The clinical drug candidate ebselen attenuates inflammation and promotes microbiome recovery after antibiotic treatment for Clostridium difficile infection

Clostridium difficile infection (CDI) is an enteric bacterial disease that is increasing in prevalence worldwide. C. difficile capitalizes on gut inflammation and microbiome dysbiosis to establish infection, with symptoms ranging from watery diarrhea to toxic megacolon. We recently reported that the safe in human clinical drug candidate ebselen (NCT03013400, NCT01452607, NCT00762671, NCT02603081) has biochemical, cell-based and in vivo efficacy against the bacterial toxins of C. difficile. Here, we show that ebselen treatment reduces recurrence rates and decreases colitis in a hamster relapse model of CDI. Furthermore, ebselen treatment does not alter microbiome diversity but promotes its recovery back to that of healthy controls after antibiotic-induced dysbiosis in both healthy and C. difficile-infected mice. This increased microbiome recovery upon ebselen treatment correlates with a decrease in host-derived inflammatory markers suggesting that the anti-inflammatory properties of ebselen, combined with its anti-toxin function, help to mitigate the major clinical challenges of CDI, including recurrence, microbial dysbiosis, and colitis.