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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Ca²⁺-mobilizing agonists increase mitochondrial ATP production to accelerate cytosolic Ca²⁺ removal: aberrations in human complex I deficiency

Departments of ¹Biochemistry, ²Pediatrics, and ⁴Medical Microbiology and ³Microscopical Imaging Centre of the Nijmegen Centre for Molecular Life Sciences, Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands

Submitted 2 November 2005 ; accepted in final form 8 March 2006

Previously, we reported that both the bradykinin (Bk)-induced increase in mitochondrial ATP concentration ([ATP]_M) and the rate of cytosolic Ca²⁺ removal are significantly decreased in skin fibroblasts from a patient with an isolated complex I deficiency. Here we demonstrate that the mitochondrial Ca²⁺ indicator rhod-2 can be used to selectively buffer the Bk-induced increase in mitochondrial Ca²⁺ concentration ([Ca²⁺]_M) and, consequently, the Ca²⁺-stimulated increase in [ATP]_M, thus allowing studies of how the increase in [ATP]_M and the cytosolic Ca²⁺ removal rate are related. Luminometry of healthy fibroblasts expressing either aequorin or luciferase in the mitochondrial matrix showed that rhod-2 dose dependently decreased the Bk-induced increase in [Ca²⁺]_M and [ATP]_M by maximally 80 and 90%, respectively. Digital imaging microscopy of cells coloaded with the cytosolic Ca²⁺ indicator fura-2 revealed that, in parallel, rhod-2 maximally decreased the cytosolic Ca²⁺ removal rate by 20%. These findings demonstrate that increased mitochondrial ATP production is required for accelerating cytosolic Ca²⁺ removal during stimulation with a Ca²⁺-mobilizing agonist. In contrast, complex I-deficient patient fibroblasts displayed a cytosolic Ca²⁺ removal rate that was already decreased by 40% compared with healthy fibroblasts. Rhod-2 did not further decrease this rate, indicating the absence of mitochondrial ATP supply to the cytosolic Ca²⁺ pumps. This work reveals the usefulness of rhodamine-based Ca²⁺ indicators in examining the role of intramitochondrial Ca²⁺ in mitochondrial (patho) physiology.

human skin fibroblast; OXPHOS disease; calcium ion extrusion; rhod-2; CGP-37157

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