The molecular mechanisms responsible for the heightened reactivity of quiescent T cells in human early life remain largely elusive. Our previous research identified that quiescent adult na & iuml;ve CD4(+) T cells express LINE1 (long interspersed nuclear elements 1) spliced in previously unknown isoforms, and their down-regulation marks the transition to activation. Here, we unveil that neonatal na & iuml;ve T cell quiescence is characterized by enhanced energy production and protein synthesis. This phenotype is associated with the absence of LINE1 expression attributed to tonic T cell receptor/mTOR complex 1 (mTORC1) signaling and (polypyrimidine tract-binding protein 1 (PTBP1)-mediated LINE1 splicing suppression. The absence of LINE1 expression primes these cells for rapid execution of the activation program by directly regulating protein synthesis. LINE1 expression progressively increases in childhood and adults, peaking in elderly individuals, and, by decreasing protein synthesis, contributes to immune senescence in aging. Our study proposes LINE1 as a critical player of human T cell function across the human life span.
LINE1 modulate human T cell function by regulating protein synthesis during the life span / F.V. Burattin, R. Vadalà, M. Panepuccia, V. Ranzani, M. Crosti, F.A. Colombo, C. Ruberti, E. Erba, D. Prati, T. Nittoli, G. Montini, A. Ronchi, L. Pugni, F. Mosca, S. Ricciardi, S. Abrignani, C. Pietrasanta, F. Marasca, B. Bodega. - In: SCIENCE ADVANCES. - ISSN 2375-2548. - 10:41(2024), pp. eado2134.1-eado2134.15. [10.1126/sciadv.ado2134]
LINE1 modulate human T cell function by regulating protein synthesis during the life span
F.V. BurattinPrimo
;M. Panepuccia;V. Ranzani;C. Ruberti;G. Montini;F. Mosca;S. Ricciardi;S. Abrignani;C. Pietrasanta;F. Marasca
Penultimo
;B. Bodega
Ultimo
2024
Abstract
The molecular mechanisms responsible for the heightened reactivity of quiescent T cells in human early life remain largely elusive. Our previous research identified that quiescent adult na & iuml;ve CD4(+) T cells express LINE1 (long interspersed nuclear elements 1) spliced in previously unknown isoforms, and their down-regulation marks the transition to activation. Here, we unveil that neonatal na & iuml;ve T cell quiescence is characterized by enhanced energy production and protein synthesis. This phenotype is associated with the absence of LINE1 expression attributed to tonic T cell receptor/mTOR complex 1 (mTORC1) signaling and (polypyrimidine tract-binding protein 1 (PTBP1)-mediated LINE1 splicing suppression. The absence of LINE1 expression primes these cells for rapid execution of the activation program by directly regulating protein synthesis. LINE1 expression progressively increases in childhood and adults, peaking in elderly individuals, and, by decreasing protein synthesis, contributes to immune senescence in aging. Our study proposes LINE1 as a critical player of human T cell function across the human life span.File | Dimensione | Formato | |
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