Hydropathic Complementarity Determines Interaction of Epitope 869HITDTNNK876 in Manduca sexta Bt-R1 Receptor with Loop 2 of Domain II ofBacillus thuringiensis Cry1A Toxins

Isabel Gomez,Juan Miranda-Rios,Enrique Rudiño-Piñera,Daniela I Oltean,Sarjeet S Gill,Alejandra Bravo,Mario Soberón

doi:10.1074/jbc.m203121200

Isabel Gomez, Juan Miranda-Rios + Show 5 more

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https://doi.org/10.1074/jbc.m203121200

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Abstract

In susceptible insects, Cry toxin specificity correlates with receptor recognition. In previous work, we characterized an scFv antibody (scFv73) that inhibits binding of Cry1A toxins to cadherin-like receptor. The CDR3 region of scFv73 shared homology with an 8-amino acid epitope ((869)HITDTNNK(876)) of the Manduca sexta cadherin-like receptor Bt-R(1) (Gomez, I., Oltean, D. I., Gill, S. S., Bravo, A., and Soberón, M. (2001) J. Biol. Chem. 276, 28906-28912). In this work, we show that the previous sequence of scFv73 CDR3 region was obtained from the noncoding DNA strand. However, most importantly, both scFv73 CDR3 amino acid sequences of the coding and noncoding DNA strands have similar binding capabilities to Cry1Ab toxin as Bt-R(1) (869)HITDTNNK(876) epitope, as demonstrated by the competition of scFv73 with binding to Cry1Ab with synthetic peptides with amino acid sequences corresponding to these regions. Using synthetic peptides corresponding to three exposed loop regions of domain II of Cry1Aa and Cry1Ab toxins, we found that loop 2 synthetic peptide competed with binding of scFv73 to Cry1A toxins in Western blot experiments. Also, loop 2 mutations that affect toxicity of Cry1Ab toxin are affected in scFv73 binding. Toxin overlay assays of Cry1A toxins to M. sexta brush border membrane proteins showed that loop 2 synthetic peptides competed with binding of Cry1A toxins to cadherin-like Bt-R(1) receptor. These experiments identified loop 2 in domain II of as the cognate binding partner of Bt-R(1) (869)HITDTNNK(876). Finally, 10 amino acids from beta-6-loop 2 region of Cry1Ab toxin ((363)SSTLYRRPFNI(373)) showed hydropathic pattern complementarity to a 10-amino acid region of Bt-R(1) ((865)NITIHITDTNN(875)), suggesting that binding of Cry1A toxins to Bt-R(1) is determined by hydropathic complementarity and that the binding epitope of Bt-R(1) may be larger than the one identified by amino acid sequence similarity to scFv73.

Highlights

Bacillus thuringiensis (Bt)1 is an aerobic, spore-forming bacteria that produces crystalline inclusions during the sporulation phase [1, 2]
Using synthetic peptides corresponding to three exposed loop regions of domain II of Cry1Aa and Cry1Ab toxins, we found that loop 2 synthetic peptide competed with binding of scFv73 to Cry1A toxins in Western blot experiments
We demonstrated that synthetic peptides corresponding to the epitope BtR1-Cry1A or to the amino acid sequence of the noncoding scFv73 CDR3 peptide (CDR non-cod, Table I) competed with binding of Cry1Aa and Cry1Ab toxins to Bt-R1 [19]

Summary

Introduction

Bacillus thuringiensis (Bt) is an aerobic, spore-forming bacteria that produces crystalline inclusions during the sporulation phase [1, 2]. The identification of epitopes involved in Cry toxin-receptor interactions could provide insights into the mechanism of insect specificity and the mode of action of these toxins. Two Cry1A toxin receptors from various lepidopteran insects have been identified as aminopeptidase N (APN) and cadherin-like proteins (Bt-R1, Bt-R175) (10 –16). Evidence was obtained that showed Cry1A toxin binding to this cadherin epitope facilitates proteolytic cleavage of helix ␣-1 in domain I and formation of a tetramer oligomer pre-pore that is insertion-competent [20]. Overall, these results suggest that binding to cadherin-like receptor is an important step in the mode of action Cry1A toxins

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