PURPOSE: The aim was to determine the effects of early and late endotoxemia on neonatal cardiac and renal mitochondrial energetics. METHODS: Suckling rats received intraperitoneal 300 microgram/kg lipopolysaccharide; controls received saline. Heart and kidney mitochondria were isolated after 2 hours (early) or 6 hours (late sepsis). State 3 (maximum mitochondrial flux) and 4 O(2) consumption and complex I activity were measured. Results, expressed as mean +/- SEM normalized to citrate synthase (CS), were compared using paired t tests. RESULTS: Mortality rate was zero within 2 hours, 2.7% between 2 and 6 hours of endotoxemia, and 100% 6 to 8 hours; therefore, we consider that 2 hours and 6 hours represent early and late endotoxemia, respectively. Endotoxic heart mitochondria had unaltered O(2) consumption at 2 hours but significantly decreased state 3 after 6 hours, resulting in significantly decreased respiratory control ratio. Complex I activity, which could affect O(2) consumption, was decreased significantly at 6 hours (9.8 +/- 0.6 mU/U CS; n = 15) versus controls (11.3 +/- 0.8, n = 15; P =.04), but not at 2 hours. There were no differences in these measurements at either 2 hours or 6 hours in kidney mitochondria. CONCLUSIONS: The respiratory chain is affected late in endotoxemia. Neither early nor late endotoxemia affects oxidative function of kidney mitochondria. Copyright 2003 Elsevier Inc. All rights reserved.
PURPOSE: The aim was to determine the effects of early and late endotoxemia on neonatal cardiac and renal mitochondrial energetics. METHODS: Suckling rats received intraperitoneal 300 microgram/kg lipopolysaccharide; controls received saline. Heart and kidney mitochondria were isolated after 2 hours (early) or 6 hours (late sepsis). State 3 (maximum mitochondrial flux) and 4 O(2) consumption and complex I activity were measured. Results, expressed as mean +/- SEM normalized to citrate synthase (CS), were compared using paired t tests. RESULTS: Mortality rate was zero within 2 hours, 2.7% between 2 and 6 hours of endotoxemia, and 100% 6 to 8 hours; therefore, we consider that 2 hours and 6 hours represent early and late endotoxemia, respectively. Endotoxic heart mitochondria had unaltered O(2) consumption at 2 hours but significantly decreased state 3 after 6 hours, resulting in significantly decreased respiratory control ratio. Complex I activity, which could affect O(2) consumption, was decreased significantly at 6 hours (9.8 +/- 0.6 mU/U CS; n = 15) versus controls (11.3 +/- 0.8, n = 15; P =.04), but not at 2 hours. There were no differences in these measurements at either 2 hours or 6 hours in kidney mitochondria. CONCLUSIONS: The respiratory chain is affected late in endotoxemia. Neither early nor late endotoxemia affects oxidative function of kidney mitochondria. Copyright 2003 Elsevier Inc. All rights reserved.
Authors: Kathryn A Seely; Joseph H Holthoff; Samuel T Burns; Zhen Wang; Keshari M Thakali; Neriman Gokden; Sung W Rhee; Philip R Mayeux Journal: Am J Physiol Renal Physiol Date: 2011-04-20
Authors: Francesca Porta; Jukka Takala; Christian Weikert; Hendrik Bracht; Anna Kolarova; Bernhard H Lauterburg; Erika Borotto; Stephan M Jakob Journal: Crit Care Date: 2006 Impact factor: 9.097