Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. A large number of cell-surface receptors catalyse the activation of phospholipase C via a guanine nucleotide exchange protein and generate at least two important intracellular second messengers. One of these, inositol(1,4,5) trisphosphate, binds to specific intracellular receptors and releases Ca2+ from intracellular stores. 2. Subsequent metabolism of this messenger is complex, proceeding either by dephosphorylation or phosphorylation routes with the latter generating inositol(1,3,4,5) tetrakisphosphate which may have additional functional significance in Ca2+ homeostasis. 3. Calculations of the relative rates of metabolism through these routes as well as the development of new analogues of inositol polyphosphates have helped our understanding of these important cell signalling systems.
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PMID:Receptors, inositol polyphosphates and intracellular Ca2+. 226 8

Rat osteoblasts were cultured for 4 and 5 days aboard a space shuttle and solubilized after a 24-h treatment with 1alpha,25 dihydroxyvitamin D(3). The quantitative RT-PCR determined the mRNA levels of signaling molecules upstream and downstream Ras. The small GTPase is activated by guanine nucleotide exchange protein (GEF) and deactivated by GTPase-activating protein (GAP). When external stimuli are transduced into intracellular signals, various pathways are recruited: focal adhesion kinase (FAK) is associated with integrin-beta, and directs tyrosine phosphorylation of downstream substrates, including phospholipase C-gamma (PLC-gamma) and son of sevenless (SOS, a Ras GEF). The mRNA levels of FAK and PLC-gamma1 and -gamma2 in the flight cultures were increased 150% and 250% of the ground controls. The SOS mRNA levels in the flight cultures were increased 520% and 320% of the ground controls. Signals via G protein-coupled receptors are transmitted through PLC-beta and Ras GRF (another Ras GEF). Activated Ras then stimulates Raf, mitogen-activated protein kinase (MAPK) cascades. The mRNA levels of Raf, extracellular signal-regulated protein kinase of MAPK family (ERK-1 and -2), and PLC-beta were increased during spaceflight. Rho GAP expression in the flight cultures was increased twofold of the ground controls. Since Rho GAP deactivates Rho, microgravity may suppress Rho signals, regulating actin filament rearrangement. Microgravity signals may involve two pathways (G protein-coupled receptor-mediated pathway and tyrosine phosphorylation-mediated pathway) that activate Ras, Raf, and MAPK cascades in rat osteoblasts.
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PMID:Small GTPase Ras and Rho expression in rat osteoblasts during spaceflight. 1740 41

Epac is a guanine nucleotide exchange protein that is directly activated by cAMP, but whose cardiac cellular functions remain unclear. It is important to understand cardiac Epac signaling, because it is activated in parallel to classical cAMP-dependent signaling via protein kinase A. In addition to activating contraction, Ca(2+) is a key cardiac transcription regulator (excitation-transcription coupling). It is unknown how myocyte Ca(2+) signals are decoded in cardiac myocytes to control nuclear transcription. We examine Epac actions on cytosolic ([Ca(2+)](i)) and intranuclear ([Ca(2+)](n)) Ca(2+) homeostasis, focusing on whether Epac alters [Ca(2+)](n) and activates a prohypertrophic program in cardiomyocytes. Adult rat cardiomyocytes, loaded with fluo-3 were viewed by confocal microscopy during electrical field stimulation at 1Hz. Acute Epac activation by 8-pCPT increased Ca(2+) sparks and diastolic [Ca(2+)](i), but decreased systolic [Ca(2+)](i). The effects on diastolic [Ca(2+)](i) and Ca(2+) spark frequency were dependent on phospholipase C (PLC), inositol 1,4,5 triphosphate receptor (IP(3)R) and CaMKII activation. Interestingly, Epac preferentially increased [Ca(2+)](n) during both diastole and systole, correlating with the perinuclear expression pattern of Epac. Moreover, Epac activation induced histone deacetylase 5 (HDAC5) nuclear export, with consequent activation of the prohypertrophic transcription factor MEF2. These data provide the first evidence that the cAMP-binding protein Epac modulates cardiac nuclear Ca(2+) signaling by increasing [Ca(2+)](n) through PLC, IP(3)R and CaMKII activation, and initiates a prohypertrophic program via HDAC5 nuclear export and subsequent activation of the transcription factor MEF2.
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PMID:Epac enhances excitation-transcription coupling in cardiac myocytes. 2205 18