Generation of systemic antitumour immunity via the in situ modulation of the gut microbiome by an orally administered inulin gel

The performance of immune checkpoint inhibitors, which benefit only a subset of patients and can cause serious immune-related adverse events, underscores the need for strategies that induce T-cell immunity with minimal toxicity. The gut microbiota has been implicated in the outcomes of patients following cancer immunotherapy, yet manipulating the gut microbiome to achieve systemic antitumour immunity is challenging. Here, we show, in multiple murine tumour models, that inulin — a widely consumed dietary fibre — formulated as a colon-retentive orally administered gel can effectively modulate the gut microbiome in situ, induce systemic memory-T-cell responses, and amplify the antitumour activity of the checkpoint inhibitor anti-programmed-cell-death-protein-1 (anti-PD-1). Orally delivered inulin-gel treatments increased the relative abundances of key commensal microbes and their short-chain-fatty-acid metabolites, and led to enhanced recall responses for interferon-γ+ CD8+ T cells as well as to the establishment of stem-like T-cell factor-1+ PD-1+ CD8+ T cells within the tumour microenvironment. Gels for the in situ modulation of the gut microbiome may be applicable more broadly to treat pathologies associated with a dysregulated gut microbiome.