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  • Title: The relationship between extramitochondrial Ca2+ concentration, respiratory rate, and membrane potential in mitochondria from brown adipose tissue of the rat.
    Author: Nedergaard J.
    Journal: Eur J Biochem; 1983 Jun 01; 133(1):185-91. PubMed ID: 6852025.
    Abstract:
    The ability of isolated mitochondria from rat brown-adipose tissue to regulate extramitochondrial Ca2+ (measured by arsenazo) was studied in relation to their ability to produce heat (measured polarographically). The energetic state of the mitochondria was expressed as a membrane potential, delta psi (estimated with safranine), and was varied semi-physiologically by the use of different GDP concentrations. In these mitochondria GDP binds to the 32-kDa polypeptide, thermogenin, which regulates coupling. Ca2+ uptake (at 5 microM extramitochondrial Ca2+) was maximal at delta psi greater than 150 mV. Basal Ca2+ release increased from 1 to 2 nmol x min-1 x mg-1 below 150 mV. Na+ -stimulated rate of Ca2+ release was stable within the investigated delta psi span (100-160 mV). Initial Ca2+ levels were maintained below 0.2 microM for 100 mV less than delta psi less than 160 mV. Ca2+ levels maintained after Ca2+ challenge (20 nmol Ca2+ x mg-1) were below 0.4 microM for delta psi greater than 135 mM. Respiration was unstimulated for delta psi greater than 150 mV and was maximal at delta psi less than or equal to 135 mV. In the presence of well-oxidised substrates, the respiration at maximally activated thermogenin was markedly below fully uncoupled respiration and was probably limited by thermogenin activity--i.e. by a limited H+ reentry (OH- exit) and therefore by a membrane potential maintained at about 135 mV. It is concluded that at membrane potentials of 135 mV and above the mitochondria exhibit full Ca2+ control and are able to regulate thermogenic output up to maximum without interfering with this Ca2+ control. Membrane potential probably does not decrease below 135 mV in vivo. Therefore, Ca2+ homeostasis and thermogenesis are non-interfering and can be hormonally independently regulated, e.g. by alpha-adrenergic and beta-adrenergic stimuli, respectively.
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