Calcium-activated neutral proteinase (calpain) activity was determined, including in cytosol and membrane fractions, in rat glioma C6 cell line. The mu and m forms of calpain were separated by DEAE and phenylsepharose column chromatography and with removal of the endogenous inhibitor calpastatin. C6 cells contained more mcalpain than the mu isoform. More than 70% of mcalpain activity was membrane-associated and 20% was cytosolic. Isolated plasma membrane also contained 69% of the mcalpain activity. In contrast, approximately 80% of mucalpain activity was cytosolic and 16% was membranous. Half-maximal activity for mu and mcalpain was obtained at 1 microM and 0.2 mM CaCl2, respectively. Trypsin dissociation of cells reduced activity. Triton X-100 stimulated mcalpain activity of the whole homogenate and the membrane pellet but not of the cytosol. Activity of the myelin marker enzyme adenosine 2'3'-cyclic nucleotide 3'-phosphohydrolase (CNPase), was also found in C6 cells. The identification of calpain and CNPase in C6 cells is in keeping with an interpretation that C6 differentiation resembles, at least in part, that of the myelin-forming oligodendroglial cells.
Calcium-activated neutral proteinase (calpain) is a ubiquitous, cytosolic endopeptidase which is believed to play a role in many neural functions. In the present study, we examined the transcriptional and translational expression of microcalpain (microcalpain) and millicalpain (mcalpain) isoforms and the endogenous inhibitor calpastatin in rat and bovine spinal cord, brain stem, cerebellum, and cerebral cortex tissues using reverse transcriptase-polymerase chain reaction (RT-PCR) and Western blotting. In rat central nervous system (CNS) samples, the microcalpain and mcalpain transcriptional expression was highest in white matter-enriched areas. Calpastatin mRNA expression demonstrated no significant differences among the CNS areas. Calpain and calpastatin translational expression levels were greatest in the spinal cord. In bovine CNS, microcalpain transcriptional expression was greatest in the spinal cord, while other CNS regions showed no significant differences. Bovine mcalpain transcriptional expression was similar among various CNS regions but marginally greater in the cortex. Translational expression of bovine calpain was greatest in the brain stem, while that of calpastatin was highest in the cerebral cortex. These results indicate that calpain expression varies among different CNS regions and is often highest in white matter-enriched areas.
The effect of indomethacin, a non-steroidal anti-inflammatory drug upon purified calpain has been studied. Also, its effects upon Ca2+-mediated degradation of cytoskeletal proteins (neurofilament) in spinal cord homogenate has been investigated. A dose-dependent inhibition of purified calpain activity was observed. A 50% inhibition of 14C-caseinolytic activity was obtained with less than 1.1 mM of indomethacin while the activity was completely inhibited at 3.3 mM concentration. The inhibitory effect of ketorlac, another non-steroidal anti-inflammatory drug, upon calpain was weaker than that of indomethacin. The degradation of myelin basic protein (MBP) by cathepsin B, a lysosomal cysteine protease, was significantly inhibited by indomethacin. It also inhibited the Ca2+-mediated degradation of neurofilament protein (NFP) in spinal cord homogenate. The extent of NFP degradation was analyzed by SDS-PAGE and the inhibition shown by indomethacin was weaker than that observed with leupeptin and the calpain inhibitor E64-d. The inhibitory effect of indomethacin on the activity of multicatalytic proteinase complex was negligible. These results suggest that indomethacin, a non-steroidal anti-inflammatory drug and cyclooxygenase inhibitor also inhibits proteinases, including cathepsin B and calpain.
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