In vivo delivery systems (IDSs) are designed to protect and transport therapeutics, but their clinical applications are hindered by low delivery efficiency. We identified gut microbiota as key regulators of efficacy of IDS-based therapies and that disrupting commensal-host interactions markedly improves drug and gene delivery. Intestinal epithelial cells sense microbial stimulation and remotely activate Kupffer cells through serotonin production, thereby driving hepatic IDS clearance. Transient suppression of serotonin signaling, through receptor blockade or dietary intervention, mitigates hepatic IDS clearance and improves delivery efficiency. This strategy yielded more than threefold therapeutic enhancement in chemotherapy and oncolytic virotherapy and 5- to 15-fold improvements in somatic genome editing and messenger RNA–based therapies. These findings reveal a gut-liver immune axis that can be therapeutically exploited to improve IDS-based cancer and gene therapies.
Wang et al. (Thu,) studied this question.
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