Toward once-monthly insulin therapy synergy in two pharmacokinetic protractors: Fc-conjugation and fatty acid acylation.

Pharmacokinetic properties and duration of therapeutic action of a pharmaceutical agent can be significantly extended through the combination of two distinct strategies aimed at increasing plasma half-life: fatty acid acylation and Fc-conjugation. Using insulin as a case study, we demonstrate that a doubly protracted insulin analog produces a substantial prolongation of pharmacodynamic effect to lower blood glucose in STZ-treated mice when compared to the Fc-only counterparts. This enhancement is further corroborated by direct pharmacokinetic measurements in rat and dog models, demonstrating the potential for once-monthly insulin therapy.

The central melanocortin system mediates the benefits of time-restricted feeding on energy balance.

Objective: Recent decades have seen a marked increase in the prevalence of obesity and its associated comorbidities. This increase correlates with greater access to calorie-dense food that is often consumed later in the active phase of the day. Studies in high-fat diet-induced obese (DIO) mice indicate that restricting food access to their active (dark) phase is sufficient to reduce obesity.

A Brain-Melanocortin-Vagus Axis Mediates Adipose Tissue Expansion Independently of Energy Intake.

The melanocortin system is a brain circuit that influences energy balance by regulating energy intake and expenditure. In addition, the brain-melanocortin system controls adipose tissue metabolism to optimize fuel mobilization and storage. Specifically, increased brain-melanocortin signaling or negative energy balance promotes lipid mobilization by increasing sympathetic nervous system input to adipose tissue.