The plant specialized metabolite epicatechin- 3-gallate (EC3G) perturbs lipid metabolism and attenuates fat accumulation in pigeonpea pod borer, Helicoverpa armigera

Control of pod borer Helicoverpa armigera, a notorious polyphagous pest requires paramount attention with focus on environment-friendly management approaches. Overproduction of catechins (epigallocatechin-EGC and epicatechin-3-gallate-EC3G) in the pod borer-resistant pigeonpea wild relative, Cajanus...

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Veröffentlicht in:	International journal of biological macromolecules 2023-03, Vol.231, p.123325-123325, Article 123325
Hauptverfasser:	Rathinam, Maniraj, Tyagi, Shaily, Dokka, Narasimham, Marimuthu, Sathish Kumar, Kumar, Hemant, Sagar, Doddachowdappa, Dash, Prasanta K., Shasany, Ajit Kumar, Sreevathsa, Rohini
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Sprache:	eng
Schlagworte:	Animals Catechin - metabolism Epicatechin-3-gallate Helicoverpa armigera Larva Lipid Metabolism Molecular Docking Simulation Moths - metabolism Plants - chemistry
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container_title	International journal of biological macromolecules
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creator	Rathinam, Maniraj Tyagi, Shaily Dokka, Narasimham Marimuthu, Sathish Kumar Kumar, Hemant Sagar, Doddachowdappa Dash, Prasanta K. Shasany, Ajit Kumar Sreevathsa, Rohini
description	Control of pod borer Helicoverpa armigera, a notorious polyphagous pest requires paramount attention with focus on environment-friendly management approaches. Overproduction of catechins (epigallocatechin-EGC and epicatechin-3-gallate-EC3G) in the pod borer-resistant pigeonpea wild relative, Cajanus platycarpus during continued herbivory prodded us to assess their underlying molecular effect on H. armigera. Significant reduction in larval and pupal growth parameters was observed when reared on artificial diet incorporated with 100 ppm EC3G vis a vis 100 ppm EGC and EGC + EC3G. Comparative RNAseq analyses of larvae that fed on normal and EC3G-incorporated diet revealed 62 differentially expressed genes dominated by detoxification and lipid metabolism. While lipase and fatty acid-binding protein 2-like were up-regulated, delta9-FADS-like involved in fatty acid synthesis was downregulated, indicating effect of EC3G on fat metabolism. Validation of RNAseq data by qPCR; midgut glutathione-S-transferase and esterase assays depicted increased lipolysis and reduced lipogenesis in EC3G-fed larvae. Additionally, differential accumulation of stearic acid and oleic acid in EC3G-fed and control larvae/adults ascertained perturbation in lipogenesis. Supported by modelling, molecular docking and simulations, we demonstrate the possible involvement of the insect adipokinetic hormone receptor (AKHR) in the EC3G-mediated response. The study demonstrates plant specialized metabolite EC3G as a potential candidate for H. armigera control. •The study highlighted the use of EC3G as an environment friendly molecule for the control of H. armigera.•The catechin, EC3G has shown negative impact on growth of larvae and pupae of H. armigera.•The metabolite affects both lipolysis and lipogenesis in the pod borer.•Interaction studies predicted the involvement of AKHR in the EC3G-mediated effect.
doi_str_mv	10.1016/j.ijbiomac.2023.123325
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Overproduction of catechins (epigallocatechin-EGC and epicatechin-3-gallate-EC3G) in the pod borer-resistant pigeonpea wild relative, Cajanus platycarpus during continued herbivory prodded us to assess their underlying molecular effect on H. armigera. Significant reduction in larval and pupal growth parameters was observed when reared on artificial diet incorporated with 100 ppm EC3G vis a vis 100 ppm EGC and EGC + EC3G. Comparative RNAseq analyses of larvae that fed on normal and EC3G-incorporated diet revealed 62 differentially expressed genes dominated by detoxification and lipid metabolism. While lipase and fatty acid-binding protein 2-like were up-regulated, delta9-FADS-like involved in fatty acid synthesis was downregulated, indicating effect of EC3G on fat metabolism. Validation of RNAseq data by qPCR; midgut glutathione-S-transferase and esterase assays depicted increased lipolysis and reduced lipogenesis in EC3G-fed larvae. Additionally, differential accumulation of stearic acid and oleic acid in EC3G-fed and control larvae/adults ascertained perturbation in lipogenesis. Supported by modelling, molecular docking and simulations, we demonstrate the possible involvement of the insect adipokinetic hormone receptor (AKHR) in the EC3G-mediated response. 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Overproduction of catechins (epigallocatechin-EGC and epicatechin-3-gallate-EC3G) in the pod borer-resistant pigeonpea wild relative, Cajanus platycarpus during continued herbivory prodded us to assess their underlying molecular effect on H. armigera. Significant reduction in larval and pupal growth parameters was observed when reared on artificial diet incorporated with 100 ppm EC3G vis a vis 100 ppm EGC and EGC + EC3G. Comparative RNAseq analyses of larvae that fed on normal and EC3G-incorporated diet revealed 62 differentially expressed genes dominated by detoxification and lipid metabolism. While lipase and fatty acid-binding protein 2-like were up-regulated, delta9-FADS-like involved in fatty acid synthesis was downregulated, indicating effect of EC3G on fat metabolism. Validation of RNAseq data by qPCR; midgut glutathione-S-transferase and esterase assays depicted increased lipolysis and reduced lipogenesis in EC3G-fed larvae. 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The study demonstrates plant specialized metabolite EC3G as a potential candidate for H. armigera control. •The study highlighted the use of EC3G as an environment friendly molecule for the control of H. armigera.•The catechin, EC3G has shown negative impact on growth of larvae and pupae of H. armigera.•The metabolite affects both lipolysis and lipogenesis in the pod borer.•Interaction studies predicted the involvement of AKHR in the EC3G-mediated effect.</description><subject>Animals</subject><subject>Catechin - metabolism</subject><subject>Epicatechin-3-gallate</subject><subject>Helicoverpa armigera</subject><subject>Larva</subject><subject>Lipid Metabolism</subject><subject>Molecular Docking Simulation</subject><subject>Moths - metabolism</subject><subject>Plants - chemistry</subject><issn>0141-8130</issn><issn>1879-0003</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc9uFDEMhyMEokvhFaoci8Qs-bOTzd5Aq9JWqsSlnCMn8bRZzUxCkqkE78N7kmpbOPZk2fp-tqyPkDPO1pxx9fmwDgcb4gRuLZiQay6kFP0rsuJ6u-sYY_I1WTG-4Z3mkp2Qd6Uc2lT1XL8lJ1IpzYWQK_Ln9h5pGmGutCR0AcbwGz2dsIKNY6hIMQUHFd19mDsquzsYx9bS84u9vPxIE-a6ZFvoGFL4nysThdlTqBXnpeGFDlApOLdMS4uHONMw0xTuMM4JgaboqY0Z8yd6hWNw8QFzAgp5akiG9-TNAGPBD0_1lPz4dnG7v-puvl9e77_edE4qXTvtrfTIes_6XoEWyvUbr_rdZueFBSu4YCi0BN2jGLZ-sEJjm_pBeTUwaeUpOT_uTTn-XLBUM4XisH08Y1yKEVulhWQ7tmuoOqIux1IyDiblMEH-ZTgzj4rMwTwrMo-KzFFRC5493VjshP5f7NlJA74cAWyfPgTMpriAs0MfMrpqfAwv3fgLUziojg</recordid><startdate>20230315</startdate><enddate>20230315</enddate><creator>Rathinam, Maniraj</creator><creator>Tyagi, Shaily</creator><creator>Dokka, Narasimham</creator><creator>Marimuthu, Sathish Kumar</creator><creator>Kumar, Hemant</creator><creator>Sagar, Doddachowdappa</creator><creator>Dash, Prasanta K.</creator><creator>Shasany, Ajit Kumar</creator><creator>Sreevathsa, Rohini</creator><general>Elsevier B.V</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20230315</creationdate><title>The plant specialized metabolite epicatechin- 3-gallate (EC3G) perturbs lipid metabolism and attenuates fat accumulation in pigeonpea pod borer, Helicoverpa armigera</title><author>Rathinam, Maniraj ; 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Overproduction of catechins (epigallocatechin-EGC and epicatechin-3-gallate-EC3G) in the pod borer-resistant pigeonpea wild relative, Cajanus platycarpus during continued herbivory prodded us to assess their underlying molecular effect on H. armigera. Significant reduction in larval and pupal growth parameters was observed when reared on artificial diet incorporated with 100 ppm EC3G vis a vis 100 ppm EGC and EGC + EC3G. Comparative RNAseq analyses of larvae that fed on normal and EC3G-incorporated diet revealed 62 differentially expressed genes dominated by detoxification and lipid metabolism. While lipase and fatty acid-binding protein 2-like were up-regulated, delta9-FADS-like involved in fatty acid synthesis was downregulated, indicating effect of EC3G on fat metabolism. Validation of RNAseq data by qPCR; midgut glutathione-S-transferase and esterase assays depicted increased lipolysis and reduced lipogenesis in EC3G-fed larvae. Additionally, differential accumulation of stearic acid and oleic acid in EC3G-fed and control larvae/adults ascertained perturbation in lipogenesis. Supported by modelling, molecular docking and simulations, we demonstrate the possible involvement of the insect adipokinetic hormone receptor (AKHR) in the EC3G-mediated response. The study demonstrates plant specialized metabolite EC3G as a potential candidate for H. armigera control. •The study highlighted the use of EC3G as an environment friendly molecule for the control of H. armigera.•The catechin, EC3G has shown negative impact on growth of larvae and pupae of H. armigera.•The metabolite affects both lipolysis and lipogenesis in the pod borer.•Interaction studies predicted the involvement of AKHR in the EC3G-mediated effect.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>36681223</pmid><doi>10.1016/j.ijbiomac.2023.123325</doi><tpages>1</tpages></addata></record>
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subjects	Animals Catechin - metabolism Epicatechin-3-gallate Helicoverpa armigera Larva Lipid Metabolism Molecular Docking Simulation Moths - metabolism Plants - chemistry
title	The plant specialized metabolite epicatechin- 3-gallate (EC3G) perturbs lipid metabolism and attenuates fat accumulation in pigeonpea pod borer, Helicoverpa armigera
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