Abstract
Background: To repurpose carbutamide (CBT), a discontinued sulfonylurea-class anti-diabetic drug, as an anti-inflammatory bowel disease (IBD) drug, CBT azo-linked with salicylic acid (CAA) was designed and synthesized as a colon-specific prodrug to co-release CBT and mesalazine (5-ASA) selectively in the large intestine. Methods: CAA exhibited reduced lipophilicity and decreased transintestinal transport compared to CBT, as shown in an ex vivo experiment using isolated rat jejunal segments. It also underwent cleavage into CBT and 5-ASA when incubated with cecal contents of rats. Additionally, oral administration of CAA and Sulfasalazine (SSZ), a colon-specific prodrug of 5-ASA currently used for IBD treatment, resulted in similar levels of 5-ASA accumulation in the rat cecal region. Results: In a dinitrobenzene sulfonic acid-triggered colitis model in rats, CAA produced a more pronounced improvement in colon injury and inflammation than SSZ. Furthermore, rectal co-administration of CBT and 5-ASA conferred enhanced protective outcomes compared to monotherapy with either agent alone, suggesting a combined anticolitic action. The two drugs also jointly suppressed valacyclovir uptake via peptide transporter 1 (PepT1) in the distal colon, supporting PepT1 as a target contributing to their combined anticolitic effect. Unlike CBT, which significantly reduced blood glucose following oral administration, equimolar administration of CAA did not alter glycemic levels, consistent with reduced systemic exposure to CBT. Conclusions: In conclusion, CAA functions as a colon-specific mutual prodrug that surpasses SSZ in anticolitic performance while minimizing hypoglycemia risk, thus facilitating the repurposing of CBT as a treatment for IBD.