by Ana María Rodríguez, Baylor College of Medicine

Modulation of thermoneutral temperature during and after reproduction. Credit: Molecular Metabolism (2025). DOI: 10.1016/j.molmet.2025.102108

Mothers experience major metabolic adaptations during pregnancy and lactation to support the development and growth of new life. Although many metabolic changes have been studied, body temperature regulation and environmental temperature preference during and after pregnancy remain poorly understood.

Researchers at Baylor College of Medicine and collaborating institutions report in the journal Molecular Metabolism that postpartum female mice develop new environmental temperature preferences and reveal brain changes mediating these changes.

“In both humans and mice, body temperature increases during early pregnancy, drops to normal temperature during late pregnancy and then goes up again during lactation,” said co-corresponding author Dr. Chunmei Wang, assistant professor of pediatrics at USDA/ARS Children’s Nutrition Research Center at Baylor.

In this study, Wang and her colleagues investigated what changes occurred in the brain that mediated the new temperature preference.

“We worked with mice and found that female mice prefer a cooler environment starting from late pregnancy and persisting in long-term postpartum,” Wang said. “For more than four weeks post-weaning, female mice had a lower body temperature and preferred cooler environments; they lost their typical preference for warm environments (30 °C/86 °F) but still avoided cold environments (15 °C/59 °F).”

To identify the biological underpinnings of these changes, the researchers studied the preoptic area (POA), a brain region important for sensing and regulating body temperature.

“We discovered that the change in temperature preference in postpartum female mice was associated with a significant decrease in a particular group of neurons, estrogen receptor alpha (ERα)-expressing neurons in the preoptic area of the brain (ERαPOA neurons),” Wang said.

Supporting this finding, the researchers found that virgin females in which the estrogen receptor alpha had been deleted in ERαPOA neurons also preferred lower temperatures and avoided warmer locations, mimicking postpartum females.

Looking closely into the ERαPOA neurons, the researchers found that these neurons vary in their ability to sense warm or cold temperatures—one group of ERαPOA neurons can directly respond to warmth, while another group responds to cooler temperatures.

“Interestingly, compared to female mice that had not been pregnant, ERαPOA neurons of postpartum females had reduced response to warmth and an enhanced response to cold,” Wang said.

Together, the results support that the ability of ERαPOA neurons to sense warmth and cold is regulated by reproductive experience and leads to changes in temperature preferences that alter the animal’s warmth-seeking behavior. Currently, the researchers are exploring the function of each group of ERαPOA neurons on the regulation of body temperature and thermal preference.

More information: Nan Zhang et al, Altered thermal preference by preoptic estrogen receptor alpha neurons in postpartum females, Molecular Metabolism (2025). DOI: 10.1016/j.molmet.2025.102108

Journal information:Molecular Metabolism

Provided by Baylor College of Medicine

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