The germinal center (GC) dark zone (DZ) and light zone represent distinct anatomical regions in lymphoid tissue where B cell proliferation, immunoglobulin diversification, and selection are coordinated. Diffuse large B cell lymphomas (DLBCLs) with DZ-like gene expression profiles exhibit poor outcomes, though the reasons are unclear and are not directly related to proliferation. Physiological DZs exhibit an exclusion of T cells, prompting exploration of whether T cell paucity contributes to DZ-like DLBCL. We used spatial transcriptomic approaches to achieve higher resolution of T cell spatial heterogeneity in the GC and to derive potential pathways that underlie T cell exclusion. We showed that T cell exclusion from the DZ was linked to DNA damage response (DDR) and chromatin compaction molecular features characterizing the spatial DZ signature, and that these programs were independent of activation-induced cytidine deaminase (AID) activity. As ATR is a key regulator of DDR, we tested its role in the T cell inhibitory DZ transcriptional imprint. ATR inhibition reversed not only the DZ transcriptional signature, but also DZ T cell exclusion in DZ-like DLBCL in vitro microfluidic models and in in vivo samples of murine lymphoid tissue. These findings highlight that ATR activity underpins a physiological scenario of immune silencing. ATR inhibition may reverse the immune-silent state and enhance T cell-based immunotherapy in aggressive lymphomas with GC DZ-like characteristics.
Aggressive B cell lymphomas retain ATR-dependent determinants of T cell exclusion from the germinal center dark zone / V. Cancila, G. Bertolazzi, A.S. Chan, G. Medico, G. Bastianello, G. Morello, D. Paysan, C. Lai, L. Hong, G. Shenoy, P.W. Jaynes, G. Schiavoni, F. Mattei, S. Piconese, M.V. Revuelta, F. Noto, L. Businaro, A. De Ninno, I. Cammarata, F. Pagni, S. Venkatachalapathy, S. Sangaletti, A. Di Napoli, G. Cicio, D. Vacca, S. Lonardi, L. Lorenzi, A.J. Ferreri, B. Belmonte, M. Liu, M. Lakshmanan, M.S. Ong, B. Zhang, T. See, K. Lam, G. Varano, M.P. Colombo, S. Bicciato, G. Inghirami, L. Cerchietti, M. Ponzoni, R. Zappasodi, E. Metzger, J. Beechem, F. Facchetti, M. Foiani, S. Casola, A.D. Jeyasekharan, C. Tripodo. - In: THE JOURNAL OF CLINICAL INVESTIGATION. - ISSN 1558-8238. - 135:18(2025 Sep), pp. 1-15. [10.1172/JCI187371]
Aggressive B cell lymphomas retain ATR-dependent determinants of T cell exclusion from the germinal center dark zone
G. Bastianello;M. Foiani;S. Casola
;C. Tripodo
Ultimo
2025
Abstract
The germinal center (GC) dark zone (DZ) and light zone represent distinct anatomical regions in lymphoid tissue where B cell proliferation, immunoglobulin diversification, and selection are coordinated. Diffuse large B cell lymphomas (DLBCLs) with DZ-like gene expression profiles exhibit poor outcomes, though the reasons are unclear and are not directly related to proliferation. Physiological DZs exhibit an exclusion of T cells, prompting exploration of whether T cell paucity contributes to DZ-like DLBCL. We used spatial transcriptomic approaches to achieve higher resolution of T cell spatial heterogeneity in the GC and to derive potential pathways that underlie T cell exclusion. We showed that T cell exclusion from the DZ was linked to DNA damage response (DDR) and chromatin compaction molecular features characterizing the spatial DZ signature, and that these programs were independent of activation-induced cytidine deaminase (AID) activity. As ATR is a key regulator of DDR, we tested its role in the T cell inhibitory DZ transcriptional imprint. ATR inhibition reversed not only the DZ transcriptional signature, but also DZ T cell exclusion in DZ-like DLBCL in vitro microfluidic models and in in vivo samples of murine lymphoid tissue. These findings highlight that ATR activity underpins a physiological scenario of immune silencing. ATR inhibition may reverse the immune-silent state and enhance T cell-based immunotherapy in aggressive lymphomas with GC DZ-like characteristics.
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