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Enzyme
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Pivot Concepts:
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Target Concepts:
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Query: UNIPROT:P42574 (
caspase-3
)
45,978
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Palmitoyl protein thioesterase (PPT) 1 is an enzyme involved in deacylation of palmitoylated proteins. A deficiency in PPT1 results in a genetic disease, infantile
neuronal ceroid lipofuscinosis
, associated with massive death of cortical neurons. The role of PPT1 in neuronal survival and apoptosis was studied in human neuroblastoma (LA-N-5) cells overexpressing PPT1. Overexpression of PPT1 was shown both by the 200-350% increase in depalmitoylating activity over basal level (as determined by an in vitro PPT assay) and by western blot analysis of transiently expressed epitope-tagged PPT1. Overexpressed PPT1 showed the same acidic pH optimum (pH 4.0) as the endogenous enzyme, when assayed with a P0-derived octapeptide substrate, and reduced the growth rate by 30%. LA-N-5 cells underwent apoptosis, as evidenced by increased
caspase 3
-like activity and increased DNA fragmentation, when challenged with either C2-ceramide or a phosphatidylinositol 3-kinase inhibitor (LY294002). Overexpression of PPT1 inhibited this C2-ceramide- or LY294002-mediated activation of
caspase-3
by 50%. There was also a concomitant decrease in DNA fragmentation and cell death. Consistent with increased resistance to apoptosis, we found increased phosphorylation of the antiapoptotic protein Akt (protein kinase B) in PPT1-overexpressing cells. p21Ras is known to be dynamically palmitoylated and depalmitoylated and is involved in both growth and cell death. The C2-ceramide-induced membrane association of p21Ras was reduced by 30-50% in PPT1-overexpressing cells compared with control. PPT overexpression also led to reduced membrane association of another palmitoylated protein, GAP-43, a neuron-specific protein. Our studies suggest that protein palmitoylation could be a physiological regulator of apoptosis.
...
PMID:Palmitoyl protein thioesterase 1 protects against apoptosis mediated by Ras-Akt-caspase pathway in neuroblastoma cells. 1073 4
Numerous proteins undergo modification by palmitic acid (S-acylation) for their biological functions including signal transduction, vesicular transport and maintenance of cellular architecture. Although palmitoylation is an essential modification, these proteins must also undergo depalmitoylation for their degradation by lysosomal proteases. Palmitoyl-protein thioesterase-1 (PPT1), a lysosomal enzyme, cleaves thioester linkages in S-acylated proteins and removes palmitate residues facilitating the degradation of these proteins. Thus, inactivating mutations in the PPT1 gene cause infantile
neuronal ceroid lipofuscinosis
(INCL), a devastating neurodegenerative storage disorder of childhood. Although rapidly progressing brain atrophy is the most dramatic pathological manifestation of INCL, the molecular mechanism(s) remains unclear. Using PPT1-knockout (PPT1-KO) mice that mimic human INCL, we report here that the endoplasmic reticulum (ER) in the brain cells of these mice is structurally abnormal. Further, we demonstrate that the level of growth-associated protein-43 (GAP-43), a palmitoylated neuronal protein, is elevated in the brains of PPT1-KO mice. Moreover, forced expression of GAP-43 in PPT1-deficient cells results in the abnormal accumulation of this protein in the ER. Consistent with these results, we found evidence for the activation of unfolded protein response (UPR) marked by elevated levels of phosphorylated translation initiation factor, eIF2alpha, increased expression of chaperone proteins such as glucose-regulated protein-78 and activation of caspase-12, a cysteine proteinase in the ER, mediating
caspase-3
activation and apoptosis. Our results, for the first time, link PPT1 deficiency with the activation of UPR, apoptosis and neurodegeneration in INCL and identify potential targets for therapeutic intervention in this uniformly fatal disease.
...
PMID:Palmitoyl-protein thioesterase-1 deficiency mediates the activation of the unfolded protein response and neuronal apoptosis in INCL. 1636 12
The infantile
neuronal ceroid lipofuscinosis
(INCL), a rare (one in 100 000 births) but one of the most lethal inherited neurodegenerative storage disorders of childhood, is caused by inactivating mutations in the palmitoyl-protein thioesterase-1 (PPT1) gene. PPT1 cleaves thioester linkages in s-acylated (palmitoylated) proteins and facilitates their degradation and/or recycling. Thus, PPT1-deficiency leads to an abnormal intracellular accumulation of s-acylated proteins causing INCL pathogenesis. Although neuronal apoptosis is the suggested cause of neurodegeneration in this disease, the molecular mechanism(s) remains poorly understood. We recently reported that one of the major pathways of neuronal apoptosis in PPT1-knockout (PPT1-KO) mice that mimic INCL, is mediated by endoplasmic reticulum (ER) stress-induced caspase-12 activation. ER stress also increases the production of reactive oxygen species (ROS), disrupts Ca(2+) homeostasis and increases the potential for destabilizing mitochondrial membrane. Mitochondrial membrane destabilization activates caspase-9 present in this organelle, and can mediate apoptosis. We report here that the levels of superoxide dismutase (SOD), most likely induced by ROS, in human INCL as well as PPT1-KO mouse brain tissues are markedly elevated. Moreover, we demonstrate that activated
caspase-3
and cleaved-PARP, indicative of apoptosis, are also increased in these tissues. Using cultured neurospheres from PPT1-KO and wild-type mouse fetuses, we further demonstrate that the levels of ROS, SOD-2, cleaved-caspase-9, activated
caspase-3
and cleaved-PARP are elevated. We propose that: (i) ER stress due to PPT1-deficiency increases ROS and disrupts calcium homeostasis activating caspase-9 and (ii) caspase-9 activation mediates
caspase-3
activation and apoptosis contributing to rapid neurodegeneration in INCL.
...
PMID:Palmitoyl-protein thioesterase-1 deficiency leads to the activation of caspase-9 and contributes to rapid neurodegeneration in INCL. 1657
Apoptosis is a highly organized, energy-dependent program by which multicellular organisms eliminate damaged, superfluous, and potentially harmful cells. Although caspases are the most prominent group of proteases involved in the apoptotic process, the role of lysosomes has only recently been unmasked. This study investigated the role of the lysosomal serine protease CLN2 in apoptosis. We report that cells isolated from patients affected with late infantile
neuronal ceroid lipofuscinosis
(LINCL) having a deficient activity of CLN2 are resistant to the toxic effect of death ligands such as tumor necrosis factor (TNF), CD95 ligand, or tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) but not to receptor-independent stress agents. CLN2-deficient cells exhibited a defect in TNF-induced Bid cleavage, release of cytochrome c, and caspase-9 and -3 activation. Moreover, extracts from CLN2-overexpressing cells or a CLN2 recombinant protein were able to catalyze the in vitro cleavage of Bid. Noteworthy, correction of the lysosomal enzyme defect of LINCL fibroblasts using a medium enriched in CLN2 protein enabled restoration of TNF-induced Bid and
caspase-3
processing and toxicity. Conversely, transfection of CLN2-corrected cells with small interfering RNA targeting Bid abrogated TNF-induced cell death. Altogether, our study demonstrates that genetic deletion of the lysosomal serine protease CLN2 and the subsequent loss of its catalytic function confer resistance to TNF in non-neuronal somatic cells, indicating that CLN2 plays a yet unsuspected role in TNF-induced cell death.
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PMID:Lysosomal serine protease CLN2 regulates tumor necrosis factor-alpha-mediated apoptosis in a Bid-dependent manner. 1924 52
Induction of apoptosis by TNF has recently been shown to implicate proteases from lysosomal origin, the cathepsins. Here, we investigated the role in apoptosis of palmitoyl protein thioesterase 1 (PPT1), another lysosomal enzyme that depalmitoylates proteins. We show that transformed fibroblasts derived from patients with the infantile form of
neuronal ceroid lipofuscinosis
(INCL), a neurodegenerative disease due to deficient activity of PPT1, are partially resistant to TNF-induced cell death (57-75% cell viability vs. 15-30% for control fibroblasts). TNF-initiated proteolytic cleavage of caspase-8, Bid and
caspase-3
, as well as cytochrome c release was strongly attenuated in INCL fibroblasts as compared to control cells. Noteworthy, activation of p42/p44 mitogen-activated protein kinase and of transcription factor NF-kappaB by TNF, and induction of cell death by staurosporine or chemotherapeutic drugs in INCL cells were unaffected by PPT1 deficiency. Resistance to TNF-induced apoptosis was also observed in embryonic fibroblasts derived from Ppt1/Cln1-deficient mice but not from mice with a targeted deletion of Cln3 or Cln5. Finally, reconstitution of PPT1 activity in mutant cells was accompanied by resensitization to TNF-induced caspase activation and toxicity. These observations emphasize for the first time the role of PPT1 and, likely, protein depalmitoylation in the regulation of TNF-induced apoptosis.
...
PMID:Palmitoyl protein thioesterase 1 modulates tumor necrosis factor alpha-induced apoptosis. 1934 5
The cerebellar lesions of three dogs with canine neuroaxonal dystrophy (NAD), one dog with cerebellar cortical abiotrophy (CCA), and 4 dogs with neuronal
ceroid-lipofuscinosis
(NCL) were examined to understand their pathogeneses. Purkinje cell loss was most severe in the vermis of a dog with CCA, and granule cell loss was most prominent in the cerebellar hemisphere of dogs with NCL. Immunohistochemically, CD3-and HLA-DR-positive cells were most frequent in the dogs with NCL, and moderate in dogs with NAD, but not in a dog with CCA. The number of cleaved
caspase 3
-positive cells was prominent in a dog with CCA, but no significant in the dogs with NAD. The results indicate different pathway of neuronal loss of these canine neuronal disorders.
...
PMID:Comparative study of cerebellar degeneration in canine neuroaxonal dystrophy, cerebellar cortical abiotrophy, and neuronal ceroid-lipofuscinosis. 2058 92
