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:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PU.1 is one of key regulators of hematopoietic cell development, a tightly-regulated lineage-specific process. Here we provide the first evidence that PU.1 protein is cleaved into two fragments of 24 kDa and 16 kDa during apoptosis progression in leukemic cell lines and primary leukemic cells. Further experiments with specific capase-3 inhibitor Z-DEVD-fmk and the in vitro proteolytic system confirmed that PU.1 is a direct target of caspase-3. Using site-directed mutagenesis analyses, the aspartic acid residues at positions 97 and 151 of PU.1 protein were identified as capsase-3 target sites. More intriguingly, the suppression of PU.1 expression by small interfering RNAs (siRNAs) significantly inhibits DNA-damaging agents NSC606985 and etoposide-induced apoptosis in leukemic cells, together with the up-regulated expression of anti-apoptotic bcl-2 gene. These results would provide new insights for understanding the mechanism of PU.1 protein in hematopoiesis and leukemogenesis.
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PMID:PU.1, a novel caspase-3 substrate, partially contributes to chemotherapeutic agents-induced apoptosis in leukemic cells. 1928 94

One of the serious unwanted effects of the anthracycline anticancer drug doxorubicin (Dox, adriamycin) is its neurotoxicity, which can be evoked by the activation of extracellular (FAS/CD95/Apo-1) pathway of apoptosis in cells. Since memantine, a clinically used N-methyl-D: -aspartic acid (NMDA) receptor antagonist, shows antiapoptotic action in several models of neuronal cell damage, in this study we evaluated the effect of memantine on the cell death induced by Dox in primary neuronal cell cultures. First, we investigated the effect of different concentrations of Dox (0.1-5 microM) on mouse neocortical, hippocampal, striatal, and cerebellar neurons on 7- and 12-day in vitro (DIV). The 7 DIV neuronal cell cultures were more prone to Dox-induced cell death than 12 DIV cultures. The cerebellar neurons were the most resistant to Dox-induced apoptosis in comparison to neuronal cell cultures derived from the forebrain. Memantine (0.1-2 microM) attenuated the Dox-evoked lactate dehydrogenase release in 7 DIV neuronal cell cultures with no significant effect on 12 DIV cultures. The ameliorating effect of memantine on Dox-mediated cell death was also confirmed by an increase in cell viability measured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide reduction assay. There was no effect of memantine on Dox-induced caspase-8 and -3 activity and Dox-evoked decrease in mitochondrial potential, although attenuation in the number of cells with apoptotic DNA fragmentation was observed. We also showed that the antiapoptotic effect of memantine in our model was NMDA receptor-independent, since two other antagonists of this receptor, MK-801 and AP-5, did not attenuate Dox-induced cell death. Furthermore, memantine did not influence the Dox-evoked increase in cytoplasmic Ca2+ level. The obtained data suggest developmental regulation of both, the Dox-mediated neurotoxicity and efficacy of memantine in alleviating the Dox-induced cell damage in neuronal cell cultures. Moreover, this neuroprotective effect of memantine seems not to be dependent on caspase-3 activity and on the antagonistic action on NMDA receptor.
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PMID:Protective effect of memantine against Doxorubicin toxicity in primary neuronal cell cultures: influence a development stage. 1938 85

In term and preterm neonates, massive glutamate release can lead to excitotoxic white-matter and cortical lesions. Because of its high permeability toward calcium, the N-methyl-D-aspartic acid (NMDA) receptor is thought to play an important role in excitotoxic lesions and NMDA antagonists therefore hold promise for neuroprotection. We found that, in neonatal mouse cortex, a given NMDA concentration exerted either excitotoxic or antiapoptotic effects depending on the cortical layers. In layer VI, NMDA led to excitotoxicity, sustained calcium mobilization, and necrosis of Gad67GFP neurons. In the immature layers II-IV, NMDA decreased apoptosis and induced transient calcium mobilization. The NMDA antagonist MK801 acted as a potent caspase-3 activator in immature layers II-IV and affected gamma aminobutyric acid (GABA)ergic interneurons. The apoptotic effect of MK801-induced BAX expression, mitochondrial potential collapse and caspase-9 activation. In vivo Bax small interfering ribonucleic acid and a caspase-9 inhibitor abrogated MK801-induced apoptosis and pyknotic nucleus formation. Ketamine, an anesthetic with NMDA antagonist properties, mimicked the apoptotic effects of MK801. These data indicate a dual effect of glutamate on survival of immature and mature GABAergic neurons and suggest that ketamine may induce apoptosis of immature GABAergic neurons.
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PMID:Dual effect of glutamate on GABAergic interneuron survival during cerebral cortex development in mice neonates. 1975 25

Lunasin is a naturally occurring peptide with arginine-glycine-aspartic acid motif associated to its reported biological activity. We aimed to determine the potential of lunasin from soybean to stimulate apoptosis in HT-29 colon cancer cells. Lunasin caused cytotoxicity to HT-29 cells and induced G2/M cell cycle arrest with simultaneous increased in p21 expression. Lunasin-induced apoptosis as evidenced by a twofold increase in the percentage of cells undergoing apoptosis, decreased Bcl-2:Bax ratio from 8.5 to 0.4, increased caspase-3 activity by 77% and increased expression of pro-apoptotic nuclear clusterin by five fold when compared to untreated cells. In conclusion, lunasin stimulated apoptosis in HT-29 cells by activating apoptotic mitochondrial pathways and inducing expression of the pro-apoptotic nuclear clusterin.
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PMID:Lunasin promotes apoptosis in human colon cancer cells by mitochondrial pathway activation and induction of nuclear clusterin expression. 2020 42

The ability to form functional polymeric patterning structures has important implications for the studies of cell biology, tissue engineering, and medical diagnostics. We have developed a novel enzyme-assisted photolithography (EAPL) method for spatial functionalization of hydrogels via a high throughput fashion. A bisacrylated peptide crosslinker, containing a protease cleavable amino acid sequence and caged by a photolabile moiety, is used during hydrogel polymerization. A facile two-step process is employed, including UV exposure to decage the peptide crosslinker at a desired area and protease development to specifically digest gels at UV treated regions only. Importantly, proteolysis of the peptide bonds generates free nucleophilic amine groups at the patterned area that can be further functionalized. Using this strategy and caspase-3 as the enzyme developer, we demonstrate the simultaneous generation of topographical and functional patterns into poly(ethylene glycol) (PEG) hydrogels. We show that 20 microm-wide line arrays functionalized with arginine-glycine-aspartic acid (RGD)-containing peptides can be used to generate cell patterns with individual cell resolution. We also fabricated arrays 20 mum diameter cavities decorated with B lymphocyte specific anti-CD19, which was used to achieve a 600-fold enrichment of B-cells from a 0.1% starting B-cell mixture. The simple fabrication process, straightforward chemistry and an all-aqueous based biocompatible and environmentally friendly approach render EAPL a versatile platform to construct biologically responsive 2D patterns or 3D scaffolds for lab-on-a-chip systems and tissue engineering.
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PMID:Enzyme-assisted photolithography for spatial functionalization of hydrogels. 2043 69

Null mutations in the progranulin gene (PGRN) have been identified as a major cause of frontotemporal dementia with ubiquitinated inclusions. In this disorder, ubiquitinated, aggregated protein inclusions of a normally nuclear-located RNA processing protein called TAR DNA binding protein (TDP-43) accumulate in the neuronal cytoplasm (FTLD-TDP). To determine whether aspects of this clinical pathology can be established in primary cultures of mouse cortical neurons, PGRN levels were knocked down in neuronal cultures using lentiviral vectors to introduce mouse PGRN-siRNA constructs and subsequently rescued by overexpressing PGRN using a human PGRN-expressing lentiviral vector. The depletion of PGRN enhanced caspase-3 activation, and the PGRN-deficient neurons demonstrated enhanced vulnerability to normally sublethal doses of N-methyl-D-aspartic acid (NMDA) and hydrogen peroxide (H(2)O(2)). TDP-43 protein levels were markedly increased in the cytoplasm of PGRN-deficient neurons relative to nuclear levels, which is similar to observations in the brains of FTLD-TDP patients. Our results establish a neuronal culture model of the PGRN deficiency, which displays some of the important phenotypic characteristics of the early stages of the disease. The results further suggest that the seeds of this form of frontotemporal dementia may be sown early in life.
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PMID:Progranulin deficiency leads to enhanced cell vulnerability and TDP-43 translocation in primary neuronal cultures. 2088 4

Herpes Simplex Virus Type 1 (HSV-1) is ubiquitous, neurotropic, and the most common pathogenic causes of sporadic acute encephalitis in humans. Herpes simplex encephalitis is associated with a high mortality rate and significant neurological, neuropsychological, and neurobehavioral sequelae, which afflict patients for life. HSV-1 infects limbic system structures in the central nervous system and has been suggested as an environmental risk factor for Alzheimer's disease. However, the possible mechanisms that link HSV-1 infection with the neurodegenerative process are still largely unknown. In a previous study we demonstrated that HSV-1 triggers hyperphosphorylation of tau epitopes serine202/threonine205 and serine396/serine404 in neuronal cultures, resembling what occurs in neurodegenerative diseases. Therefore, the aim of the present study was to evaluate at the cellular level if another event associated with neurodegeneration, such as caspase-3 induced cleavage of tau, could also be triggered by HSV-1 infection in primary neuronal and astrocyte cultures. As expected, induction of caspase-3 activation and cleavage of tau protein at its specific site (aspartic acid 421) was observed by Western blot and immunofluorescence analyses in mice neuronal primary cultures infected with HSV-1. In agreement with our previous study on tau hyperphosphorylation, tau cleavage was also observed during the first 4 hours of infection, before neuronal death takes place. This tau processing has been previously demonstrated to increase the kinetics of tau aggregation in vitro and has also been observed in neurodegenerative pathologies. In conclusion, our findings support the idea that HSV-1 could contribute to induce neurodegenerative processes in age-associated pathologies such as Alzheimer's disease.
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PMID:Tau cleavage at D421 by caspase-3 is induced in neurons and astrocytes infected with herpes simplex virus type 1. 2109 75

Caspases-3, a member of the cysteine-aspartic acid protease (caspase) family, plays critical roles in the execution of apoptotic pathway. In this study, a caspase-3 homologue was cloned and characterized from large yellow croaker (Pseudosciaena crocea). The full-length cDNA of large yellow croaker caspase-3 (Lyccasp3) is 2222bp with an open reading frame of 858 bp encoding a polypeptide of 285 amino acids (aa). Lyccasp3 exhibited a conserved caspase-3 architecture including a prodomain, a large subunit and a small subunit. Moreover, several residues known to be critical in the caspase-3 catalytic centre and binding pocket, as well as the active-site pentapeptide motif Q(172)ACRG(176) were present in the deduced Lyccasp3. Recombinant Lyccasp3 (rLyccasp3) produced in Escherichia coli exhibited obvious hydrolyzing activity against synthetic peptide substrate Ac-DEVD-pNA. The Lyccasp3 was constitutively expressed in all the tissues examined, although the expression levels varied from tissue to tissue. Real-time PCR analysis revealed that Lyccasp3 transcript in spleen and kidney was quickly increased after stimulation with either poly (I:C) or inactivated trivalent bacterial vaccine. Enzyme activities of Lyccasp3 were also up-regulated in these two tissues post-stimulation when analyzed by hydrolyzing activity assay. Since the activity of large yellow croaker caspase-9 (Lyccasp9) in the spleen and kidney also increased when the fish was stimulated with the poly(I:C) or bacterial vaccine [1], we therefore proposed that the intrinsic apoptotic pathway, which is initiated by caspase-9 and executed by caspase-3, was activated during the immune response induced by poly(I:C) or bacterial vaccine in large yellow croaker.
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PMID:Molecular cloning and characterization of caspase-3 in large yellow croaker (Pseudosciaena crocea). 2128 91

Programmed cell death or apoptosis can be induced by a variety of mechanisms including genotoxic stress (1-3). The initiation of apoptosis involves the activation of a proteolytic cascade reminiscent of the blood-clotting pathway or activation of pancreatic proteases (4). It has been suggested that a single DNA strand break or persistent DNA adduct is sufficient to induce apoptosis (5). The protease cascade allows for the amplification of the initial signal and results in the degradation of cellular proteins and chromosomal DNA, which are packaged into apoptotic bodies and subsequently removed and recycled by phagocytic cells. The proteases involved in apoptosis employ active site cysteine residues, which catalyze the hydrolysis of the peptide bond following specific aspartic acid residues (6). This class of proteases has been termed caspases for cysteinyl, aspartate-specific proteases. A current view of the caspase cascade is presented in Fig. 1. Genotoxic stress results in the generation of an as yet undefined signal that results in the release of cytochrome C from the intermembrane space of mitochondria into the cytoplasm. It is in the cytoplasm that cytochrome C can form a complex with apocaspase 9, apoptotic protease activating factor-1 (Apaf-1) and deoxyadenosine 5'triphosphate (dATP). This complex is competent for the autoproteolytic activation of caspase-9 (7). Active caspase-9 then cleaves apocaspase-3 to generate an active caspase-3, which is responsible for cleaving specific target proteins, one of which is the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs). The antiapoptotic factor Bcl-xL can sequester cytochrome C and inhibit the formation of the caspase-9-Apaf-1 complex effectively blocking apoptosis (8). The proapoptotic factor Bcl-xS promotes apoptosis by binding to Bcl-xL and thus blocking the inhibitory effect of this protein (8). Fig. 1. Programmed cell death pathway in response to genotoxic stress.
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PMID:DNA-Dependent Protein Kinase in Apoptosis. 2134 Aug 32

Noninvasive detection and in vivo imaging of apoptosis plays a critical role in the development of therapeutics in many different fields including cancer. We have developed an apoptosis biosensor by fusing green fluorescent protein (GFP) to the N-terminus of the naturally secreted Gaussia luciferase separated by a caspase-3 cleavage peptide consisting of aspartic acid (D), glutamic acid (E), valine (V), and aspartic acid (D) or DEVD. We showed that this fusion is retained in the cytoplasm of cells in an inactive form. Upon apoptosis, the DEVD peptide is cleaved in response to caspase-3 activation, freeing ssGluc, which can now enter the secretory pathway where it is folded properly and is released from the cells and can be detected in the conditioned medium in culture or in blood of live animals ex vivo over time. Because Gluc is secreted from cells via conventional pathway through the endoplasmic reticulum (ER), Golgi and vesicles, we showed that the presence of Gluc in these compartments in response to apoptosis can be visualized in vivo using bioluminescence imaging. This reporter provides a valuable tool for imaging and real-time monitoring of apoptosis and is compatible with high-throughput functional screening application in cultured cells and animal models.
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PMID:Multimodal in vivo imaging and blood monitoring of intrinsic and extrinsic apoptosis. 2134 14


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