Mitf regulates gene expression networks implicated in B cell homeostasis, germinal center responses, and tolerance
Abhimanyu Amarnani, Maria Lopez-Ocasio, Ramile Dilshat, Kamala Anumukonda, Jonathan Davila, Nikita Malakhov, Chongmin Huan, Erna Magnusdottir, Eirikur Steingrimsson, Christopher A. Roman

TL;DR
This study shows that the Mitf gene controls B cell behavior and prevents autoimmunity by regulating specific genes and pathways.
Contribution
The study identifies novel Mitf target genes and clarifies its distinct role from related MiT transcription factors in B cell regulation.
Findings
Mitf deficiency in B cells leads to splenomegaly, autoantibodies, and lupus-like symptoms.
Mitf regulates genes like Socs6, Isp53, S1pR2, and IgG2b/c involved in B cell cycle and differentiation.
Mitf null B cells show type I interferon dysregulation not seen in TDN-B cells.
Abstract
The microphthalmia transcription factor Mitf has been shown to regulate B cell activation and tolerance. However, the underlying B cell-specific mechanisms responsible, and those that distinguish Mitf from closely related Mitf/TFE (MiT) transcription factors Tfe3, Tfeb, and Tfec, remain obscure. Two complementary mouse models of Mitf and MiT deficiency were used: the Mitfmi-vga9/mi-vga9 systemic loss-of-function mutation, and B-cell specific MiT family inactivation via transgenic expression of a trans-dominant negative (TDN) protein (TDN-B). These models were employed to identify MiT family candidate target genes and pathways. Both models displayed spontaneous splenomegaly coincident with elevated plasma cell numbers, autoantibody titers, and proteinuria. These abnormalities appeared dependent on T helper cells, but independent of other non-B cell intrinsic effects of systemic Mitf…
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Taxonomy
Topicsmelanin and skin pigmentation · Cytomegalovirus and herpesvirus research · Neutrophil, Myeloperoxidase and Oxidative Mechanisms
