ABSTRACT Artificial rearing is essential for sustainable utilization of medicinal insects, yet its impact on bioactive compound production remains poorly understood. Here we provide preliminary evidence that rearing of the medicinal beetle Blaps rhynchopetera reshapes its gut microbiota and metabolome, beyond mere environmental effects. Metabolomic analysis revealed 727 significantly altered metabolites, with 436 compounds, many linked to analgesic and anti‐inflammatory activities, markedly reduced under rearing. Network pharmacology analysis suggested that this metabolic remodelling alters the overall regulatory landscape, with reduced network complexity compared to wild counterparts. Metagenomic profiling uncovered a decline in Pseudomonadota, a phylum positively correlated with multiple bioactive metabolites. Preliminary reintroduction of four Pseudomonadota strains suggested their potential involvement in terpenoid backbone biosynthesis, a key pathway for natural product synthesis. These findings reveal an intrinsic trade‐off between rearing‐driven microbial homogenization and preservation of medicinal potency, highlighting the need for microbiome‐informed rearing strategies.
Yang et al. (Wed,) studied this question.