The role of mitochondria and mitochondrial hormone receptors on the bioenergetic adaptations to lactation

Abstract

The most recognized role of mitochondria is producing more than 90% of the total cellular energy in the form of ATP. In addition, mitochondrial function encompasses the maintenance of antioxidant balance, the regulation of intracellular calcium concentrations, the progression of cell death, and the biosynthesis of purines, hemes, lipids, amino acids and steroid hormones. Mitochondria are also important hormone targets. Estrogens, progestagens, and prolactin, are among the hormones that can impact mitochondrial function and modulate the underlying adaptations to changing bioenergetic and metabolic needs. Lactation represents a metabolic challenge with significant increases in energy requirements and fluctuating levels of hormones. To meet these bioenergetic demands, liver mitochondria increase their state 3 and 4 respiration, adjust superoxide dismutase activity, and elevate succinate dehydrogenase-related respiration. Skeletal muscle mitochondria respond by increasing their respiratory control ratio and adjusting catalase activity. In this review, these adaptations are described considering the lactation hormonal milieu.

Keywords: Estrogens; Lactation; Mitochondria; Mitochondrial hormone receptors; Progesterone; Prolactin.