Scientists reverse anxiety behaviors in mice by fixing brain circuit

Astrocytes—star-shaped glial cells long cast mainly as support staff for neurons—appear to actively shape how fear memories are learned, recalled and weakened, according to a mouse study published in Nature. The work suggests these cells help sustain the neural activity patterns that underlie fear expression, a finding that researchers say could eventually inform new approaches to anxiety-related disorders.

April 03, 2026 An Ruwaito ta hanyar AI An Binciki Gaskiya

MIT-led researchers report that a schizophrenia-associated mutation in the gene GRIN2A reduces activity in a mediodorsal thalamus–prefrontal cortex circuit that helps the brain update beliefs using new information. In experiments, mice carrying the mutation were slower to shift choices as reward conditions changed, and optogenetic activation of mediodorsal thalamus neurons made their behavior more similar to unaffected mice, the team reports in Nature Neuroscience.

A large study combining human brain imaging with data from genetically engineered mouse models has identified two recurring patterns of brain connectivity in autism—one marked by higher-than-typical connectivity and another marked by lower connectivity—each tied to different biological pathways, researchers report.

March 24, 2026 An Ruwaito ta hanyar AI An Binciki Gaskiya

Researchers working with the University of Auckland and Brazil’s University of São Paulo report that neurons in the medulla’s lateral parafacial (pFL) region—best known for helping drive forceful exhalations—also amplify sympathetic nerve activity and can raise blood pressure in an animal model of neurogenic hypertension. Inhibiting these neurons lowered blood pressure toward normal in hypertensive rats, findings published in Circulation Research.