Lamin A/C regulates the compartment-specific contributions of immune and stromal cells to intestinal inflammation and colitis-associated colon cancer
Gomez-Bris, R.; Ortega-Zapero, M.; Herrero-Fernandez, B.; Fanjul, V.; de la Madrid de Vega, N.; Moran de Bustos, S.; Moreno-Aperribay, I.; Zorita, V.; Sanchez-Martinez, H.; Polari, L.; Usategui, A.; Amoros-Perez, M.; Gonzalo, P.; Voutilainen, M.; Kallajoki, M.; Vazquez, J.; Lopez, J. A.; Pablos, J. L.; Criado, G.; Arribas, S. M.; Silvestre Roig, C.; Sanchez-Madrid, F.; Andres, V.; Toivola, D. M.; Saez, A.; Gonzalez-Granado, J. M.
Show abstract
Inflammatory bowel disease (IBD) arises from dysregulated crosstalk between innate immune, adaptive immune, and stromal compartments, yet the compartment-specific mechanisms driving tissue injury and tumorigenesis remain incompletely defined. To address this gap, we used conditional knockout and overexpression mouse models together with human IBD biopsy analysis to dissect the compartment-specific roles of lamin A/C in intestinal inflammation and colitis-associated tumorigenesis. Pan-hematopoietic lamin A/C deletion attenuated acute dextran sulfate sodium (DSS)-induced colitis. Myeloid-specific lamin A/C deletion ameliorated chronic colitis and was associated with altered dendritic cell (DC) programs, enhanced regulatory T cell (Treg) responses, and reduced effector T cell activation. Adoptive transfer of lamin A/C-deficient bone marrow-derived DCs recapitulated this reduced-damage phenotype in DSS colitis, while proteomic profiling revealed reduced antigen-processing and inflammatory programs together with enhanced metabolic and mucosal defense pathways. T cell-specific lamin A/C deletion reduced the Th1/Treg ratio and limited tumor development by suppressing chronic inflammation, whereas T cell-specific lamin A/C overexpression promoted severe Th1-skewed pathology, sustained intestinal inflammation, and increased colitis-associated tumor burden. Stromal fibroblast-specific lamin A/C deletion generated a tissue-protective niche characterized by enhanced epithelial barrier gene expression, regulatory cytokine production, and remodeling of the local immune milieu. Human IBD biopsies revealed compartment-specific lamin A/C alterations consistent with the murine findings. In lamina propria CD3+; T cells, lamin A/C levels were blunted in IBD and associated with local histological severity rather than IBD diagnosis, whereas epithelial lamin A/C showed a steeper crypt-axis spatial gradient in a Crohn's disease-specific pattern. Together, these findings identify lamin A/C as a cell-type- and context-dependent regulator of intestinal inflammation and tumorigenesis.
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