Endotoxemia impairs heart mitochondrial function by decreasing electron transfer, ATP synthesis and ATP content without affecting membrane potential.

VANASCO V; MAGNANI ND; CIMOLAI MC; VALDEZ LB; EVELSON P; BOVERIS A; ALVAREZ S

JOURNAL OF BIOENERGETICS AND BIOMEMBRANES

SPRINGER/PLENUM PUBLISHERS

Lugar: New York; Año: 2012 vol. 44 p. 243 - 252

0145-479X

Acute endotoxemia (LPS, 10 mg/kg ip, Sprague Dawley rats, 45 days old, 180 g) decreased the O2 consumption of rat heart (1 mm3 tissue cubes) by 33% (from 4.69 to 3.11 μmol O2/min. g tissue). Mitochondrial O2 consumption and complex I activity were also decreased by 27% and 29%, respectively. Impaired respiration was associated to decreased ATP synthesis (from 417 to 168 nmol/min. mg protein) and ATP content (from 5.40 to 4.18 nmol ATP/mg protein), without affecting mitochondrial membrane potential. This scenario is accompanied by an increased production of O2●− and H2O2 due to complex I inhibition. The increased NO production, as shown by 38% increased mtNOS biochemical activity and 31% increased mtNOS functional activity, is expected to fuel an increased ONOO− generation that is considered relevant in terms of the biochemical mechanism. Heart mitochondrial bioenergetic dysfunction with decreased O2 uptake, ATP production and contents may indicate that preservation of mitochondrial function will prevent heart failure in endotoxemia.