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2005
A solvent-extraction-based radioassay for measuring sphingosine kinase (SKase) activity has been developed. The assay utilizes [3H]sphingosine substrate and differentially extracts the [3H]sphingosine-1-phosphate product. The extracted radioactivity is demonstrated to be primarily [3H]sphingosine-1-phosphate with less than 1% contamination by [3H]sphingosine. When assaying SKase activity in the soluble cell fraction, the extraction efficiency of the labeled sphingosine-1-phosphate product is a reproducible 78%, which allows for a simple back calculation to correct for the 22% extraction loss. With minor modification, the assay is also a reproducible procedure for determining SKase activity in subcellular membrane fractions. The assay is far more rapid than thin-layer chromatography and high-performance liquid chromatography methods, which makes it possible to do a large number of assays in a short period of time. The utility of the assay is demonstrated by using it to conduct a complete bisubstrate kinetic analysis of rat heart SKase.
View on PubMed2005
2005
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2005
Manganese superoxide dismutase (MnSOD) is one of the main antioxidant enzymes that protects the heart against ischemia-reperfusion (I/R) injury. Ischemic preconditioning (IPC) is a short period of ischemia-reperfusion that reduces subsequent prolonged I/R injury. Although MnSOD localizes in mitochondria, the immediate subcellular distribution of MnSOD in heart after IPC and I/R has not been studied. In a Langendorff mouse heart model, IPC significantly improved cardiac function and reduced the infarction size induced by I/R. Immunoblotting and double immunostaining in fresh preparations revealed that I/R resulted in an increase in cytosolic MnSOD content accompanied by the release of cytochrome c. In contrast, IPC increased mitochondrial MnSOD and reduced cytosolic MnSOD and cytochrome c release induced by I/R. We found that compared with freshly prepared fractions, the freeze-thaw approach results in mitochondrial integrity disruption and release of large amounts of MnSOD into the cytosol along with mitochondrial markers even in the absence of I/R. In contrast, fresh preparations exhibit early MnSOD release into the cytosol after I/R that is prevented by IPC and cyclosporin A administration.
View on PubMed2005
2005
2005
2005
Renal tubular epithelial cells in all nephron segments express a distinct member of the metalloprotease-disintegrin family, ADAM9 (a disintegrin and metalloprotease 9), in a punctate basolateral distribution co-localized to the beta1 integrin chain [Mahimkar, Baricos, Visaya, Pollock and Lovett (2000) J. Am. Soc. Nephrol. 11, 595-603]. Discrete segments of the nephron express several defined beta1 integrins, suggesting that ADAM9 interacts with multiple renal integrins and thereby regulates epithelial cell-matrix interactions. Intact ADAM9 and a series of deletion constructs sequentially lacking the metalloprotease domain and the disintegrin domain were assembled as chimaeras with a C-terminal GFP (green fluorescent protein) tag. Stable expression of the ADAM9/GFP protein on the surface of HEK-293 cells (human embryonic kidney 293 cells) significantly decreased adhesion to types I and IV collagen, vitronectin and laminin, but had little effect on adhesion to fibronectin. Expression of the disintegrin/cysteine-rich/GFP construct yielded a similar, but more marked pattern of decreased adhesion. Expression of the cysteine-rich/GFP construct had no effect on adhesion, indicating that the disintegrin domain was responsible for the competitive inhibition of cell-matrix binding. To define the specific renal tubular beta1 integrins interacting with the ADAM9 disintegrin domain, a recombinant GST (glutathione S-transferase)-disintegrin protein was used as a substrate in adhesion assays in the presence or absence of specific integrin-blocking antibodies. Inclusion of antibodies to alpha1, alpha3, alpha6, alphav and beta1 blocked adhesion of HEK-293 cells to GST-disintegrin protein. Immobilized GST-disintegrin domain perfused with renal cortical lysates specifically recovered the alpha3, alpha6, alphav and beta1 integrin chains by Western analysis. It is concluded that ADAM9 is a polyvalent ligand, through its disintegrin domain, for multiple renal integrins of the beta1 class.
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