Ultrastructural changes in rabbit heart mitochondria during the perinatal period: Neonatal transition to aerobic metabolism

Abstract

Ultrastructural changes in mitochondria of rabbit left ventricular myocardial cells were measured during the interval from 3 days before to 4 days after birth. This interval is characterized by a transition from partially anaerobic to aerobic metabolism and by a concomitant increase in the work of contraction. Measurements were made by recently developed morphometric techniques [Smith, H. E., and Page, E. (1976). J. Ultrastruct. Res. 55, 31–41]. It was shown that the perinatal transition was associated with a rapid and large accumulation of mitochondria and myofibrils, reflected by increases of 29–35% and 37–41% in the mitochondrial and myofibrillar fractions of cell volume. The mitochondria thus accumulated were packed more densely with cristae. The membrane area of cristae + inner membrane per unit of mitochondrial volume rose from an antenatal value of 47 μm 2/μm 3 to a peak of 64 μm 2/μm 3 2 days after birth, then declined significantly. The relative and absolute increases in the membrane area and volume of respiratory membrane were associated with a relative decrease in matrix volume. These measurements also permitted the calculation of the area of mitochondrial respiratory membrane per unit myofibrillar volume. This physiologically important index, which relates the amount of ATP-producing membrane to the volume of the principal ATP-consuming organelle, increased progressively throughout the perinatal period.