A GDSL lipase confers resistance to piercing-sucking insects in tobacco by strengthening leaf cuticle

Piercing-sucking insects, such as whiteflies and aphids, cause massive economic losses in major crops around the world. During feeding, the stylets of piercing-sucking insects navigate cuticles, cell walls, epidermal cells, and mesophyll cells; thus, these barriers are vital for the resistance of plants to insects. However, the relationship between insect stylet probing behavior and the composition and structure of these barriers remains unclear. Here, we identified a tobacco Cuticle Related Factor (NtCRF), which was induced significantly by whitefly infestation. Bioassays showed that NtCRF positively regulated plant resistance against whiteflies and green peach aphids. Silencing of NtCRF did not affect plant jasmonic acid (JA) and salicylic acid (SA) defenses but shortened the stylet probing time of phloem-feeders. Further studies confirmed that silencing of NtCRF resulted in significant structure destruction of the leaf cuticle and led to increased epidermal permeability. Overexpression of NtCRF in Arabidopsis also significantly enhanced the plant's resistance against whiteflies and green peach aphids. Our findings expand understanding of plant–insect interactions and provide a strategy for genetic improvement of crop resistance against piercing-sucking insects.