Abstract
When ABC transporter family C2 (ABCC2) and ABC transporter family B1 (ABCB1) were heterologously expressed in non-susceptible cultured cells, the cells swelled in response to Cry1A and Cry3 toxins, respectively. Consistent with the notion that 3D-Cry toxins form cation-permeable pores, Bombyx mori ABCC2 (BmABCC2) facilitated cation-permeable pore formation by Cry1A when expressed in Xenopus oocytes. Furthermore, BmABCC2 had a high binding affinity (KD) to Cry1Aa of 3.1 × 10−10 M. These findings suggest that ABC transporters, including ABCC2 and ABCB1, are functional receptors for 3D-Cry toxins. In addition, the Cry2 toxins most distant from Cry1A toxins on the phylogenetic tree used ABC transporter A2 as a receptor. These data suggest that 3D-Cry toxins use ABC transporters as receptors. In terms of inducing cell swelling, ABCC2 has greater activity than cadherin-like receptor. The pore opening of ABC transporters was hypothesized to be linked to their receptor function, but this was repudiated by experiments using mutants deficient in export activity. The synergistic relationship between ABCC2 and cadherin-like receptor explains their ability to cause resistance in one species of insect.
Highlights
Bacillus thuringiensis is the most widely used bio-pesticide, and it makes several insecticidal proteins including Cry toxins
A Helicoverpa armigera strain with 6000-fold increased resistance to Cry2Ab [14] had a mutation in ATP-binding cassette (ABC) transporter family A2 (ABCA2), suggesting that ABC transporter A2 (ABCA2) is linked to Cry2Ab resistance [15]
The facilitation of cation-permeable pore formation by ABC transporter family C2 (ABCC2) suggests it is a functional receptor for 3-domain Cry (3D-Cry) toxins
Summary
Bacillus thuringiensis is the most widely used bio-pesticide, and it makes several insecticidal proteins including Cry toxins. A Helicoverpa armigera strain with 6000-fold increased resistance to Cry2Ab [14] had a mutation in ABC transporter family A2 (ABCA2), suggesting that ABCA2 is linked to Cry2Ab resistance [15]. This was confirmed by generating knockout insects using clustered regularly interspaced short palindromic repeats (CRISPR)/Cas genome editing [16]. High level resistance is linked to deficiency in ABC transporters, which generated further questions on the mode of action of 3D-Cry toxins. We review biochemical, cell biological, and physical studies of the role of ABC transporters as receptors for 3D-Cry toxins
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