enzyme, and involved the regulatory domain of the molecule. A 68-kD PKCalpha-binding protein identified as sdr (
serum deprivation response
) was isolated by interaction cloning and localized to caveolae. Antibodies against sdr inhibited PKCalpha binding. A 100-amino acid sequence from the middle of sdr competitively blocked PKCalpha binding while flanking sequences were inactive. Caveolae appear to be a membrane site where
PKC
enzymes are organized to carry out essential regulatory functions as well as to modulate signal transduction at the cell surface.
...
PMID:Targeting of protein kinase Calpha to caveolae. 956 62
The
serum deprivation response
gene (
SDPR
, alias sdr) has been previously isolated for its high mRNA expression in serum-starved cells compared to contact-inhibited NIH3T3 cells; such regulation is not observed in single-oncogene transformed NIH3T3 cells after serum starvation. More recently Sdpr has been identified as a substrate of
protein kinase C
(
PKC
): this interaction determines the compartimentalization of
PKC
to caveolae, a plasma membrane invagination of which Sdpr is a major component. Lack of Sdpr-
PKC
interaction in transformed cells has been proposed to be involved in the alteration of
PKC
subcellular localization and substrate specificity. Here we report the cloning of the human
SDPR
homologue (HGMW-approved symbol
SDPR
) and its mapping to 2q32-q33 in the human genome. In analogy with the murine system,
SDPR
mRNA expression is increased when human fibroblasts are serum starved, it becomes down-regulated during synchronous cell-cycle reentry, but it is not induced in cells arrested by contact inhibition. Analysis of
SDPR
expression in human tissues reveals a near ubiquitous expression, with highest levels found in heart and lung. We show that human
SDPR
encodes PS-p68, a previously characterized
phosphatidylserine-binding protein
purified from human platelets. Accordingly, recombinant Sdpr is able to specifically bind phosphatidylserine in the absence of Ca2+.
SDPR
is homologous to two genes in the databank, one of which, srbc, is similarly regulated during growth arrest and encodes a
phosphatidylserine-binding protein
that is a substrate of
PKC
.
...
PMID:The human serum deprivation response gene (SDPR) maps to 2q32-q33 and codes for a phosphatidylserine-binding protein. 1019 Oct 91
Efficient clearance of apoptotic cells is essential for tissue homeostasis, allowing for cellular turnover without inflammatory consequences. The Mer (Nyk and c-Eyk) receptor tyrosine kinase (Mertk) is involved in two aspects of apoptotic cell clearance by acting as a receptor for Gas6, a gamma-carboxylated
phosphatidylserine-binding protein
that bridges apoptotic and viable cells. First, Mertk acts in a bona fide engulfment pathway in concert with alphavbeta5 integrin by regulating cytoskeletal assemblages, and second, it acts as a negative regulator for inflammation by down-modulating pro-inflammatory signals mediated from bacterial lipopolysaccharide-Toll-like receptor 4 (TLR4) signaling, and hence recapitulating anti-inflammatory immune modulation by apoptotic cells. Here we describe Mertk post-receptor events that govern phagocytosis and cytoskeletal signaling are principally mediated by autophosphorylation site Tyr-867. Using the Mertk Y867F mutant and pharmacological inhibitors, we show that Tyr-867 is required for phosphatidylinositol 3-kinase and phospholipase Cgamma2 activation; their activation in turn elicits
protein kinase C
-dependent signals that act on the actin cytoskeleton. Although Mertk(Y867F) blocked the tyrosine phosphorylation of FAK on Tyr-861 and p130(cas) and also abrogated the phagocytosis of apoptotic cells, this mutant did not suppress lipopolysaccharide-inducible NF-kappaB transcription, nor was NF-kappaB activation dependent on the protein kinase C inhibitor, calphostin C. Finally, unlike the cytoskeletal events associated with Tyr-867 autophosphorylation, the trans-inhibition of NF-kappaB occurred in a postnuclear-dependent fashion independent of cytosolic IkappaB phosphorylation and p65/RelA sequestration. Taken together, these data suggest that Mertk has distinct and separable effects for phagocytosis and for resolving inflammation, providing a molecular rationale for how immune licensing and inflammation can be dissociated from phagocytosis in a single phagocytic receptor.
...
PMID:Autophosphorylation docking site Tyr-867 in Mer receptor tyrosine kinase allows for dissociation of multiple signaling pathways for phagocytosis of apoptotic cells and down-modulation of lipopolysaccharide-inducible NF-kappaB transcriptional activation. 1803 60
Caveolae are a major membrane domain common to most cells. One of the defining features of this domain is the protein caveolin. The exact function of caveolin, however, is not clear. One possible function is to attract adapter molecules to caveolae in a manner similar to how clathrin attracts molecules to coated pits. Here, we characterize a candidate adapter molecule called SRBC. SRBC binds
PKCdelta
and is a member of the STICK (substrates that interact with C-kinase) superfamily of
PKC
-binding proteins. We also show it co-immunoprecipitates with caveolin-1. A leucine zipper in SRBC is essential for both co-precipitation with caveolin and localization to caveolae. SRBC remains associated with caveolin when caveolae bud to form vesicles (cavicles) that travel on microtubules to different regions of the cell. In the absence of SRBC, intracellular cavicle traffic is markedly impaired. We conclude that SRBC (sdr-related gene product that binds to c-kinase) and two other family members [PTRF (Pol I and transcription release factor) and
SDPR
] function as caveolin adapter molecules that regulate caveolae function.
...
PMID:SRBC/cavin-3 is a caveolin adapter protein that regulates caveolae function. 1926 64
