Safety and tolerability of frozen, capsulized autologous faecal microbiota transplantation. A randomized double blinded phase I clinical trial.

BACKGROUND: Faecal microbiota transplantation (FMT) is recommended treatment for recurrent Clostridioides difficile infection and is studied as a potential modifier of other gastrointestinal and systemic disorders. Autologous FMT limits the potential risks of donor transplant material and enables prophylactic treatment. Capsulized FMT is convenient and accessible, but safety data are lacking. AIMS: To describe safety and tolerability of capsules containing autologous FMT, compared to placebo, in healthy volunteers treated with antibiotics. METHOD: Healthy volunteers without antibiotic exposure during the past three months, that had a negative Clostridioides difficile stool sample, were recruited. Study persons donated faeces for production of capsules containing autologous microbiota. They were then given Clindamycin for seven days to disrupt the intestinal microbiota, which was followed by a two-day washout. Study persons were then randomized (1:1) to unsupervised treatment with autologous faecal matter or placebo, with two capsules twice daily for five days. A standardized questionnaire about side effects and tolerability, daily until day 28, and on days 60 and 180, was completed. RESULTS: Twenty-four study persons were included, all completed the treatment. One person from the placebo and FMT groups each, were lost to follow up from days 21 and 60, respectively. No study person experienced serious side effects, but severe fatigue was reported during the antibiotic period (n = 2). Reported side effects were mild to moderate and there were no significant differences between the groups. Reported general and intestinal health improved significantly and similarly in both groups after the antibiotic treatment. Time to normalized intestinal habits were 17 and 19 days from study start in the placebo group and the FMT group, respectively (p = 0.8). CONCLUSION: Capsulized frozen autologous faecal microbiota transplantation was safe and well tolerated but did not affect time to normalized intestinal habits compared to placebo. TRIAL REGISTRATION: EudraCT 2017-002418-30.

The involvement of epithelial Fas in a human model of graft versus host disease.

BACKGROUND: Graft-versus-host disease (GVHD) is an important complication occurring after hematopoietic stem-cell transplantation (HSCT). Animal model studies have shown the involvement of the Fas (APO-1/CD95)/Fas-Ligand pathway in GVHD pathogenesis, but its association with cutaneous GVHD in human remains to be established. METHODS: In the present study, Fas involvement in skin damage was assessed using a human skin explant model of GVHD. Fas and FasL expression were measured by immunohistochemistry and blockade of Fas pathway was investigated using an antagonistic anti-human Fas monoclonal antibody. In addition, levels of soluble Fas (sFas) were determined in the serum of patients receiving allogeneic HSCT with and without GVHD. RESULTS: The results showed that Fas up-regulation in the epithelium of human skin explants correlated with graft-versus-host reaction (GVHR) in the skin explant model (P<0.001). Decreased GVHR grades were observed by using a Fas blocking monoclonal antibody. Levels of sFas were increased post-HSCT (P<0.001) but rather than being associated with the severity of GVHD, sFas levels differed with the conditioning treatments the patients received before the HSCT. CONCLUSIONS: Higher GVHR grades were associated with increased Fas expression in the epithelium of the skin explants. In addition, by blocking Fas-mediated apoptosis, the GVHR grades were decreased. Our study thus shows the involvement of Fas in cutaneous GVHD damage, and supports the potential use of Fas as a therapeutic target.

Release of sequestered malaria parasites upon injection of a glycosaminoglycan.

Severe human malaria is attributable to an excessive sequestration of Plasmodium falciparum-infected and uninfected erythrocytes in vital organs. Strains of P. falciparum that form rosettes and employ heparan sulfate as a host receptor are associated with development of severe forms of malaria. Heparin, which is similar to heparan sulfate in that it is composed of the same building blocks, was previously used in the treatment of severe malaria, but it was discontinued due to the occurrence of serious side effects such as intracranial bleedings. Here we report to have depolymerized heparin by periodate treatment to generate novel glycans (dGAG) that lack anticoagulant-activity. The dGAGs disrupt rosettes, inhibit merozoite invasion of erythrocytes and endothelial binding of P. falciparum-infected erythrocytes in vitro, and reduce sequestration in in vivo models of severe malaria. An intravenous injection of dGAGs blocks up to 80% of infected erythrocytes from binding in the micro-vasculature of the rat and releases already sequestered parasites into circulation. P. falciparum-infected human erythrocytes that sequester in the non-human primate Macaca fascicularis were similarly found to be released in to the circulation upon a single injection of 500 mug of dGAG. We suggest dGAGs to be promising candidates for adjunct therapy in severe malaria.