Quraishi Mohammed Nabil, Cheesbrough Jonathan, Rimmer Peter, Mullish Benjamin H, Sharma Naveen, Efstathiou Elena, Acharjee Animesh, Gkoutus Georgios, Patel Arzoo, Marchesi Julian R, Camuzeaux Stephane, Chappell Katie, Valdivia-Garcia Maria A, Ferguson James, Brookes Matthew J, Walmsley Martine, Rossiter Amanda E, van Schaik Willem, McInnes Ross S, Cooney Rachel, Trauner Michael, Beggs Andrew D, Iqbal Tariq H, Trivedi Palak J
Department of Gastroenterology, University Hospitals Birmingham, Birmingham, UK.
Institute of Cancer and Genomic Sciences, University of Birmingham, Birmingham, UK.
J Crohns Colitis. 2025 Feb 4;19(2). doi: 10.1093/ecco-jcc/jjae189.
We conducted a single-arm interventional study, to explore mucosal changes associated with clinical remission under oral vancomycin (OV) treatment, in primary sclerosing cholangitis-associated inflammatory bowel disease (PSC-IBD); NCT05376228.
Fifteen patients with PSC and active colitis (median fecal calprotectin 459 µg/g; median total Mayo score 5) were treated with OV (125 mg QID) for 4 weeks and followed-up for a further 4 weeks of treatment withdrawal (8 weeks, end-of-study). Colonic biopsies were obtained at baseline and Week 4. Clinical assessments, and serum and stool samples (metagenomics, metatranscriptomics, and metabolomics) were collected at Weeks 0, 2, 4, and 8. The primary efficacy outcome measure was the induction of clinical remission.
Oral vancomycin resulted in clinical remission in 12/15 patients and significant reductions in fecal calprotectin. Oral vancomycin was associated with reduced abundances of Lachnospiraceae, genera Blautia and Bacteroides; and enrichment of Enterobacteriaceae, and genera Veillonella, Akkermansia, and Escherichia. Oral vancomycin treatment was associated with the downregulation of multiple metatranscriptomic pathways (including short-chain fatty acid [SCFA] metabolism and bile acid [BA] biotransformation), along with host genes and multiple pathways involved in inflammatory responses and antimicrobial defence; and an upregulation of genes associated with extracellular matrix repair. Oral vancomycin use resulted in the loss of specific fecal SCFAs and secondary BAs, including lithocholic acid derivatives. Colitis activity relapsed following OV withdrawal, with host mucosal and microbial changes trending toward baseline.
Four weeks of OV induces remission in PSC-IBD activity, associated with a reduction in gut bacterial diversity and compositional changes relating to BA and SCFA homeostasis.
我们开展了一项单臂干预性研究,以探索在口服万古霉素(OV)治疗下,原发性硬化性胆管炎相关炎症性肠病(PSC-IBD)中与临床缓解相关的黏膜变化;临床试验注册号为NCT05376228。
15例患有PSC和活动性结肠炎的患者(粪便钙卫蛋白中位数为459µg/g;梅奥总评分中位数为5)接受OV(125mg,每日4次)治疗4周,并在停药后继续随访4周(共8周,研究结束)。在基线期和第4周时获取结肠活检样本。在第0、2、4和8周时收集临床评估结果以及血清和粪便样本(宏基因组学、宏转录组学和代谢组学)。主要疗效指标是诱导临床缓解。
口服万古霉素使12/15例患者实现临床缓解,粪便钙卫蛋白显著降低。口服万古霉素与毛螺菌科、布劳特氏菌属和拟杆菌属丰度降低有关;与肠杆菌科、韦荣球菌属、阿克曼氏菌属和大肠杆菌属丰度增加有关。口服万古霉素治疗与多种宏转录组学途径(包括短链脂肪酸[SCFA]代谢和胆汁酸[BA]生物转化)的下调有关,同时与参与炎症反应和抗菌防御的宿主基因及多种途径下调有关;与细胞外基质修复相关基因上调有关。使用口服万古霉素导致特定粪便SCFA和次级BA(包括石胆酸衍生物)减少。停用OV后结肠炎活动复发,宿主黏膜和微生物变化趋向于基线水平。
4周的OV治疗可诱导PSC-IBD活动缓解,这与肠道细菌多样性降低以及与BA和SCFA稳态相关的组成变化有关。
