Abstract
It is well known that insect larval midgut cadherin protein serves as a receptor of Bacillus thuringiensis (Bt) crystal Cry1Ac or Cry1Ab toxins, since structural mutations and downregulation of cad gene expression are linked with resistance to Cry1Ac toxin in several lepidopteran insects. However, the role of Spodoptera frugiperda cadherin protein (SfCad) in the mode of action of Bt toxins remains elusive. Here, we investigated whether SfCad is involved in susceptibility to Cry1Ab or Cry1Fa toxins. In vivo, knockout of the SfCad gene by CRISPR/Cas 9 did not increase tolerance to either of these toxins in S. frugiperda larvae. In vitro cytotoxicity assays demonstrated that cultured insect TnHi5 cells expressing GFP-tagged SfCad did not increase susceptibility to activated Cry1Ab or Cry1Fa toxins. In contrast, expression of another well recognized Cry1A receptor in this cell line, the ABCC2 transporter, increased the toxicity of both Cry1Ab and Cry1Fa toxins, suggesting that SfABCC2 functions as a receptor of these toxins. Finally, we showed that the toxin-binding region of SfCad did not bind to activated Cry1Ab, Cry1Ac, nor Cry1Fa. All these results support that SfCad is not involved in the mode of action of Cry1Ab or Cry1Fa toxins in S. frugiperda.
Highlights
The crystal (Cry) toxins and vegetative insecticidal proteins (Vip) produced by Bacillus thuringiensis (Bt) bacteria are important biological tools for the control of insect pests and provide good protection for plants growth [1]
We reported that Spodoptera litura cadherin (SlCad), in contrast to Helicoverpa armigera cadherin (HaCad), cannot increase cytotoxicity of Cry1Ac when expressed in Hi5 cells, suggesting that SlCad is not a functional receptor of Cry1Ac in S. litura [14]
Our results suggest that S. frugiperda cadherin is not involved in the mode of action of Cry1Ab or Cry1Fa toxins
Summary
The crystal (Cry) toxins and vegetative insecticidal proteins (Vip) produced by Bacillus thuringiensis (Bt) bacteria are important biological tools for the control of insect pests and provide good protection for plants growth [1]. Bt bacteria accumulate Cry toxins in crystal inclusion bodies inside the mother cell, while the Vip proteins are secreted in the vegetative phase of growth [2,3]. The Bt toxin receptors, located on the larval midgut cells, play important roles in the toxicity of these Bt toxins. After ingestion of Bt crystal inclusions or Vip protein by the larvae, these proteins are dissolved under the alkaline conditions of the gut lumen, releasing protoxins that are activated by midgut proteases. The mode of action of Vip3Aa might be different from crystal toxins, since receptors for Vip3Aa are not shared with the Cry toxins [4,5,6,7]
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