Hyperthermia modulates the effect of Ca2+ overload on respiration and NAD(P)H fluorescence in rat heart mitochondria

  • Rasa Žūkienė
  • Arvydas Dapkūnas
  • Paulius Čižas
  • Odeta Buzaitė
  • Zita Naučienė
  • Rasa Banienė
  • Ursula Zabarylo
  • Olaf Minet
  • Vida Mildažienė

Anotacija

We have compared the effect of moderate heating (42 and 45 °C) on the respiration and NAD(P)H fluorescence in isolated rat heart mitochondria incubated at two different Ca2+ concentrations (1 and 10 μM). The main effect of temperature elevation above the physiological level is an increased permeability of the inner mitochondrial membrane. This effect is pronounced at 42 °C and is followed by the secondary consequences – partial uncoupling, deenergizing, decrease in NAD(P)H and in the efficiency of oxidative phosphorylation. Although less effectively, mitochondria are capable to perform energy transformation at 42 °C. This ability is almost completely lost when the temperature is raised from 42 to 45 °C. At this temperature, mitochondria are Almos completely uncoupled, they do not maintain the membrane potential and NAD(P)H/NAD(P)+ equilibrium, hardly phosphorylate, and their respiratory chain is inhibited (the latter effect is more pronounced for glutamate + malate, but also evident for pyruvate + malate oxidation). Moderate heating significantly and progressively reduced the impairment of mitochondrial function by Ca2+ overload. In comparison to the high energy state at 37 °C, Ca2+ effect on respiration is much smaller in partially deenergized mitochondria at 42 °C and minimized at 45 °C when oxidative phosphorylation is almost completely uncoupled. Temperature effects are smoothened in Ca2+ overload (10 μM Ca2+) inhibited mitochondria in comparison to mitochondria respiring at the optimal 1 μM Ca2+ concentration. Keywords: hyperthermia, Ca2+ overload, heart mitochondria, NAD(P)H fluorescence
Publikuotas
2006-07-01
Skyrius
Biochemistry