Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.56 (caspase-3)
 35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Members of the phospholipid scramblase (PLSCR) family play active roles in altering lipid asymmetry at the plasma membrane including phosphatidylserine (PtdSer) exposure on the cell surface. To determine whether PtdSer biosynthesis and externalization are altered by PLSCR activities during apoptosis, Chinese hamster ovary K1 cell lines stably overexpressing PLSCR1 and PLSCR2 were established. PLSCR1 was localized on the plasma membrane, whereas PLSCR2 was predominantly in the nucleus. Cells overexpressing PLSCR1 showed suppressed growth, altered cell morphology, and higher basal levels of cell death. Following UV irradiation, these cells showed earlier and enhanced PtdSer exposure, increased caspase-3 activation, apoptotic nuclear changes, and PARP cleavage indicative of apoptosis. UV irradiation in cells overexpressing PLSCR1 led to a 4-fold stimulation of PtdSer synthesis (accompanied by increased movement of newly made PtdSer into microvesicles) relative to untreated PLSCR1 cells, whereas PtdSer formation in UV-irradiated vector control cells increased only by 2-fold. No differences in these responses were observed between PLSCR2-expressing cells and vector controls. PtdSer synthesis and its transbilayer movement stimulated by PLSCR1 overexpression were blocked by a caspase inhibitor along with progression of apoptosis. Thus, our studies showed that overexpression of PLSCR1 in Chinese hamster ovary K1 cells stimulated caspase-dependent PtdSer externalization and synthesis, implying an up-regulation of PtdSer formation in response to enhanced outward movement of this phospholipid to the cell surface during apoptosis. PLSCR1 also appears to influence progression of UV-induced apoptosis and could be a point of regulation or intervention during programmed cell death.
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PMID:Stimulation of phosphatidylserine biosynthesis and facilitation of UV-induced apoptosis in Chinese hamster ovary cells overexpressing phospholipid scramblase 1. 1250 39

Reports on non-neural cells have shown that enhanced activity of the Ca(2+)-dependent/ATP-independent phospholipid scramblase (PLSCR1) is, at least in part, responsible for surface exposure of phosphatidylserine and the collapse of plasma membrane asymmetry in injured or apoptotic cells. To shed some light on mechanisms with a potential to lead to apoptotic death of human neurones following ischemic/hypoxic injury, we examined the immunoreactivity of hippocampal neurones for PLSCR1, caspase-3, cytochrome c and DNA-fragmentation in 22 individuals with clinically symptomatic cerebral ischemia after cardiac arrest or severe hypotension. WE FOUND: (1) significant differences in the percentage of PLSCR1-immunoreactive neurones between controls and short survivors; statistically strong differences between the frequency of immunoreactive neurones among the subfields studied with lowest levels in the CA3; preferential distribution of immunoreactive neurones in controls within the regio entorhinalis, subfield CA1, and hilum. Additionally, these areas exhibited staining of fibre bundles which probably correspond to perforant path, alvear path and collateral's of Schaffer, (2) caspase-3 was upregulated in a region-specific manner with marked activation in the selectively vulnerable hippocampal areas, (3) cytochrome c was redistributed, (4) DNA-fragmentation represented by scattered TUNEL-positive cells increased predominantly during the first 3 days after ischemia, and particularly in the regions of greatest susceptibility to hypoxic injury. This study presents the first evidence that PLSCR1, and probably remodelling of plasma membrane phospholipids (PL), plays a role in ischemic injury in the human hippocampus.
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PMID:Spatial resolution of phospholipid scramblase 1 (PLSCR1), caspase-3 activation and DNA-fragmentation in the human hippocampus after cerebral ischemia. 1260 85