Rab4A inactivation in T cells blocks mTOR activation, pro-inflammatory lineage development, and disease pathogenesis in lupus-prone mice

Abstract

Abstract Introduction Expression of Rab4A is increased in T cells of patients and mice with SLE. Overexpression of Rab4A forms a positive feedback loop with mTOR that can be blocked with therapeutic efficacy in SLE. To determine the impact of this gene on disease development, the triple-congenic lupus-prone Sle1.2.3 mouse strain (TC) have been backcrossed with C57Bl/6 wild-type (WT) mice that carry floxed Rab4AQ72L (TC-FL) alleles or lack Rab4A in T cells (TC-KO). Methods Proteinuria was assessed by the Bradford assay. Splenocytes were examined by flow cytometry. Autoantibody production was measured by ELISA. Results TC mice had increased proteinuria over age and sex-matched WT controls. Deletion of Rab4A in T cells reduced proteinuria ≥ 50% in female TC-KO mice relative to TC-FL mice at 21 or 40 weeks of age. Similar trends were noted in male mice. The production of antinuclear and antiphospholipid antibodies was reduced in TC-KO mice as compared to TC-FL and parental TC controls. Immunophenotyping unveiled a 45% depletion of CD4+ T cells and 50% expansion of CD8+ T cells in female TC-KO mice relative to TC-FL controls. CD38 expression was reduced on CD4+ T cells of TC-KO mice by 51% and 48% relative to TC and TC-FL controls. CD38 expression was also reduced on CD8+ T cells but not on CD19+ B cells. mTORC1 activity was reduced by 36% in CD4 T cells, but not in CD8 T cells or B cells of TC-KO mice. Along these lines, overexpression of Rab4A activated mTORC1, reduced expression of CD4, and increased expression of CD38 in Jurkat cells. Conclusion These findings reveal an opposite influence of Rab4A on endosomal recycling of CD4 and CD38 that facilitates mTORC1 activation and thus causes pro-inflammatory T-cell lineage specification and triggers autoimmunity in SLE.