Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.62 (caspase-9)
 7,507 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Caspase-9 is a critical regulator of mitochondria-mediated apoptosis. We found that adult cardiac myocytes, but not nonmyocytes, have high caspase-9 expression, and exhibit relative resistance to caspase-9-induced cell death. Thus, we hypothesized that cardiac myocytes possess factors that resist apoptosis. Through a yeast two-hybrid screening of adult human heart cDNA library, we identified HS-1 associated protein-1 (HAX-1), a 35-kD BH-domain containing protein localized to the mitochondria as one of the molecules that interacts with caspase-9. Recombinant HAX-1 protein inhibited caspase-9 processing in a dose-dependent manner in a cell-free caspase activation assay. Overexpression of HAX-1 in adult cardiac myocytes conferred 30% protection from apoptosis as compared with the control. Suppression of HAX-1 expression using siRNA-HAX-1 resulted in significant cell death in adult cardiac myocytes, suggesting the importance of HAX-1 in cardiac myocyte resistance to apoptotic stimulation. On apoptotic stimulation, some caspase-9 translocated to the mitochondria and co-localized with HAX-1, confirming the spatial proximity of caspase-9 and HAX-1. In summary, HAX-1 is a newly identified anti-apoptotic factor and its mechanism of action is through caspase-9 inhibition.
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PMID:Overexpression of HAX-1 protects cardiac myocytes from apoptosis through caspase-9 inhibition. 1691 98

HAX-1 protein, an anti-apoptotic factor, first identified in 1997, is also involved in cell migration, endocytosis and probably mRNA transport. HAX-1 structure indicates similarity to the proteins form Bcl-2 family, although there is no strong homology. HAX-1 is a substrate for Omi/HtrA2, a protease responsible for degradation of the caspases, and functions as an inhibitor of caspase-9, which points to its role in the regulation of apoptosis. Several HAX-1 interactions with proteins involved in apoptosis and cell motility were demonstrated. Another line of inquiry focus on its ability to bind 3' untranslated regions of the certain mRNAs. Some data indicate that it might be involved in mRNA transport. HAX-1 multifunctionality and its involvement in the processes important for the cell status suggest its possible role in oncogenesis and metastasis. It is also known that HAX-1 deficiency or overexpression leads to hereditary or systemic diseases (Kostmann disease, lesional psoriasis, systemic sclerosis). Therefore, detailed analysis of HAX-1 functions could be medically important.
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PMID:[HAX-1 protein: multifunctional factor involved in apoptosis, cell migration, endocytosis and mRNA transport]. 1839 50

Mitochondrial homeostasis is a key process involved in cellular destiny and organic function. When mitochondrial status is abnormal, it will become a "death motor." Impaired mitochondria lead to the release of cytochrome c, and then trigger mitochondria-induced caspase activation. Omi/HtrA2, a serine protease, locates in mitochondria and involves in mitochondrial homeostasis. Increased Omi/HtrA2 is observed in aging cardiac tissues, and whether this has effects on mitochondrial status has not been reported. In this study, natural Sprague-Dawley rats (22 months) were used. We detected markedly increased proteolytic activity of Omi/HtrA2 and obvious activation of caspase-9 and caspase-3 in their myocardium. Then, we constructed stably transfected mitochondrial Omi/HtrA2 cells, and decreased mitochondrial membrane potential was detected by JC-1 (a probe for mitochondria) and tetramethylrhodamine methyl ester (TMRM) dyeing and significant release of cytochrome c was observed after separation of mitochondrial fraction and cytosolic fraction. Furthermore, ucf-101 (a special inhibitor of Omi/HtrA2) and HAX-1 siRNA could ameliorate those phenomena above. In conclusion, excessive Omi/HtrA2 in mitochondria induced decreased mitochondrial membrane potential by its proteolytic activity, followed by cytochrome c released from mitochondria into cytosol where cytochrome c promoted caspase activation. Also, Omi/HtrA2-HAX-1 chain played a significant role in mitochondrial homeostasis.
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PMID:Mitochondrial Omi/HtrA2 Promotes Caspase Activation Through Cleavage of HAX-1 in Aging Heart. 2799 13