Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Although receptor-mediated regulation of small G-proteins and the cytoskeleton is intensively studied, the mechanisms for attenuation of these signals are poorly understood. In this study, we have identified the Rac-GAP beta2-chimaerin as an effector of the epidermal growth factor receptor (EGFR) via coupling to phospholipase Cgamma (PLCgamma) and generation of the lipid second messenger diacylglycerol (DAG). EGF redistributes beta2-chimaerin to promote its association with the small GTPase Rac1 at the plasma membrane, as determined by FRET. This relocalization and association with Rac1 were impaired by disruption of the beta2-chimaerin C1 domain as well as by PLCgamma1 RNAi, thus defining beta2-chimaerin as a novel DAG effector. On the other hand, GAP-deficient beta2-chimaerin mutants show enhanced translocation and sustained Rac1 association in the FRET assays. Remarkably, RNAi depletion of beta2-chimaerin significantly extended the duration of Rac activation by EGF, suggesting that beta2-chimaerin serves as a mechanism that self-limits Rac activity in response to EGFR activation. Our results represent the first direct evidence of divergence in DAG signaling downstream of a tyrosine-kinase receptor via a PKC-independent mechanism.
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PMID:Phospholipase Cgamma/diacylglycerol-dependent activation of beta2-chimaerin restricts EGF-induced Rac signaling. 1662 18

C1 domains, cysteine-rich modules originally identified in protein kinase C (PKC) isozymes, are present in multiple signaling families, including PKDs, chimaerins, RasGRPs, diacylglycerol kinases (DGKs) and others. Typical C1 domains bind the lipid second messenger diacylglycerol (DAG) and DAG-mimetics such as phorbol esters, and are critical for governing association to membranes. On the contrary, atypical C1 domains possess structural determinants that impede phorbol ester/DAG binding. C1 domains are generally expressed as twin modules (C1A and C1B) or single domains. Biochemical and cellular studies in PKC and PKD isozymes revealed that C1A and C1B domains are non-equivalent as lipid-binding motifs or translocation modules. It has been recently determined that individual C1 domains have unique patterns of ligand recognition, driven in some cases by subtle structural differences. Insights from recent 3-D studies on beta2-chimaerin and Munc13-1 revealed that their single C1 domains are sterically blocked by intramolecular interactions, suggesting that major conformational changes would be required for exposing the site of DAG interaction. Thus, it is clear that the protein context plays a major role in determining whether binding of DAG to the C1 domain would lead to enzyme activation or merely serves as an anchoring mechanism.
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PMID:C1 domains exposed: from diacylglycerol binding to protein-protein interactions. 1686 Oct 33

We have established a novel role for the second messenger DAG (diacylglycerol), a product of PtdIns(4,5)P2 hydrolysis by PLC (phospholipase C). In addition to its well-known function as a protein kinase C activator, DAG produced by stimulation of the epidermal growth factor receptor causes the redistribution of the Rac-GAP (GTPase-activating protein) beta2-chimaerin to the plasma membrane, where it associates with the active form of Rac1 and promotes the inactivation of this small G-protein. This represents the first example of a Rac-GAP regulated directly by DAG in response to the activation of a tyrosine kinase receptor, and suggests a previously unappreciated role for this lipid as a negative modulator of Rac signalling.
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PMID:The lipid second messenger diacylglycerol as a negative regulator of Rac signalling. 1705 14

The C1 domains in protein kinase C (PKC) isozymes and other signaling molecules are responsible for binding the lipid second messenger diacylglycerol and phorbol esters, and for mediating translocation to membranes. Previous studies revealed that the C1 domain in alpha- and beta-chimaerins, diacylglycerol-regulated Rac-GAPs, interacts with the endoplasmic reticulum/Golgi protein p23/Tmp21. Here, we found that p23/Tmp21 acts as a C1 domain-docking protein that mediates perinuclear translocation of beta2-chimaerin. Glu227 and Leu248 in the beta2-chimaerin C1 domain are crucial for binding p23/Tmp21 and perinuclear targeting. Interestingly, isolated C1 domains from individual PKC isozymes differentially interact with p23/Tmp21. For PKCepsilon, it interacts with p23/Tmp21 specifically via its C1b domain; however, this association is lost in response to phorbol esters. These results demonstrate that p23/Tmp21 acts as an anchor that distinctively modulates compartmentalization of C1 domain-containing proteins, and it plays an essential role in beta2-chimaerin relocalization. Our study also highlights the relevance of C1 domains in protein-protein interactions in addition to their well-established lipid-binding properties.
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PMID:p23/Tmp21 differentially targets the Rac-GAP beta2-chimaerin and protein kinase C via their C1 domains. 2016 56


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