Neonatal cardiac mitochondria and ischemia/reperfusion injury.

Postnatal maturation of the heart is characterized by decreasing tolerance to ischemia/reperfusion (I/R) injury associated with significant changes in mitochondrial function. The aim of this study is to test the hypothesis that the role of the mitochondrial membrane permeability transition pore (MPTP) in the I/R injury differs in the neonatal and in the adult heart. For this purpose, the effect of blockade of MPTP on the degree of I/R injury and the sensitivity of MPTP to swelling-inducing agents was compared in hearts from neonatal (7 days old) and adult (90 days old) Wistar rats. It was found that the release of NAD(+) from the perfused heart induced by I/R can be prevented by sanglifehrin A (SfA) only in the adult myocardium; SfA had no protective effect in the neonatal heart. Furthermore, the extent of Ca-induced swelling of mitochondria from neonatal rats was significantly lower than that from the adult animals; mitochondria from neonatal rats were more resistant at higher concentrations of calcium. In addition, not only the extent but also the rate of calcium-induced swelling was about twice higher in adult than in neonatal mitochondria. The results support the idea that lower sensitivity of the neonatal MPTP to opening may be involved in the mechanism of the higher tolerance of the neonatal heart to I/R injury.

Expression of mitochondrial uncoupling protein 3 and adenine nucleotide translocase 1 genes in developing rat heart: putative involvement in control of mitochondrial membrane potential.

Postnatal maturation of the heart depends on the switch from glycolytic to oxidative metabolism and it is associated with decreasing tolerance to oxygen deprivation. Therefore, changes in composition and function of cardiac mitochondria during postnatal development require detailed characterization. Left-ventricular myocardium of prenatal, and 1-, 2-, 5-, 10-, 20-, 28-, 50-, 60-, and 90-d-old male Wistar rats was studied. The expression of uncoupling proteins (UCPs), adenine nucleotide translocase (ANT), and peroxisome proliferator-activated receptor alpha (PPARalpha) genes was characterized by northern blotting (UCP2), real-time quantitative RT-PCR (UCP2, UCP3, ANT1, ANT2, and PPARalpha), and by immunoblotting (UCP3). In isolated mitochondria, cytochromes a + a(3) were quantified by a spectrophotometry, and mitochondrial membrane potential (MMP) was measured using Rhodamine 123 (by spectrofluorimetry and flow cytometry). The specific content of cytochromes in mitochondria increased two-fold between birth and day 30, similarly, as the expression of ANT1 and PPARalpha genes. Postnatal activation in the expression of UCP2, UCP3, ANT1 and PPARalpha genes resulted in the expression maxima between days 20 and 30. The content/expression declined following day 20 (UCP2, UCP3, and PPARalpha) or 30 (cytochromes and ANT1), while expression of ANT2 declined continuously during the first month of life. In 1-d-old animals a single population of mitochondria with a relatively high MMP was observed; with increasing age, a second population of mitochondria with a significantly lower MMP appeared. The results support the view that mitochondrial energy conversion in heart changes during ontogeny and suggest the involvement of UCP3 and/or ANT1 in the control mechanism.