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Articles 1 - 3 of 3
Full-Text Articles in Biomedical Engineering and Bioengineering
Identity And Function Of A Cardiac Mitochondrial Small Conductance Ca2+-Activated K+ Channel Splice Variant, Meiying Yang, Amadou K. S. Camara, Mohammed Aldakkak, Wai-Meng Kwok, David F. Stowe
Identity And Function Of A Cardiac Mitochondrial Small Conductance Ca2+-Activated K+ Channel Splice Variant, Meiying Yang, Amadou K. S. Camara, Mohammed Aldakkak, Wai-Meng Kwok, David F. Stowe
Biomedical Engineering Faculty Research and Publications
We provide evidence for location and function of a small conductance, Ca2+-activated K+ (SKCa) channel isoform 3 (SK3) in mitochondria (m) of guinea pig, rat and human ventricular myocytes. SKCa agonists protected isolated hearts and mitochondria against ischemia/reperfusion (IR) injury; SKCa antagonists worsened IR injury. Intravenous infusion of a SKCa channel agonist/antagonist, respectively, in intact rats was effective in reducing/enhancing regional infarct size induced by coronary artery occlusion. Localization of SK3 in mitochondria was evidenced by Western blot of inner mitochondrial membrane, immunocytochemical staining of cardiomyocytes, and immunogold labeling of isolated mitochondria. …
Extra-Matrix Mg2+ Limits Ca2+ Uptake And Modulates Ca2+ Uptake-Independent Respiration And Redox State In Cardiac Isolated Mitochondria, Age D. Boelens, Ranjan K. Pradhan, Christoph A. Blomeyer, Amadou K.S. Camara, Ranjan K. Dash, David F. Stowe
Extra-Matrix Mg2+ Limits Ca2+ Uptake And Modulates Ca2+ Uptake-Independent Respiration And Redox State In Cardiac Isolated Mitochondria, Age D. Boelens, Ranjan K. Pradhan, Christoph A. Blomeyer, Amadou K.S. Camara, Ranjan K. Dash, David F. Stowe
Biomedical Engineering Faculty Research and Publications
Cardiac mitochondrial matrix (m) free Ca2+ ([Ca2+]m) increases primarily by Ca2+ uptake through the Ca2+ uniporter (CU). Ca2+ uptake via the CU is attenuated by extra-matrix (e) Mg2+ ([Mg2+]e). How [Ca2+]m is dynamically modulated by interacting physiological levels of [Ca2+]e and [Mg2+]e and how this interaction alters bioenergetics are not well understood. We postulated that as [Mg2+]e modulates Ca2+ uptake via the CU, it also alters bioenergetics in a matrix Ca2+–induced and …
Protection Against Cardiac Injury By Small Ca2 +-Sensitive K+ Channels Identified In Guinea Pig Cardiac Inner Mitochondrial Membrane, David F. Stowe, Ashish K. Gadicherla, Yifan Zhou, Mohammed Aldakkak, Qunli Cheng, Wai-Meng Kwok, Ming Tao Jiang, James S. Heisner, Meiying Yang, Amadou K.S. Camara
Protection Against Cardiac Injury By Small Ca2 +-Sensitive K+ Channels Identified In Guinea Pig Cardiac Inner Mitochondrial Membrane, David F. Stowe, Ashish K. Gadicherla, Yifan Zhou, Mohammed Aldakkak, Qunli Cheng, Wai-Meng Kwok, Ming Tao Jiang, James S. Heisner, Meiying Yang, Amadou K.S. Camara
Biomedical Engineering Faculty Research and Publications
We tested if small conductance, Ca2 +‐sensitive K+ channels (SKCa) precondition hearts against ischemia reperfusion (IR) injury by improving mitochondrial (m) bioenergetics, if O2‐derived free radicals are required to initiate protection via SKCa channels, and, importantly, if SKCa channels are present in cardiac cell inner mitochondrial membrane (IMM). NADH and FAD, superoxide (O2−), and m[Ca2 +] were measured in guinea pig isolated hearts by fluorescence spectrophotometry. SKCa and IKCa channel opener DCEBIO (DCEB) was given for 10 min and ended 20 min before IR. …