Gut microbiota perturbation and systemic inflammation are associated with salcaprozate sodium (SNAC)-enabled oral semaglutide delivery.

Semaglutide (SEM) is a glucagon-like peptide-1 (GLP-1) receptor agonist formulated for oral delivery with the absorption enhancer salcaprozate sodium (SNAC). Although oral SEM achieves 0.4-1% bioavailability through gastric epithelial uptake, gastrointestinal (GI) adverse events remain a major cause of therapy discontinuation. This study examined the effects of SEM (0.74 mg/kg/day), SNAC (22 mg/kg/day), and combined SEM-SNAC (1:33 w/w) treatments on microbiota and metabolic function, in healthy Sprague Dawley rats over 21 days. Whilst microbial α-diversity remained stable, SNAC significantly altered β-diversity (PERMANOVA, p < 0.05) and depleted primary fermenters in Muribaculaceae (-62%) and Bacteroidaceae (-77%) compared to the control group. These compositional changes correlated with reduced predicted saccharolytic enzyme abundance and fecal butyrate concentrations (-77% SNAC, -75% SEM-SNAC). Plasma cytokine analysis showed elevated tumor necrosis factor-α (TNF-α, 70%) and suppressed brain-derived neurotrophic factor (BDNF, 85%), consistent with changes in circulating inflammatory and neurotrophic markers from SNAC monotherapy. SNAC-treated animals also exhibited increased liver weight and reduced caecum mass, occurring alongside microbiota compositional changes and altered fermentation-associated markers. Spearman correlations linked Muribaculaceae and Bacteroidaceae loss with decreased saccharolytic enzyme abundance, lower SCFA levels, and increased TNF-α. While these findings are associative and require mechanistic validation, they indicate that chronic SNAC exposure is linked to concurrent microbial, metabolic, and inflammatory marker changes in healthy rats, highlighting the potential need for alternative, microbiota-safe strategies for oral peptide delivery.