The intestinal microbiota plays a key role in the pathogenesis of acute graft-versus-host disease (aGVHD). High-dose conditioning regimens given prior to allogeneic hematopoietic stem cell transplantation (aHSCT) modulate the composition of gut microbiota and damage the gut epithelial barrier, resulting in increased systemic inflammation. We assessed whether gut decontamination with antibiotics (ATB) prior to aHSCT influenced the frequency of aGVHD and mortality in 500 patients from two Canadian centers between 2005 and 2012. The rate of grade II-IV aGVHD was higher in the ATB arm compared with the arm without ATB (42% vs 28%; p < 0.001). This difference was mainly driven by a 2-fold higher rate of grade II-IV gastrointestinal aGVHD (GI-GVHD) in the ATB arm compared with the arm without ATB (20.7% vs 10.8%; p D 0.003). Multivariate analyses adjusted for known aGVHD risk factors revealed that more patients in the ATB group developed clinically significant GI-GVHD and liver aGVHD; adjusted odds ratio (aOR) D 1.83; p D 0.023 and aOR D 3.56; p D 0.047, respectively. Importantly, median overall survival (OS) was significantly lower in the group receiving ATB and the OS at 10 y remained decreased in the ATB group; adjusted hazard ratio (aHR) D 1.61 (p < 0.001).Without undermining the role of ATB prophylaxis to prevent infection in aHSCT, we have shown that the use of ATB that targets intestinal bacteria is associated with a more severe aGVHD that involves the GI organs and impacts OS. Prospective studies that evaluate the contribution of bacterial decontamination to aGVHD are warranted.
Purpose: Inhibition of monocarboxylate transporter (MCT) 1-mediated lactate transport may have cytostatic/cytotoxic effects on tumour cells. We report results from the dose-escalation part of a first‑in‑human trial of AZD3965, a first-in-class MCT1 inhibitor, in advanced cancer. Experimental design: This multicentre, Phase 1, dose-escalation and dose-expansion trial enrolled patients with advanced solid tumours or lymphoma and no standard therapy options. Exclusion criteria included history of retinal/cardiac disease, due to MCT1 expression in the eye and heart. Patients received daily oral AZD3965 according to a 3+3 then rolling 6 design. Primary objectives were to assess safety and determine the maximum tolerated dose and/or recommended Phase 2 dose (RP2D). Secondary objectives for dose-escalation included measurement of pharmacokinetics and pharmacodynamic activity. Exploratory biomarkers included tumour expression of MCT1 and MCT4, functional imaging of biological impact and metabolomics. Results: During dose-escalation, 40 patients received AZD3965 at 5–30 mg once daily or 10 or 15 mg twice daily (BD). Treatment‑emergent adverse events were primarily Grade 1/2, most commonly electroretinogram changes (retinopathy), fatigue, anorexia and constipation. Seven patients receiving ≥20 mg daily experienced dose-limiting toxicities (DLTs): Grade 3 cardiac troponin rise (n=1), asymptomatic ocular DLTs (n=5) and Grade 3 acidosis (n=1). Plasma pharmacokinetics demonstrated attainment of target concentrations; pharmacodynamic measurements indicated on‑target activity. Conclusions: AZD3965 is tolerated at doses that produce target engagement. DLTs were on-target and primarily dose-dependent, asymptomatic, reversible ocular changes. An RP2D of 10 mg BD was established for use in dose-expansion in cancers that generally express high MCT1/low MCT4 (not yet published).
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