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Cry Toxins Use Multiple ATP-Binding Cassette Transporter Subfamily C Members as Low-Efficiency Receptors in Bombyx mori

Recent studies have suggested that ABC transporters are the main receptors of Cry toxins. However, the receptors of many Cry toxins have not been identified. In this study, we used a heterologous cell expression system to identify ABC transporter subfamily C members (BmABCCs) that function as recept...

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Published in:	Biomolecules (Basel, Switzerland) Switzerland), 2024-02, Vol.14 (3), p.271
Main Authors:	Adegawa, Satomi, Wang, Yonghao, Waizumi, Ryusei, Iizuka, Tetsuya, Takasu, Yoko, Watanabe, Kenji, Sato, Ryoichi
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Language:	English
Subjects:	ABC transporter ABC transporters Animals ATP-Binding Cassette Transporters - genetics ATP-Binding Cassette Transporters - metabolism Bacillus thuringiensis Toxins Bacterial Proteins - metabolism binding affinity Bombyx - metabolism Bombyx mori cry toxin Cytotoxicity Endotoxins Hemolysin Proteins Insecta - metabolism low-efficiency receptor Midgut Multidrug Resistance-Associated Protein 2 Mutation Proteins Receptor mechanisms Sensors SPR analysis Surface plasmon resonance Toxins
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creator	Adegawa, Satomi Wang, Yonghao Waizumi, Ryusei Iizuka, Tetsuya Takasu, Yoko Watanabe, Kenji Sato, Ryoichi
description	Recent studies have suggested that ABC transporters are the main receptors of Cry toxins. However, the receptors of many Cry toxins have not been identified. In this study, we used a heterologous cell expression system to identify ABC transporter subfamily C members (BmABCCs) that function as receptors for five Cry toxins active in Lepidopteran insects: Cry1Aa, Cry1Ca, Cry1Da, Cry8Ca, and Cry9Aa. All five Cry toxins can use multiple ABCCs as low-efficiency receptors, which induce cytotoxicity only at high concentrations. Surface plasmon resonance analysis revealed that the values between the toxins and BmABCC1 and BmABCC4 were 10 to 10 M, suggesting binding affinities 8- to 10,000-fold lower than those between Cry1Aa and BmABCC2, which are susceptibility-determining receptors for Cry1Aa. Bioassays in BmABCC-knockout silkworm strains showed that these low-efficiency receptors are not involved in sensitivity to Cry toxins. The findings suggest that each family of Cry toxins uses multiple BmABCCs as low-efficiency receptors in the insect midgut based on the promiscuous binding of their receptor-binding regions. Each Cry toxin seems to have evolved to utilize one or several ABC transporters as susceptibility-determining receptors.
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However, the receptors of many Cry toxins have not been identified. In this study, we used a heterologous cell expression system to identify ABC transporter subfamily C members (BmABCCs) that function as receptors for five Cry toxins active in Lepidopteran insects: Cry1Aa, Cry1Ca, Cry1Da, Cry8Ca, and Cry9Aa. All five Cry toxins can use multiple ABCCs as low-efficiency receptors, which induce cytotoxicity only at high concentrations. Surface plasmon resonance analysis revealed that the values between the toxins and BmABCC1 and BmABCC4 were 10 to 10 M, suggesting binding affinities 8- to 10,000-fold lower than those between Cry1Aa and BmABCC2, which are susceptibility-determining receptors for Cry1Aa. Bioassays in BmABCC-knockout silkworm strains showed that these low-efficiency receptors are not involved in sensitivity to Cry toxins. 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subjects	ABC transporter ABC transporters Animals ATP-Binding Cassette Transporters - genetics ATP-Binding Cassette Transporters - metabolism Bacillus thuringiensis Toxins Bacterial Proteins - metabolism binding affinity Bombyx - metabolism Bombyx mori cry toxin Cytotoxicity Endotoxins Hemolysin Proteins Insecta - metabolism low-efficiency receptor Midgut Multidrug Resistance-Associated Protein 2 Mutation Proteins Receptor mechanisms Sensors SPR analysis Surface plasmon resonance Toxins
title	Cry Toxins Use Multiple ATP-Binding Cassette Transporter Subfamily C Members as Low-Efficiency Receptors in Bombyx mori
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