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Selective HDAC6 Inhibition in Systemic Lupus Erythematosus
Vieson, Miranda Diane
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Systemic lupus erythematosus (SLE) is a prototypic autoimmune disease characterized by abnormalities in multiple components of the immune system resulting in progressive damage to multiple organs. Current treatments for SLE are often intensive and result in side effects and the potential for continued flares and progression of disease. Histone deacetylase (HDAC) enzymes control multiple cellular functions by removing acetyl groups from lysine residues in various proteins. HDAC inhibitors have been investigated as a potential treatment for SLE with promising results, however selective HDAC6 inhibition (HDAC6i) has become a leading candidate for pharmacologic inhibition to reduce the potential for side effects. We hypothesize that HDAC6i will decrease SLE disease by targeting substrates of HDAC6 in multiple components of immunity and organ systems. NZB/W mice were treated with ACY-738 or ACY-1083, followed by evaluation of multiple disease parameters and mechanisms involved in disease pathogenesis within the kidney, bone marrow, and spleen. Within the kidney, HDAC6i decreased glomerular pathology scores, proteinuria, and IgG and C3 deposition. Within glomerular cells, HDAC6i increased alpha-tubulin acetylation and decreased nuclear NF-κB. Within the spleen, there was a dose-dependent decrease in the frequency of Th17 cells and a mild decrease in the frequency of Treg cells. Concurrently, there were decreased levels of IL-12/IL-23 and minimal decreases in TGF-β in the serum. Within the bone marrow, B cell development through Hardy fractions exhibited accelerated progression through later stages as NZB/W mice aged. This accelerated progression may allow B cells to bypass important regulatory checkpoints in maintaining immune tolerance and contribute to autoimmunity. Treatment with an HDAC6i corrected the aberrant B cell development in the bone marrow and RNAseq analysis unveiled six genes (Cebpb, Ccr9, Spib, Nfil3, Lgals1, and Pou2af1) that may play a role in the aforementioned abnormalities. Overall, these findings show that HDAC6i decreased disease in NZB/W mice by targeting multiple components of the immune response, including glomerular cells, T cell subsets in the spleen, and bone marrow B cells. In conclusion, selective HDAC6i is an excellent candidate for pharmacologic therapy for SLE because it targets multiple immune abnormalities involved in SLE pathogenesis while remaining selective and safe.
- Doctoral Dissertations