Caloric restriction and intermittent fasting during lactation are linked to impaired maternal care, increased impulsivity and amygdala redox imbalance in dams

Read the full article See related articles

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

The lactational period requires substantial metabolic and behavioral adaptations, and more than 70% of mothers report weight concerns and attempt weight loss by four months postpartum. Nevertheless, how distinct restrictive paradigms during lactation alter maternal behavior, and the extent to which associated neurochemical changes modulate these behaviors, remains poorly understood.

In the current study, we modeled restrictive diets in lactating rats to evaluate caregiving behavior and its relationship to amygdalar redox status. Intermittent fasting (IF) and caloric restriction (CR) administered to lactating Wistar dams from postpartum day 0 to day 28 impaired maternal care, evidenced by delayed pup retrieval, reduced nest building, and decreased nursing frequency relative to ad libitum -fed controls. Both diets reduced body and adipose tissue weight, and energy efficiency. IF and CR increased impulsivity-like phenotype: CR doubled open-arm exploration in the elevated plus maze; IF and CR increased center-zone exploration in the open field by three- and two-fold, respectively; IF doubled time in the light-dark box light compartment. A composite maternal behavioral score showed impairment in dams in both IF and CR groups. At the neurochemical level, both diets reduced amygdalar superoxide dismutase activity, which correlated negatively with the maternal behavioral score.

Both restrictive diets produced an underweight phenotype with weakened dam-pup interactions and increased impulsivity. These behavioral changes co-occurred with amygdalar redox imbalance, which correlated with the severity of maternal impairment. Overall, the study refines understanding of the nutritional and behavioral consequences of dietary restriction in lactation and implicates disrupted redox homeostasis as a plausible mechanism.

Article activity feed