Virendra K. Sharma scite author profile

Mitochondria in a variety of cell types respond to physiological Ca(2+) oscillations in the cytosol dynamically with Ca(2+) uptakes. In heart cells, mitochondrial Ca(2+) uptakes occur by a ruthenium red-sensitive Ca(2+) uniporter (CaUP), a rapid mode of Ca(2+) uptake (RaM) and a ryanodine receptor (RyR) localized in the inner mitochondrial membrane (IMM). Three subtypes of RyRs have been described and cloned, however, the subtype identity of the mitochondrial ryanodine receptor (mRyR) is unknown. Using subtype specific antibodies, we characterized the mRyR in the IMM from rat heart as RyR1. These results are substantiated by the absence of RyR protein in heart mitochondria from RyR1 knockout mice. The bell-shape Ca(2+)-dependent [(3)H]ryanodine binding curve and its modulation by caffeine and adenylylmethylenediphosphonate (AMPPCP) give further evidence that mRyR functions pharmacologically like RyR1. Ryanodine prevents mitochondrial Ca(2+) uptake induced by raising extramitochondrial Ca(2+) to 10 microM. Similarly, ryanodine inhibits oxidative phosphorylation stimulated by 10 microM extramitochondrial Ca(2+). In summary, our results show that the mRyR in cardiac muscle has similar biochemical and pharmacological properties to the RyR1 in the sarcoplasmic reticulum (SR) of skeletal muscle. These results could also suggest an efficient mechanism by which mitochondria sequesters Ca(2+) via mRyR during excitation-contraction coupling to stimulate oxidative phosphorylation for ATP production to meet metabolic demands. Thus, the mRyR functions as a transducer for excitation-metabolism coupling.

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WHO's 2013 global report on tuberculosis: successes, threats, and opportunities

Zumla

et al. 2013

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Association of Sorcin With the Cardiac Ryanodine Receptor

Meyers

Pickel

Sheu

et al. 1995

Journal of Biological Chemistry

151

125

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Sorcin is a 22-kDa calcium-binding protein initially identified in multidrug-resistant cells; however, its patterns of expression and function in normal tissues are unknown. Here we demonstrate that sorcin is widely distributed in rodent tissues, including the heart, where it was localized by immunoelectron microscopy to the sarcoplasmic reticulum. A >500-kDa protein band immunoprecipitated from cardiac myocytes by sorcin antiserum was indistinguishable in size on gels from the 565-kDa ryanodine receptor/calcium release channel recognized by ryanodine receptor-specific antibody. Association of sorcin with a ryanodine receptor complex was confirmed by complementary co-immunoprecipitations of sorcin with the receptor antibody. Forced expression of sorcin in ryanodine receptor-negative Chinese hamster lung fibroblasts resulted in accumulation of the predicted 22-kDa protein as well as the unexpected appearance of ryanodine receptor protein. In contrast to the parental host fibroblasts, sorcin transfectants displayed a rapid and transient rise in intracellular calcium in response to caffeine, suggesting organization of the accumulated ryanodine receptor protein into functional calcium release channels. These data demonstrate an interaction between sorcin and the ryanodine receptor and suggest a role for sorcin in modulation of calcium release channel activity, perhaps by stabilizing the channel protein.Sorcin was initially identified as a 22-kDa protein in cultured cells selected for resistance to natural product cancer drugs, such as vincristine, adriamycin, and actinomycin D, i.e. multidrug-resistant cells (1-5). One of the major mechanisms of resistance in these cells is mediated by overexpression of the membrane-bound drug transporter, P-glycoprotein (6). Molecular cloning studies demonstrated that the sorcin and P-glycoprotein genes are tightly linked and that both may be amplified during the acquisition of multidrug resistance. However, while P-glycoprotein overexpression correlates with resistance development, increased sorcin expression is not obligatory, and its abundance does not correlate with the degree of resistance (4 -9). Complementary DNA for sorcin has been isolated from hamster (2) and human (10) multidrug-resistant cells, which amplify the sorcin gene. The highly conserved sequence, with 95% homology between hamster and human sorcin, predicts a 22-kDa protein with four putative Ca 2ϩ

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