Bax ihibitor-1 (BI-1) has been characterized as an inhibitor of Bax-induced cell death in plants ... more Bax ihibitor-1 (BI-1) has been characterized as an inhibitor of Bax-induced cell death in plants and various mammalian cell systems. To explore the function of BI-1 in neurons, we overexpressed BI-1 tagged to HA or GFP in rat nigral CSM14.1 and human SH-SY5Y neuroblastoma cells. Stable BI-1 expression proved marked protection from cell death induced by thapsigargine, a stress agent blocking the Ca2+-ATPase of the endoplasmic reticulum (ER) but failed to inhibit cell death induced by staurosporine, a kinase inhibitor initiating mitochondria-dependent apoptosis. Moreover, BI-1 was neuroprotective in a paradigm mimicking ischemia, namely oxygen-glucose as well as serum deprivation. Examination of the subcellular distribution revealed that BI-1 predominantly locates to the ER and nuclear envelope but not mitochondria. Taken together, BI-1 overexpression in the ER is protective in neurons, making BI-1 an interesting target for future studies aiming at the inhibition of neuronal cell death during neurodegenerative diseases and stroke.
Alcaligenes eutrophus H16 harbors seven hyp genes (hypA, B, F, C, D, E, and X) as part of the h... more Alcaligenes eutrophus H16 harbors seven hyp genes (hypA, B, F, C, D, E, and X) as part of the hydrogenase gene cluster on megaplasmid pHG1. Here we demonstrate that three of the hyp genes (hypA, B, and F) are duplicated in A. eutrophus, which explains the lack of a phenotypic change in single-site mutants impaired in one of the two copies. Mutants with lesions in both copies showed clear alterations in hydrogenase activities. Deletions in hypF1 and hypF2 completely abolished activities of the soluble hydrogenase and of the membrane-bound hydrogenase, mutations in hypA1 and hypA2 totally blocked the membrane-bound hydrogenase activity, while residual soluble hydrogenase activity accounted for the extremely slow growth of the strain on H2. Both hydrogenase activities of mutants defective in hypB1 and hypB2 were partially restored by elevating the concentration of nickel chloride in the medium. Reduction of hydrogenase activities in the double mutants correlated with varying degrees of maturation deficiency based upon the amount of unprocessed nickel-free hydrogenase precursor. Despite a high identity between the two copies of hyp gene products, substantial structural differences were identified between the two copies of hypF genes. HypF1, although functionally active, is a truncated version of HypF2, whose structure resembles HypF proteins of other organisms. Interestingly, the N-terminus of HypF2, which is missing in the HypF1 counterpart, contains a putative acylphosphatase domain in addition to a potential metal binding site.
Bax ihibitor-1 (BI-1) has been characterized as an inhibitor of Bax-induced cell death in plants ... more Bax ihibitor-1 (BI-1) has been characterized as an inhibitor of Bax-induced cell death in plants and various mammalian cell systems. To explore the function of BI-1 in neurons, we overexpressed BI-1 tagged to HA or GFP in rat nigral CSM14.1 and human SH-SY5Y neuroblastoma cells. Stable BI-1 expression proved marked protection from cell death induced by thapsigargine, a stress agent blocking the Ca2+-ATPase of the endoplasmic reticulum (ER) but failed to inhibit cell death induced by staurosporine, a kinase inhibitor initiating mitochondria-dependent apoptosis. Moreover, BI-1 was neuroprotective in a paradigm mimicking ischemia, namely oxygen-glucose as well as serum deprivation. Examination of the subcellular distribution revealed that BI-1 predominantly locates to the ER and nuclear envelope but not mitochondria. Taken together, BI-1 overexpression in the ER is protective in neurons, making BI-1 an interesting target for future studies aiming at the inhibition of neuronal cell death during neurodegenerative diseases and stroke.
Alcaligenes eutrophus H16 harbors seven hyp genes (hypA, B, F, C, D, E, and X) as part of the h... more Alcaligenes eutrophus H16 harbors seven hyp genes (hypA, B, F, C, D, E, and X) as part of the hydrogenase gene cluster on megaplasmid pHG1. Here we demonstrate that three of the hyp genes (hypA, B, and F) are duplicated in A. eutrophus, which explains the lack of a phenotypic change in single-site mutants impaired in one of the two copies. Mutants with lesions in both copies showed clear alterations in hydrogenase activities. Deletions in hypF1 and hypF2 completely abolished activities of the soluble hydrogenase and of the membrane-bound hydrogenase, mutations in hypA1 and hypA2 totally blocked the membrane-bound hydrogenase activity, while residual soluble hydrogenase activity accounted for the extremely slow growth of the strain on H2. Both hydrogenase activities of mutants defective in hypB1 and hypB2 were partially restored by elevating the concentration of nickel chloride in the medium. Reduction of hydrogenase activities in the double mutants correlated with varying degrees of maturation deficiency based upon the amount of unprocessed nickel-free hydrogenase precursor. Despite a high identity between the two copies of hyp gene products, substantial structural differences were identified between the two copies of hypF genes. HypF1, although functionally active, is a truncated version of HypF2, whose structure resembles HypF proteins of other organisms. Interestingly, the N-terminus of HypF2, which is missing in the HypF1 counterpart, contains a putative acylphosphatase domain in addition to a potential metal binding site.
Uploads
Papers by Xhoi Sh