Resistance to Vip3Aa: A Growing Threat with Unclear Mechanisms and Management Implications
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The vegetative insecticidal protein Vip3Aa from Bacillus thuringiensis (Bt) has become a key plant-incorporated protectant (PIP) in transgenic crops targeting lepidopteran pests, particularly as resistance increasingly compromises the efficacy of Cry protein PIPs. More than a decade after its commercial deployment, Vip3Aa performance remains efficacious but increasingly vulnerable. Field screens have detected unexpectedly high baseline frequencies of Vip3Aa resistance alleles and have produced highly resistant strains in several major pests, including Helicoverpa spp., Spodoptera spp., and Mythimna separata. Although structure-function experiments and studies on resistance to Vip3Aa have identified altered midgut processing and impaired receptor binding as candidate resistance mechanisms, the underlying genetic determinants remain poorly understood. Moreover, resistance to Vip3Aa appears to diverge from canonical Cry protein resistance pathways, underscoring the need for dedicated mechanistic studies. This review critically examines the available experimental evidence on Vip3Aa resistance mechanisms, highlighting major knowledge gaps and proposing research priorities to inform resistance monitoring and extend the durability of Vip3Aa-based pest control.