Dynamic fibroblast-immune interactions shape wound healing after brain injury

Ewing-Crystal, Nathan A.; Mroz, Nicholas M.; Chang, Anthony A.; Merrill, Eric Dean; Caryotakis, Sofia E.; Teo, Leon; Larpthaveesarp, Amara; Tsukui, Tatsuya; Katewa, Aditya; Pennington, Remy; McKinsey, Gabriel L.; Nelson, Sophia; Ciesielska, Agnieszka; Dahlgren, Madelene W.; Paidassi, Helena; Jain, Saket; Aghi, Manish K.; Bourne, James A.; Paz, Jeanne T.; Gonzalez, Fernando F.; Sheppard, Dean; Molofsky, Anna V.; Arnold, Thomas D.; Molofsky, Ari B.

doi:10.1101/2024.03.13.584873

2024

DOI: 10.1101/2024.03.13.584873

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Dynamic fibroblast-immune interactions shape wound healing after brain injury

Nathan A. Ewing-Crystal,

Nicholas M. Mroz,

Anthony A. Chang

et al.

Abstract: Fibroblasts coordinate the response to tissue injury, directing organ regeneration versus scarring. In the central nervous system (CNS), fibroblasts are uncommon cells enriched at tissue borders, and their molecular, cellular, and functional interactions after brain injury are poorly understood. Here we define the fibroblast response to sterile brain damage across time and space. Early pro-fibrotic myofibroblasts infiltrated CNS lesions and were functionally and spatially organized by fibroblast TGFβsignaling,… Show more

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Type 1 lymphocytes and interferon-γ accumulate in the thalamus and restrict seizure susceptibility after traumatic brain injury

Mroz,

Ciesielska,

Ewing-Crystal

et al. 2024

Preprint

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Traumatic brain injury (TBI) is a leading cause of mortality and disability worldwide and can lead to secondary sequelae such as increased seizure susceptibility. Emerging work suggests that the thalamus, the relay center of the brain that undergoes secondary damage after cortical TBI, is involved with heightened seizure risks after TBI. TBI also induces the recruitment of peripheral immune cells, including T cells, to the site(s) of injury, but it is unclear how these cells impact neurological sequelae post-TBI. Here, we characterize the identities and kinetics of lymphocytic infiltrates into the cortex and thalamus using a mouse model of cortical TBI. We identify a population of IFNγ-producing type 1 lymphocytes that infiltrate specific thalamic subregions over weeks following injury, where they elicit a local IFNγ response in microglia and neuronal subset(s). Depletion of CD4+T cells protects mice from TBI-induced seizure susceptibility by de-repressing other non-CD4+type 1 lymphocytes and disease-associated microglia (DAMs) in the thalamus. Strikingly, we find that a single dose of IFNγ prior to challenge with a proconvulsant agent was sufficient to reduce TBI-induced seizure incidence, severity, and mortality. This work identifies IFNγ as a direct modulator of TBI-associated seizure susceptibility, which could have therapeutic implications for the treatment of TBI patients.

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Type 1 lymphocytes and interferon-γ accumulate in the thalamus and restrict seizure susceptibility after traumatic brain injury

Mroz,

Ciesielska,

Ewing-Crystal

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Dynamic fibroblast-immune interactions shape wound healing after brain injury

Cited by 1 publication

References 98 publications

Type 1 lymphocytes and interferon-γ accumulate in the thalamus and restrict seizure susceptibility after traumatic brain injury

Type 1 lymphocytes and interferon-γ accumulate in the thalamus and restrict seizure susceptibility after traumatic brain injury

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