Membrane energization at subzero temperatures: calcium uptake and oxonol-V responses

The use of aprotic solvents for preserving the electron transport properties of mitochondria at subzero temperatures is based upon the use of binary water and ethylene glycol mixtures or upon ternary and quaternary mixtures that include dimethyl sulfoxide and the lower aliphatic alcohols. In order to better preserve the respiratory control properties of mitochondria at subzero temperatures, detailed studies have been made of the effects of these mixtures on the respiratory control and electron transport from NADH or succinate of mitochondrial preparations. It is found that ADP is not metabolized at a measurable rate below 0 °C, but that Ca²⁺ is rapidly taken up and can thus be used to assay respiratory control ratios down to ?8 °C. In the region below ?8 °C the charge-sensitive probe oxonol-V has been used to evaluate energy coupling. By using Ca²⁺ to stimulate respiration at 0 °C good results are obtained with ethylene glycol/water alone and optimal results are obtained with a quaternary mixture. A mixture that freezes at ?21 °C gives about 50% inhibition of the respiratory control ratio for electron transport at 0 °C with NADH or succinate as substrates. The mixtures permit low-temperature studies of mitochondrial functions under conditions of minimal respiratory rate, including the kinetics of electron transfer reactions, the formation of intermediate compounds, and the rapid freeze-trapping of mitochondrial reactions for analytical chemistry or ³¹P NMR.