Endocrine adaptations to demanding physiological states in ruminants.

Highly productive ruminants rely on hormonally driven adaptations to prioritize the use of limiting nutrients during the demanding phases of the pregnancy-lactation cycle. Glucose, the predominant oxidative fuel of fetal life and the absolute precursor of mammary lactose synthesis, illustrates the need and benefit of such adaptations. Endocrine mechanisms such as insulin resistance and/or hypoinsulinemia favor the diversion of maternal glucose to the placenta or mammary gland where uptake is independent of insulin.

Effects of the central melanocortin system on feed intake, metabolic hormones and insulin action in the sheep.

Voluntary feed intake is insufficient to meet the nutrient demands associated with late pregnancy in prolific ewes and early lactation in high-yielding dairy cows. Under these conditions, peripheral signals such as growth hormone and ceramides trigger adaptations aimed at preserving metabolic well-being. Recent work in rodents has shown that the central nervous system-melanocortin (CNS-MC) system, consisting of alpha-melanocyte-stimulating hormone (α-MSH) and agouti-related peptide (AGRP) acting respectively as agonist and antagonist on central MC receptors, contributes to the regulation of some of the same adaptations.

Inflammatory tone in liver and adipose tissue in dairy cows experiencing a healthy transition from late pregnancy to early lactation.

The transition from late pregnancy (LP) to early lactation (EL) in dairy cows is characterized by a major reorganization of the metabolic activities of liver and adipose tissue in support of milk synthesis. This reorganization has been attributed in large part to variation in the plasma concentration and actions of growth hormone, insulin, and other metabolic hormones. A role for the immune system has also been suggested by a near-universal rise in circulating levels of liver-derived acute-phase proteins (APP) in early lactating cows.

Fibroblast growth factor-21 improves insulin action in nonlactating ewes.

During metabolically demanding physiological states, ruminants and other mammals coordinate nutrient use among tissues by varying the set point of insulin action. This set point is regulated in part by metabolic hormones with some antagonizing (e.g.

Effects of birth weight and dietary fat on intake, body composition, and plasma thyroxine in neonatal lambs.

Intrauterine growth restriction (IUGR) is often observed in one of the fetuses carried by well-fed prolific ewes. This condition is the result of an insufficient placental size to cover the nutritional needs of the fetus during the near exponential growth phase of the last trimester. After birth, these IUGR offspring have an elevated appetite and lower maintenance energy requirements, suggesting dysregulation of homeostatic systems governing energy metabolism.