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:3.4.22.36 (caspase-1)
6,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Moojeni protease A, a proteolytic enzyme isolated from Bothrops moojeni venom, hydrolyzes type I collagen, gelatin, fibrinogen, fibrin and the B-chain of oxidized insulin. The proteinase cleaves the A alpha-chain faster than the B beta-chain of human fibrinogen and shows no effect on the gamma-chain. Fibrin solubilization appears to occur from the hydrolysis of the alpha-polymer and unpolymerized alpha-chain. The enzyme cleaves the Ala(14)-Leu(15) bond of the oxidized insulin B-chain most rapidly, followed by splitting the Ser(9)-His(10) bond. The Tyr(16)-Leu(17) and Gly(20)-Glu(21) cleavage sites were hydrolyzed slightly more slowly, while the peptide bonds His(5)-Leu(6), His(10)-Leu(11), Glu(21)-Arg(22), Gly(23)-Phe(24) and Phe(24)-Phe(25) were more resistant to the enzyme attack. Small synthetic peptides were not hydrolyzed by moojeni protease A.
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PMID:Proteolytic specificity of moojeni protease A isolated from the venom of Bothrops moojeni. 845 46

The most important regulator of insulin expression in islet beta-cells is glucose, which stimulates insulin gene transcription, protein synthesis, and secretion. Glucose-induced insulin gene transcription is regulated by cis-acting elements found within the 5'-flanking region of the insulin gene. We previously demonstrated that the insulin control element (ICE, -100 to -91) and RIPE3b1 (-115 to -107) elements mediated this response in the HIT T-15 beta-cell line. In this study, we examined more closely how these insulin gene control elements regulate glucose-induced transcription. RIPE3b1 element binding was shown to be induced by glucose in both mouse beta TC-6 and beta TC-3 cell lines, although higher glucose concentrations were necessary in the beta-cells (beta TC-6) that responded to physiological glucose concentrations. RIPE3b1 binding was also regulated in glucose-stimulated beta- cells by various effectors of this response. The RIPE3b1 or ICE elements were shown to independently direct glucose-stimulated expression from minimal heterologous promoter constructs. We conclude that the RIPE3b1 and ICE elements are the principal mediators of glucose-stimulated transcription of the insulin gene.
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PMID:The role of the insulin control element and RIPE3b1 activators in glucose-stimulated transcription of the insulin gene. 858 24

We have shown previously that chronic exposure of HIT-T15 cells to supraphysiologic glucose concentrations causes decreased insulin gene transcription and decreased binding activities of two beta-cell specific transcription factors, STF-1 and the RIPE3b1 activator, and have suggested that these events may provide a mechanism for glucose toxicity on beta-cell function. However, this contention can be criticized because it is not clear whether these observations are unique to the HIT-T15 cell or generalizable to other beta-cell lines and the islet. Therefore, we cultured betaTC-6 cells for up to 41 wk in either 11.1 or 0.8 mM glucose. We observed a passage-dependent decrease in insulin content and insulin mRNA levels in betaTC-6 cells chronically cultured in 11.1 mM glucose. Cells chronically cultured in 0.8 mM glucose had higher insulin mRNA levels than cells chronically cultured in 11.1 mM glucose. The relative activity of a chloramphenicol acetyl transferase (CAT) reporter gene controlled by the 5' regulatory region of the human insulin gene was decreased in late passage betaTC-6 cells chronically cultured in 11.1 mM glucose, but was preserved in late passages of cells chronically cultured in 0.8 mM glucose. Electromobility shift assays demonstrated that binding of a specific nuclear protein that recognizes the RIPE3b1 binding site of the insulin gene was markedly diminished in late passage cells chronically exposed to 11.1 mM glucose, whereas binding activities of STF-1 and ICE activators were unchanged. RIPE3b1 binding activity was preserved in late passage cells chronically exposed to 0.8 mM glucose. Mutation of the RIPE3b1 binding site almost completely abolished insulin gene transcription as well as binding activity. We conclude that chronic exposure of betaTC-6 cells to high glucose concentrations paradoxically decreases insulin gene transcription, in part, by decreasing activity of the trans-activating factor which binds to the RIPE3b1 sequence. This study uniquely demonstrates that altered binding to the RIPE3b1 sequence mediates glucose toxicity in betaTC-6 cells, thus reinforcing the importance of this cis-acting element in the regulation of insulin gene transcription. We conclude that the phenomenon of glucose toxicity decreasing binding of transcription factors and thereby reducing insulin gene expression is not a feature solely of HIT-T15 cells and may be demonstrable generally in beta-cell lines.
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PMID:Chronic exposure of betaTC-6 cells to supraphysiologic concentrations of glucose decreases binding of the RIPE3b1 insulin gene transcription activator. 861 27

COS cells are resistant to cell death induced either by interleukin-1beta-converting enzyme (*ICE) and ICE homolog (ICH-1L) overexpression or by serum deprivation. COS cells deprived of serum undergo apoptosis after transfection with an ICE expression construct, but not an ICH-1L construct. ICE-mediated apoptosis of COS cells in serum-free medium is suppressed by insulin-like growth factor (IGF)-1 and insulin. Viability of Rat-1 cell line (Rat-1/ICE) expressing low levels of ICE-LacZ fusion protein is lower than those of cell lines expressing either both Bcl-2 and ICE or mutant ICEGly-->Ser during serum deprivation. Enzymatic activation and processing of ICE are observed in cells induced to die by serum deprivation, which are suppressed by IGF-1. IGF-1 or insulin suppresses ICE-mediated cell death without affecting the expression levels of Bcl-2, Bcl-x, or Bax. Taken together, these results indicate that ICE is activated by growth factor deprivation, and IGF-1 is able to suppress ICE-mediated cell death through a mechanism independent of the expression of Bcl-2, Bcl-x, or Bax.
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PMID:Suppression of interleukin-1 beta-converting enzyme-mediated cell death by insulin-like growth factor. 861 90

Using an organotypic slice culture system of neonatal rat cerebellum, we examined developmental stage-specific mechanisms of cell death of granule neurons. This culture system allows a serial process of granule neuron development including their proliferation during the early culture period and the proceeding migration from the external granular layer to the internal granular layer in the presence of a supraphysiological concentration (5 micrograms/ml) of insulin. Insulin deprivation induced apoptosis of granule neurons in external granular layer but not in internal granular layer. A truncated analogue of insulin-like growth factor-I (des (1-3) insulin-like growth factor-I) prevented this apoptosis at a concentration of 65-650 ng/ml. Some apoptotic granule neurons expressed proliferating cell nuclear antigen but not TAG-1, a marker protein of the postmitotic and premigratory granule neurons. Thus, this apoptosis occurred at a specific stage in granule neuron development: at the stage before TAG-1 expression and at least partly at the proliferative state. Ac-YVAD-CHO, an inhibitor of interleukin-1 beta converting enzyme (caspase-1)-like proteases, had a protective effect on this apoptosis. Interleukin-1 beta converting enzyme (caspase-1)-like protease activity increased under the apoptosis-induced condition. High concentration of K+, which is known to prevent granule neuron apoptosis in dissociated cultures, had a partial protective effect on this apoptosis. These findings suggest that (i) cerebellar granule neurons fall into apoptosis at the specific developmental stage unless stimulated by insulin-like growth factor-I (analogue), (ii) this apoptosis is mediated through an interleukin-1 beta converting enzyme-like protease, and (iii) this apoptosis consists of K(+)-sensitive and K(+)-insensitive components.
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PMID:Insulin-like growth factor-I analogue prevents apoptosis mediated through an interleukin-1 beta converting enzyme (caspase-1)-like protease of cerebellar external granular layer neurons: developmental stage-specific mechanisms of neuronal cell death. 952 65

We have presently determined the effect of inhibition of the DNA repair enzyme poly(ADP-ribose) polymerase (PARP) on the occurrence of apoptosis in insulin-producing cells. The ADP-ribosylation activities of intact cells were decreased by incubation of RINm5F cells for 16 h with the PARP inhibitors nicotinamide (NA) (20-50 mM) or 3-aminobenzamide (3-ABA) (10 mM). Exposure to 20-50 mM NA or 10 mM 3-ABA both resulted in massive apoptosis in RINm5F cells. A 24 h exposure to 50 mM nicotinamide induced apoptosis in fetal but not adult rat islet cells. In addition, exposure of RINm5F cells to 50 mM NA for 12-24 h induced the appearance of the 85 kDa proteolytic PARP fragment, indicating activation of the ICE-like protease caspase-3. Incubation with 20-50 mM NA did not induce any consistent effects upon transcription factor NF-kappaB activity, demonstrating that this pathway is not involved in induction of apoptosis by NA. It is concluded that in insulin-producing cells with a high mitotic rate, inhibition of ADP-ribosylation--and consequently of auto-modification and release of PARP bound to DNA strand breaks--leads to activation of programmed cell death.
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PMID:Nicotinamide-induced apoptosis in insulin producing cells is associated with cleavage of poly(ADP-ribose) polymerase. 970 78

The aim of the present study was to correlate the islet expression of the apoptosis-associated factors Fas/Apo-1, FasL, ICE and perforin with the progression of beta-cell destruction in non-obese diabetic (NOD) mice. For this purpose, thymus and isolated pancreatic islets from male and female NOD mice of 5 and 15 weeks of age were subjected to immunoblot analysis. Islet expression of the Fas/Apo-1 receptor and ICE were increased in islets from female mice 15 weeks of age as compared to corresponding males. No Fas/Apo-1 or ICE signal was observed in the 5-week-old mice. The expression of perforin increased both in islets and in thymus with age and female gender. Islet expression of FasL could not be detected. Culture of isolated islets from NMRI mice in the presence of interleukin-1beta (IL-1beta) induced the expression of ICE. The present results support a direct role of the Fas/FasL and the perforin systems in the autoimmune destruction of insulin producing cells [corrected].
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PMID:Islet expression of perforin, Fas/Apo-1 and interleukin-1 converting enzyme (ICE) in non-obese diabetic (NOD) mice. 984 Jun 79

Several putative insulin-responsive elements (IRE) in the fatty acid synthase (FAS) promoter have been identified and shown to be functional in adipocytes and hepatocytes. Here we report on the insulin-responsiveness in the rat hepatoma cell line H4IIE of four cis-elements in the FAS promoter: the FAS insulin-responsive elements, FIRE2 and FIRE3; the inverted CCAAT element, ICE; and the insulin/glucose-binding element, designated hepatic FIRE element, hFIRE, originally identified in rat hepatocytes. Using electrophoretic mobility shift assay (EMSA) competition experiments together with supershifts and in vitro transcription/translation we show that FIRE3 (-68/-58) binds not only the upstream stimulatory factors USF-1/USF-2 but also the CCAAT-binding factor CBF, also known as the nuclear factor Y, NF-Y. The putative IRE FIRE2, which shows sequence similarity to FIRE3, is located between -267 and -249. Gel retardation experiments indicate that USF-1 and USF-2 also bind to this element, which contains an imperfect E-box motif. Using the same approach we have shown that hFIRE binds the stimulatory proteins Sp1 and Sp3 in addition to CBF. Transient transfection experiments using FAS promoter constructs deleted for FIRE2 and FIRE3 demonstrate that neither of these elements mediates the insulin response of the FAS promoter in the rat hepatoma cell line H4IIE, however, ICE at -103/-87 is responsible for mediating the effect of the insulin antagonist cAMP. The hFIRE element located at -57/-34, in spite of its role in the glucose/insulin response in primary rat hepatocytes, is apparently not involved in the insulin regulation of the rat FAS promoter in H4IIE cells. The fact that the topology of the promoters of the FAS genes in rat, human, goose and chicken is conserved regarding CBF-binding sites and USF-binding sites implies an important role for these ubiquitously expressed transcription factors in the regulation of the FAS promoter.
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PMID:FIRE3 in the promoter of the rat fatty acid synthase (FAS) gene binds the ubiquitous transcription factors CBF and USF but does not mediate an insulin response in a rat hepatoma cell line. 1010 3

Maintenance of mammary epithelial differentiation and milk production during lactation is a consequence of milk removal and the presence of lactogenic hormones, particularly glucocorticoids, insulin and prolactin. After weaning the fall in lactogenic hormones and milk stasis lead to involution, a process that is mainly characterized by three events: (i) downregulation of milk protein gene expression, (ii) loss of epithelial cells by apoptosis and, (iii) tissue remodeling and preparation of the gland for a new pregnancy. Each of these processes is likely to depend on the activity of specific sets of transcription factors in the mammary epithelium and stroma that ensure the timely and spatially coordinated expression of critical gene products such as mediators of apoptosis (e.g., caspase-1 and regulators of tissue remodeling events (e.g., matrix metalloproteinases). Here we describe signal transduction events such as activation of protein kinase A and JNK and changes in the activity of several transcription factors including Stat5, Stat3, NF1, Oct-1, and AP-1 during the early and late phases of mammary gland involution. We discuss their possible role in regulating and coordinating involution with emphasis on the apoptotic process of involution.
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PMID:Transcription factor activities and gene expression during mouse mammary gland involution. 1042 93

Interleukin (IL)-18, a recently identified proinflammatory cytokine, has been implicated in a variety of pathological conditions such as rheumatoid arthritis, insulin-dependent diabetes mellitus, and inflammatory liver injury. Microglial cells are the primary cellular source of IL-18 in the brain. Along with other inflammatory mediators in the central nervous system (CNS), IL-18 may play an important role in the pathogenesis of various neurodegenerative diseases. To understand how lymphokines and lipid mediators participate in the regulation of microglial IL-18 production, we assessed the effects of interferon (IFN)gamma, one of the major macrophage-activating lymphokines, and prostaglandin (PG)E(2), a lipid mediator produced in the brain, on IL-18 production and the expression of the IL-18 processing enzyme, caspase-1, in mouse microglial cells. IFNgamma increased lipopolysaccharide (LPS)-induced IL-18 production and caspase-1 expression, while PGE(2) inhibited LPS-induced IL-18 production. A similar pattern of IL-18 regulation by IFNgamma and PGE(2) was observed at the mRNA level. The regulation of microglial activation by IFNgamma and PGE(2) was accompanied by differential modulation of LPS-induced NF-kB activation. While IFNgamma enhanced LPS-induced NF-kB activation, PGE(2) suppressed its activation. These results indicate that IFNgamma and PGE(2) are the important regulators of proinflammatory microglial activation in CNS, and suggest the involvement of NF-kB pathway in these regulatory processes.
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PMID:Regulation of IL-18 production by IFN gamma and PGE2 in mouse microglial cells: involvement of NF-kB pathway in the regulatory processes. 1137 1


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