EPITHELIAL MITOCHONDRIAL DYSFUNCTION IN CHRONIC POUCHITIS

Abstract

Abstract BACKGROUND Restorative proctocolectomy with ileal pouch-anal anastomosis (IPAA) is the surgical procedure of choice for patients with refractory ulcerative colitis (UC). However, patients with IPAA are at risk of pouch-related disorders like “pouchitis” with an incidence rate range from 20-50%. The underlying etiopathogenesis of pouchitis has been unclear, which makes management and treatment of active pouchitis difficult. Mitochondrial (Mito) dysfunction is commonly associated with pathogenesis of inflammatory bowel diseases (IBD). We posit the reduced Mito function contributes to chronic pouchitis in IPAA patients. In this study we performed comparative analysis of Mito complex levels in pouchitis patients compared to normal controls. METHODS Biopsies collected from ileal pouches +/- inflammation (n=6), and normal (n=3) and inflamed ileum (CD Ileitis; n=3 mean SES=5.2) were preserved in Allprotect® or formalin. Total RNA was extracted, cDNA synthesized and analyzed by RT-qPCR for genes specific for Mito biogenesis and complexes, cytokines and cellular antioxidant machinery. Formalin-fixed tissues were processed for IHC staining of Mito complex-I (NDUFB6) and complex-IV (MTCO1). RESULTS Transcriptomic analysis of active pouchitis tissue showed significant (**p<0.01) reduction of Mito biogenesis genes (PGC1α: 69.5±13.9%, TFAM: 48.7±14.5%, NRF1:48.9±17.7%) compared to normal pouch. Similar mRNA analysis in CD-ileitis showed 90.6±15.2% reduction in PGC1α gene (**p<0.01) and more than 62% reduction in TFAM and NRF1 genes compared normal ileum. We also observed 21.6±9.8% reduction in Mito complex I (Ndufa1, Ndufa4, Ndufb2, Ndufb6), 33.6±8.7% reduction in complex-IV (Cox5a Cox6a1, Cox5e) and 38.8±11.8% reduction in complex-V (ATP5a, ATP5b, ATP5e) in chronic pouchitis compared to normal controls. In contrast, CD-ileitis showed 59.5±10.2% reduction in Mito complexes at mRNA level compared to normal ileum. Altogether, CD-ileitis showed 26.3% and 23.8% reduction in Mito complexes and biogenesis genes, respectively, compared to pouchitis. At protein level, tissues from chronic pouchitis showed significantly reduced expression of NDUFB6 and MTCO1 compared to normal controls. However, the decreased expression of NDUFB6 and MTCO1 was more pronounced in active CD-ileitis patients. Concertedly, suppression of Mito biogenesis and complex genes correlated with upregulation of pro-inflammatory cytokines (IL1β and IL-6) and concomitant reduction of anti-oxidant genes (Sod1, Sod2, Gpx, Prdx-2,3,4,6). CONCLUSION These data indicate decreased levels of Mito complexes in pouchitis, although reductions are less prominent in active CD. We postulate that Mito dysfunction plays a role in the pathogenesis of chronic pouchitis after IPAA surgery in IBD patients. Furthermore, we posit mitochondria-targeted therapy may deliver therapeutic benefits in refractory pouchitis.