The cadherin‐like protein is essential to specificity determination and cytotoxic action of the <i>Bacillus thuringiensis</i> insecticidal CryIAa toxin

Nagamatsu, Yasunori; Koike, Takashi; Sasaki, Kazuhiro; Yoshimoto, Akihiro; Furukawa, Yasuo

doi:10.1016/s0014-5793(99)01327-7

Cited by 123 publications

(115 citation statements)

References 27 publications

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“…1B and Movie 1). Cell swelling and lysis occurred within a short time frame (30-40 min after toxin exposure), a phenomenon also observed in other insect cells (9,40) as well as in mammalian cells transfected with the cDNA of BT-R receptors (11). The morphological changes observed in Cry1Ab toxin-treated cells (Fig.…”

Section: Discussionsupporting

confidence: 67%

A mechanism of cell death involving an adenylyl cyclase/PKA signaling pathway is induced by the Cry1Ab toxin of Bacillus thuringiensis

Zhang

Candas²,

Griko³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

365

324

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Many pathogenic organisms and their toxins target host cell receptors, the consequence of which is altered signaling events that lead to aberrant activity or cell death. A significant body of literature describes various molecular and cellular aspects of toxins associated with bacterial invasion, colonization, and host cell disruption. However, there is little information on the molecular and cellular mechanisms associated with the insecticidal action of Bacillus thuringiensis (Bt) Cry toxins. Recently, we reported that the Cry1Ab toxin produced by Bt kills insect cells by activating a Mg 2؉ -dependent cytotoxic event upon binding of the toxin to its receptor BT-R1. Here we show that binding of Cry toxin to BT-R1 provokes cell death by activating a previously undescribed signaling pathway involving stimulation of G protein (G␣s) and adenylyl cyclase, increased cAMP levels, and activation of protein kinase A. Induction of the adenylyl cyclase͞protein kinase A pathway is manifested by sequential cytological changes that include membrane blebbing, appearance of ghost nuclei, cell swelling, and lysis. The discovery of a toxin-induced cell death pathway specifically linked to BT-R1 in insect cells should provide insights into how insects evolve resistance to Bt and into the development of new, safer insecticides.Cry toxin ͉ protein kinase A ͉ cadherin receptor ͉ cAMP ͉ signal transduction

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Section: Discussionsupporting

confidence: 67%

A mechanism of cell death involving an adenylyl cyclase/PKA signaling pathway is induced by the Cry1Ab toxin of Bacillus thuringiensis

Zhang

Candas²,

Griko³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

365

324

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“…Various types of insect cell lines have also been studied for their toxicity response to different Cry proteins (25,26), and it was found that Sf-9 cells showed very less toxicity to Cry1Ab and showed maximum toxicity with Cry1C (27). The effectiveness of using live insect cells expressing putative receptor proteins and demonstrating the ability of the protein to function as a receptor to Bt toxin has been shown by Nagamatsu (10). They have been able to demonstrate swelling and lysis of Sf-9 cells expressing cadherin protein of B. mori after overlay with Cry1Ab toxin.…”

Section: Discussionmentioning

confidence: 99%

“…Two membrane proteins, cadherin and aminopeptidase-N (APN), have been implicated as possible receptors to insecticidal proteins. The putative receptor molecules have been cloned, heterologously expressed, and have been shown to bind Cry1A proteins by ligand blot analysis (4)(5)(6)(7)(8)(9)(10)(11). Although functional proof for cadherin as a Cry1A protein receptor has been demonstrated by cytolysis of insect cells expressing lepidopteran cadherin genes on exposure to Cry1Ab/Cry1Aa (10,12,13), a similar characterization of APN-Cry1A interaction has not been investigated yet.…”

mentioning

confidence: 99%

Knockdown of Aminopeptidase-N from Helicoverpa armigera Larvae and in Transfected Sf21 Cells by RNA Interference Reveals Its Functional Interaction with Bacillus thuringiensis Insecticidal Protein Cry1Ac

Swaminathan¹,

Rajagopal²,

Venkatesh

et al. 2007

Journal of Biological Chemistry

112

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“…Independently, a 210-kDa cadherin-like protein from M. sexta was shown to interact with Cry1Ab toxin (6) and later its presence and toxin interaction was also demonstrated from another insect, Bombyx mori (7). Relative abundance of APN in the posterior midgut (8) and lower binding constants of Cry toxin toward cadherin as compared with APN (9) raised apprehension about the role of APN as a receptor for Bt toxin in the insect midgut.…”

Section: Insecticidal Crystal Proteins Of Bacillus Thuringiensismentioning

confidence: 99%

Silencing of Midgut Aminopeptidase N of Spodoptera litura by Double-stranded RNA Establishes Its Role asBacillus thuringiensis Toxin Receptor

Rajagopal¹,

Sivakumar²,

Agrawal

et al. 2002

Journal of Biological Chemistry

285

195

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Insecticidal crystal proteins of Bacillus thuringiensis bind to receptors in the midgut of susceptible insects leading to pore formation and death of the insect. The identity of the receptor is not clearly established. Recently a direct interaction between a cloned and heterologously expressed aminopeptidase (slapn) from Spodoptera litura and the Cry1C protein was demonstrated by immunofluorescence and in vitro ligand blot interaction. Here we show that administration of slapn doublestranded RNA to S. litura larvae reduces its expression. As a consequence of the reduced expression, a corresponding decrease in the sensitivity of these larvae to Cry1C toxin was observed. The gene silencing was retained during the insect's moulting and development and transmitted to the subsequent generation albeit with a reduced effect. These results directly implicate larval midgut aminopeptidase N as receptor for Bacillus thuringiensis insecticidal proteins. The bacterium Bacillus thuringiensis (Bt)1 produces insecticidal crystal proteins, which upon ingestion by susceptible larvae get activated in the midgut, interact with specific receptor and form pores in the epithelium, resulting in the death of the larvae (1). Understanding the mechanism of action of Bt toxin and development of resistance in insects is fundamental in sustaining the use of Cry proteins in integrated pest management. One of the mechanisms of resistance development is an alteration in the binding ability and/or a decrease in the population of receptor molecules, which bind Bt toxin in the insect midgut (2). There have been intense efforts to characterize the nature of this receptor. As a result of several independent experiments employing ligand blot analysis and fluorescent labeling of insecticidal proteins, cadherin and aminopeptidase N (APN) have emerged as main putative receptor molecules (Ref. 3 and references there in). While the role of a receptor molecule in mediating the effect of Cry toxin is acknowledged, the identity of this receptor is still being worked out.Aminopeptidase N from Manduca sexta was the first molecule to be tentatively identified as a Cry toxin-binding protein (4, 5), and APN is the most extensively studied putative receptor, having been identified and isolated subsequently from other lepidopteran insect pests. Independently, a 210-kDa cadherin-like protein from M. sexta was shown to interact with Cry1Ab toxin (6) and later its presence and toxin interaction was also demonstrated from another insect, Bombyx mori (7). Relative abundance of APN in the posterior midgut (8) and lower binding constants of Cry toxin toward cadherin as compared with APN (9) raised apprehension about the role of APN as a receptor for Bt toxin in the insect midgut. Moreover,

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The cadherin‐like protein is essential to specificity determination and cytotoxic action of the Bacillus thuringiensis insecticidal CryIAa toxin

Cited by 123 publications

References 27 publications

A mechanism of cell death involving an adenylyl cyclase/PKA signaling pathway is induced by the Cry1Ab toxin of Bacillus thuringiensis

A mechanism of cell death involving an adenylyl cyclase/PKA signaling pathway is induced by the Cry1Ab toxin of Bacillus thuringiensis

Knockdown of Aminopeptidase-N from Helicoverpa armigera Larvae and in Transfected Sf21 Cells by RNA Interference Reveals Its Functional Interaction with Bacillus thuringiensis Insecticidal Protein Cry1Ac

Silencing of Midgut Aminopeptidase N of Spodoptera litura by Double-stranded RNA Establishes Its Role asBacillus thuringiensis Toxin Receptor

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