Developmental regulation of fetal mitochondrial respiratory function towards term: the role of glucocorticoid and thyroid hormones.

Mitochondria are unique intracellular organelles that have their own DNA and are inherited intact in the oocyte. They have multiple functions, the most important of which is producing energy in the form of ATP by oxidative phosphorylation (OXPHOS) using a range of metabolic substrates. As energy requirements increase with intrauterine growth and the onset of new postnatal functions at birth, mitochondria develop structurally and functionally in utero to meet these energy demands. In part, the developmental and prepartum maturational changes in mitochondrial OXPHOS capacity depend on the endocrine environment and the natural rise in the fetal concentrations of hormones, such as cortisol and tri-iodothyronine (T3), towards term. This review discusses the development of mitochondrial respiratory function during late gestation with an emphasis on tissue OXPHOS capacity. It considers the role of cortisol and thyroid hormones, in particular, in the intrauterine development and prepartum maturation of mitochondrial OXPHOS capacity in preparation for extrauterine life. Finally, it briefly examines the potential longer-term consequences of abnormal hormonal exposure before birth on mitochondrial OXPHOS function later in postnatal life. Endocrine regulation of mitochondrial OXPHOS in the fetus is shown to be multifactorial, dynamic and tissue specific with a central role in determining functional development. It optimises energetics for survival both in utero and at birth and has implications for adult metabolic fitness and the inheritance of mitochondrial phenotype.