UNIPROT:P42574 - FACTA Search

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deregulation of cell death pathways is an important feature of tumorigenesis. Fas, a member of the tumor necrosis factor receptor superfamily, is a transmembrane protein that can transduce cell death signals via a proteolytic cascade upon crosslinking or ligand binding. Fas has been implicated in the cell turnover of normal stratified squamous epithelia. To determine if altered Fas mediated cell death pathways participate in epithelial tumorigenesis, we examined squamous cell carcinoma (SCC) lines for sensitivity to Fas ligand (FasL) or an agonistic anti-Fas antibody. All cell lines examined were resistant to FasL mediated cell death. The carcinoma cell line SCC71 was also highly resistant to anti-Fas antibody. Another line, SCC9, underwent rapid cell death with characteristic features of apoptosis after exposure to anti-Fas antibody. However, binding of both FasL and anti-Fas antibody recruited downstream effector molecules to the Fas cytoplasmic domain in both SCC9 and SCC71 cells. Inhibition of the caspase 3- but not the ICE family of cell death proteases blocked apoptosis in SCC9 cells independently of expression of the anti-apoptotic protein bcl2. We concluded that Fas differentially mediates apoptosis in SCC lines by activation of caspase 3 family members but independent of bcl2 expression.
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PMID:Anti-Fas antibody differentially regulates apoptosis in Fas ligand resistant carcinoma lines via the caspase 3 family of cell death proteases but independently of bcl2 expression. 985 79

Mutations within the Presenilin-2 (PS-2) gene are associated with early onset familial Alzheimer's disease. The gene encodes a polytopic transmembrane protein that undergoes endoproteolytic processing resulting in the generation of N-terminal and C-terminal fragments (CTFs). PS-2 is also cleaved by proteases of the caspase family during apoptotic cell death. CTFs of PS-2 were shown to inhibit apoptosis, suggesting an important role in the regulation of programmed cell death. Recently, we found that the CTF of PS-2 is phosphorylated in vivo. We mapped the in vivo phosphorylation sites of PS-2 to serine residues 327 and 330, which are localized immediately adjacent to the cleavage sites of caspases after aspartate residues 326 and 329. Phosphorylation of PS-2 inhibits its cleavage by caspase-3. This effect can be mimicked by substitutions of serines 327 and 330 by aspartate or glutamate. In addition, the uncleavable form of PS-2 CTF was found to enhance its antiapoptotic properties, leading to a slower progression of apoptosis. These results demonstrate that PS-2 cleavage as well as its function in apoptosis can be regulated by protein phosphorylation. Alterations in the phosphorylation of PS-2 may therefore promote the pathogenesis of AD by affecting the susceptibility of neurons to apoptotic stimuli.
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PMID:Phosphorylation of presenilin-2 regulates its cleavage by caspases and retards progression of apoptosis. 999 34

By using the amino acid sequence motif of tumor necrosis factor (TNF), we searched the expressed sequence tag data base and identified a novel full-length cDNA encoding 285 amino acid residues and named it THANK. THANK is a type II transmembrane protein with 15-20% overall amino acid sequence homology to TNF, LT-alpha, FasL, and LIGHT, all members of the TNF family. The mRNA for THANK was expressed at high levels by peripheral blood leukocytes, lymph node, spleen, and thymus and at low levels by small intestine, pancreas, placenta, and lungs. THANK was also prominently expressed in hematopoietic cell lines. The recombinant purified protein expressed in the baculovirus system had an approximate molecular size 20 kDa with amino-terminal sequence of AVQGP. Treatment of human myeloid U937 cells with purified THANK activated nuclear transcription factor-kappaB (NF-kappaB) consisting of p50 and p65. Activation was time- and dose-dependent, beginning with as little as a 1 pM amount of the cytokines and as early as 15 min. Under the same conditions, THANK also activated c-jun NH2-terminal kinase (JNK) in U937 cells. THANK also strongly suppressed the growth of tumor cell lines and activated caspase-3. Although THANK had all the activities and potency of TNF, it did not bind to the TNF receptors. Thus our results indicate that THANK is a novel cytokine that belongs to the TNF family and activates apoptosis, NF-kappaB, and JNK through a distinct receptor.
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PMID:Identification and characterization of a novel cytokine, THANK, a TNF homologue that activates apoptosis, nuclear factor-kappaB, and c-Jun NH2-terminal kinase. 1034 44

The Alzheimer amyloid precursor protein (APP) is a transmembrane protein whose abnormal processing is associated with the pathogenesis of Alzheimer's disease. Activated caspases cleave APP and generate its carboxyl-terminally truncated fragment (APPdeltaC31). We have previously reported that overexpression of wild-type APP induces caspase-3 activation and apoptosis in postmitotic neurons. We now report that APPdeltaC31 potentially plays pathophysiological roles in neuronal death. Adenovirus-mediated overexpression of wild-type APP695 induced activation of caspase-3 and accumulation of APPdeltaC31 in postmitotic neurons derived from human NT2 embryonal carcinoma cells, whereas an APP mutant lacking the Abeta(1-20) region induced neither caspase-3 activation nor APPdeltaC31 generation. Inhibition of caspase-3 suppressed the generation of APPdeltaC31 in APP-overexpressing neurons. Forced expression of APPdeltaC31 induced apoptotic changes of neurons and non-neuronal cells, but failed to activate caspase-3. The cytotoxicity of APPdeltaC31 was also dependent on the Abeta(1-20) region. These results suggest that accumulation of wild-type APP activates neuronal caspase-3 to generate APPdeltaC31 that mediates caspase-3-independent cell death.
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PMID:Cell death induced by a caspase-cleaved transmembrane fragment of the Alzheimer amyloid precursor protein. 1184 Jan 70

The amyloid precursor protein (APP) is a transmembrane protein whose abnormal processing is associated with the pathogenesis of Alzheimer's disease. In this study, we examined the expression and role of cell-associated APP in primary dorsal root ganglion (DRG) neurons. When dissociated DRG cells prepared from mouse embryos were treated with nerve growth factor (NGF), neuronal APP levels were transiently elevated. DRG neurons treated with an antibody against cell surface APP failed to mature and underwent apoptosis. When NGF was withdrawn from the cultures after a 36-h NGF treatment, virtually all neurons underwent apoptosis by 48 h. During the course of apoptosis, some neurons with intact morphology contained increased levels of APP immunoreactivity, whereas the APP levels were greatly reduced in apoptotic neurons. Furthermore, affected neurons contained immunoreactivities for activated caspase-3, a caspase-cleaved APP fragment (APPDeltaC31), and Abeta. Downregulation of endogenous APP expression by treatment with an APP antisense oligodeoxynucleotide significantly increased the number of apoptotic neurons in NGF-deprived DRG cultures. Furthermore, overexpression of APP by adenovirus vector-mediated gene transfer reduced the number of apoptotic neurons deprived of NGF. These results suggest that endogenous APP is upregulated to exert an antiapoptotic effect on neurotrophin-deprived DRG neurons and subsequently undergoes caspase-dependent proteolysis.
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PMID:Upregulation and antiapoptotic role of endogenous Alzheimer amyloid precursor protein in dorsal root ganglion neurons. 1274 53

The proteolytic cleavage pathways of E-cadherin endogenously expressed in MDCK (Madin-Darby canine kidney) cells were characterized in cells treated with antimycin A and deoxyglucose to examine transmembrane protein processing under cellular stress. E-cadherin is a type I transmembrane protein which operates as the cell adhesion molecule component of the adherens junction, a complex of proteins involved in epithelial tissue development and integrity. We now demonstrate that treatment of MDCK cells with antimycin A and deoxyglucose activates caspase mediated pathways that cleave E-cadherin. E-cadherin is cleaved into two major fragments, with the sizes predicted by the location of a caspase-3 cleavage consensus sequence. Cleavage of E-cadherin and deposition of the C-terminal fragment into the cytoplasm are inhibited by the caspase inhibitor DEVD-CHO. Thus, a major mechanism for E-cadherin cleavage and dissolution of the adherens junction under antimycin/deoxyglucose treatment is caspase mediated, initiated by activation of an apoptosis pathway.
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PMID:Biochemical processing of E-cadherin under cellular stress. 1285 42

The Moloney murine leukemia virus (MoMuLV)-ts1 retrovirus, a naturally occurring mutant of MoMuLV-TB, causes a neuroimmunodegenerative syndrome in mice. The authors show here that ts1 triggers apoptosis in immortalized astrocytes, C1 cells, and primary cultured astrocytes, and that this apoptosis is caused by endoplasmic reticulum (ER) stress resulting from accumulation of the viral envelope preprotein gPr80(env). In ts1-infected C1 cells, an unfolded protein response was identified by activation of the ER-resident transmembrane protein kinase PERK, an event that leads to hyperphosphorylation of eIF2 alpha, up-regulation of GRP78, increased amounts of GADD153/CHOP, and cleavage of procaspase-12. Up-regulation of GRP78 and cleavage of procaspase-12 were also detected in primary cultured astrocytes infected with ts1. In ts1-infected C1 cells, ER stress was followed by mitochondrial stress, detected as mitochondrial transmembrane potential dissipation, cleavage of procaspase-9, and induction of activated caspase-3. In the brainstems of ts1-infected mice, activated caspase-3 and damaged mitochondria were identified in astrocytes within areas showing spongiform degeneration. Together the data imply that both ER stress- and mitochondrial stress-related apoptotic pathways are involved in ts1-induced astrocyte death.
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PMID:Possible involvement of both endoplasmic reticulum- and mitochondria-dependent pathways in MoMuLV-ts1-induced apoptosis in astrocytes. 1520 24

Jurkat T leukemic cells respond to Etoposide, antineoplastic agent which targets the DNA unwinding enzyme, Topoisomerase II, and TNF-Related-Apoptosis-Inducing-Ligand (TRAIL), 34 kDa transmembrane protein, which displays minimal or no toxicity on normal cells and tissues, not only disclosing the occurrence of apoptosis but also a kind of resistance. A similar rate of viability upon the exposure to these two drugs up to 24 h has been evidenced, followed by the occurrence of a rescue process against TRAIL, not performed against Etoposide, along with an higher number of dead cells upon Etoposide exposure, in comparison with TRAIL treatment. These preliminary results let us to speculate on the possible involvement of PI-3-kinase in TRAIL resistance disclosed by surviving cells (20%), may be phosphorylating Akt-1 and, in parallel, IkappaB alpha on both serine and tyrosine residues. On the other hand, in Etoposide Jurkat exposed cells Ser 32-36 phosphorylation of IkappaB alpha is not sufficient to overbalance the apoptotic fate of the cells, since Bax increase, IAP decrease, and caspase-3 activation determine the persistence of the apoptotic state along with the occurrence of cell death by necrosis. Thus, the existence of a balance between apoptotic and rescue response in 20% of cells surviving to TRAIL suggests the possibility of pushing it in favor of cell death in order to improve the yield of pharmacological strategies.
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PMID:PI-3-kinase/NF-kappaB mediated response of Jurkat T leukemic cells to two different chemotherapeutic drugs, etoposide and TRAIL. 1536 57

The coxsackievirus and adenovirus receptor (CAR) is a transmembrane protein that is known to be a site of viral attachment and entry, but its physiologic functions are undefined. CAR expression is maximal in neonates and wanes rapidly after birth in organs such as heart, muscle, and brain, suggesting that CAR plays a role in the development of these tissues. Here, we show that CAR deficiency resulted in an embryonic lethal condition associated with cardiac defects. Specifically, commencing approximately 10.5 days postconception (dpc), CAR-/- cardiomyocytes exhibited regional apoptosis evidenced by both histopathologic features of cell death and positive staining for the apoptotic marker cleaved caspase 3. CAR-/- fetuses invariably suffered from degeneration of the myocardial wall and thoracic hemorrhaging, leading to death by 11.5 dpc. These findings are consistent with the view that CAR provides positive survival signals to cardiomyocytes that are essential for normal heart development.
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PMID:Coxsackievirus and adenovirus receptor is essential for cardiomyocyte development. 1586 12

Tomoregulin-1, a type-I transmembrane protein with two follistatin modules, a unique epidermal growth factor (EGF) domain and a short, highly conserved cytoplasmic tail, was studied. A number of hematopoietic cell lines (L1210, CEM, Jurkat, U937, K562, JY, THP-1 and T2) express tomoregulin-1 endogenously. In these cells, apoptosis was induced by an antiserum (C29) and purified IgG against the follistatin modules, but not by antisera against the EGF-domain or the cytoplasmic tail. Furthermore, C29 induced apoptosis in tomoregulin-1-, but not in mock-transfected cells. Apoptosis was monitored through genomic DNA fragmentation, annexin-V staining and caspase-3 activation. Treatment of the cells with C29 in the presence of H89 (a SerlThr kinase inhibitor) or 8'-bromo-cyclicAMP revealed that apoptosis was mediated by a cAMP-dependent Ser/Thr kinase. Moreover, C29 increased [cAMP]i over 5-fold. Together, these data suggest that the C29 antiserum against tomoregulin-1 induces apoptosis of hematopoietic cells.
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PMID:Induction of apoptosis in hematopoietic cells with an antibody against tomoregulin-1. 1647 15

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