In chronic beryllium disease (CBD), elevated levels of the inflammatory chemokines CCL3 and CCL4 in the lungs coincide with expanded populations of CD4+ T cells specific to beryllium (Be)-modified peptides derived from these chemokines. Here, we generated HLA-DP2 transgenic (Tg) CCL3-deficient mice (CCL3-/-) that also lack CCL4 to investigate their role in disease development. Be-exposed CCL3-/- mice maintained normal numbers of lung macrophages and dendritic cells (DCs) but exhibited significantly reduced total and HLA-DP2-CCL/Be tetramer-specific CD4+ T cells, IFN-γ-producing CD4+ T cells, and peribronchovascular aggregates, consistent with attenuated inflammation. CCL3 was predominantly expressed in macrophages and DCs, and bone marrow chimera studies confirmed that hematopoietic-derived DCs are the key regulators of CCL/Be-specific CD4+ T cell responses. RNA sequencing of lung-resident CCL4/Be tetramer-positive CD4+ T cells revealed a transcriptional profile enriched for inflammatory and cholesterol-metabolism pathways, with elevated expression of Ifng, Tnf, and Il17a. Moreover, Be-exposed HLA-DP2 Tg mice lacking TNF-α or treated with peptide-MHCII CAR-T cells targeting CCL4/Be-specific CD4+ T cells showed reduced T cell responses and cellular aggregates. These findings demonstrate that CCL3 and CCL4 promote CCL/Be-specific CD4+ T cell responses and highlight peptide-MHCII CAR-T cells as a novel strategy for depleting self-peptide/Be-specific CD4+ T cells in CBD.
Michael T. Falta, Masoom Raza, Caley J. Nevienski, Tonya M. Brunetti, Rui Fu, Rebecca M. Tucker, Joseph M. Gaballa, Faiz Minhajuddin, Kibrom M. Alula, Alberto Dinarello, Douglas G. Mack, Allison K. Martin, Joseph C. Onyiah, Michael Yarnell, Prashanth Francis, Terry J. Fry, Lisa A. Maier, Andrew P. Fontenot, Charles A. Dinarello, Shaikh M. Atif
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