Whole-exome sequencing uncovers oxidoreductases DHTKD1 and OGDHL as linkers between mitochondrial dysfunction and eosinophilic esophagitis
Joseph D. Sherrill, Kiran KC, Xinjian Wang, Ting Wen, Adam Chamberlin, Emily M. Stucke, Margaret H. Collins, J. Pablo Abonia, Yanyan Peng, Qiang Wu, Philip E. Putnam, Phillip J. Dexheimer, Bruce J. Aronow, Leah C. Kottyan, Kenneth M. Kaufman, John B. Harley, Taosheng Huang, Marc E. Rothenberg
Joseph D. Sherrill, Kiran KC, Xinjian Wang, Ting Wen, Adam Chamberlin, Emily M. Stucke, Margaret H. Collins, J. Pablo Abonia, Yanyan Peng, Qiang Wu, Philip E. Putnam, Phillip J. Dexheimer, Bruce J. Aronow, Leah C. Kottyan, Kenneth M. Kaufman, John B. Harley, Taosheng Huang, Marc E. Rothenberg
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Research Article Immunology Inflammation

Whole-exome sequencing uncovers oxidoreductases DHTKD1 and OGDHL as linkers between mitochondrial dysfunction and eosinophilic esophagitis

Abstract

Eosinophilic esophagitis (EoE) is an allergic inflammatory esophageal disorder with a complex underlying genetic etiology often associated with other comorbidities. Using whole-exome sequencing (WES) of 63 patients with EoE and 60 unaffected family members and family-based trio analysis, we sought to uncover rare coding variants. WES analysis identified 5 rare, damaging variants in dehydrogenase E1 and transketolase domain–containing 1 (DHTKD1). Rare variant burden analysis revealed an overabundance of putative, potentially damaging DHTKD1 mutations in EoE (P = 0.01). Interestingly, we also identified 7 variants in the DHTKD1 homolog oxoglutarate dehydrogenase-like (OGDHL). Using shRNA-transduced esophageal epithelial cells and/or patient fibroblasts, we further showed that disruption of normal DHTKD1 or OGDHL expression blunts mitochondrial function. Finally, we demonstrated that the loss of DHTKD1 expression increased ROS production and induced the expression of viperin, a gene previously shown to be involved in production of Th2 cytokines in T cells. Viperin had increased expression in esophageal biopsies of EoE patients compared with control individuals and was upregulated by IL-13 in esophageal epithelial cells. These data identify a series of rare genetic variants implicating DHTKD1 and OGDHL in the genetic etiology of EoE and underscore a potential pathogenic role for mitochondrial dysfunction in EoE.

Authors

Joseph D. Sherrill, Kiran KC, Xinjian Wang, Ting Wen, Adam Chamberlin, Emily M. Stucke, Margaret H. Collins, J. Pablo Abonia, Yanyan Peng, Qiang Wu, Philip E. Putnam, Phillip J. Dexheimer, Bruce J. Aronow, Leah C. Kottyan, Kenneth M. Kaufman, John B. Harley, Taosheng Huang, Marc E. Rothenberg

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Figure 10

Dysregulated EoE transcriptome genes in family 443.

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Dysregulated EoE transcriptome genes in family 443. Heatmap from RNA seq...
Heatmap from RNA sequencing of patient esophageal biopsies showing log2 fragments per kilobase of transcript per million mapped reads (FPKM) values for EoE transcriptome genes (n = 36) and significant dysregulation in family 443 individuals I.1 and II.1 during active disease (dashed rectangle) compared with unrelated patients with active eosinophilic esophagitis (EoE) and normal controls (NL) (P < 0.05, fold change > 2.0) (A). Network analysis of family 443–specific EoE transcriptome genes (red hexagons) showing significantly enriched Gene Ontology (GO) terms (B). Heatmap from RNA sequencing of esophageal epithelial cell line (EPC2) cells grown at the air-liquid interface (ALI) showing log2 FPKM values of dysregulated genes in family 443 (from A) that are also regulated by IL-13 (+ IL-13; 100 ng/ml for 6 days) in vitro (n = 12 genes) (P < 0.05, fold change > 2.0 compared with untreated [untx] cells) (C). FPKM plot for RSAD2 from normal control (NL, n = 6; unshaded squares) and EoE patients (EoE, n = 10; shaded circles) (D).Quantitative PCR for radical S-adenosyl methionine domain containing 2 (RSAD2) from nonsilencing control (NSC; black circles) and dehydrogenase E1 and transketolase domain–containing 1 (DHTKD1) shRNA–transduced (black triangles) EPC2 cells untreated or treated with IL-13 (100 ng/mL for 24 h) in the ALI system (E). Data in D are presented as mean ± SD, and data in E are presented as the mean ± SEM from 3 independent experiments performed in triplicate and are normalized to untreated nonsilencing control (NSC) cells. Statistical analyses used were unpaired t test with Welch’s correction (D) and 1-way ANOVA with Sidak multiple comparison test (E). NL, normal control. *P < 0.05, **P < 0.01.