Advanced Search
Submit Manuscript Advanced Search
Submit ManuscriptADVANCE ONLINE PUBLICATION |
Social status impacts T-cell responses through synapse strength in the prefrontal cortex
Hui Xiong1,2,† , Daniel Amado-Ruiz1,2,† , Tessa R. Lodder1,2 , Mireille Toebes3 , Ton N. Schumacher3 , Hailan Hu4,* , Helmut W. Kessels1,2,*
1Department of Cellular and Circuit Neuroscience, Swammerdam Institute for Life Sciences, Amsterdam Neuroscience, University of Amsterdam, Amsterdam, The NetherlandsSocial status affects health by influencing the capacity of the immune system to respond to infection and disease. However, the neuronal mechanisms that explain how social status causes individual differences in immunity are unknown. In this study, we observed that among social groups of four male mice, those ranked second in the hierarchy displayed, on average, superior T-cell responses upon vaccination. The greater T-cell responses in second-ranked mice were dependent on synaptic communication ability in the brain. The brain circuits that control position in the social hierarchy are beginning to emerge, with the dorsomedial prefrontal cortex (dmPFC) as a central player. We found that selectively increasing the strength of dmPFC synapses or increasing the activity of dmPFC neurons was sufficient to boost antigen-specific T-cell percentages in response to vaccination. These findings reveal a causal link between the dmPFC and the peripheral immune system, enriching our understanding of the origin of health problems caused by social inequality.
https://doi.org/10.1038/s41422-026-01235-7
