Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils

© 2018 The Japanese Society of Veterinary Science. Chicken heterophils generate reactive oxygen species (ROS) molecules to defend against invading pathogens. The present study examined effects of quercetin on chicken heterophils. Heterophils were stimulated with PBS, 50 µM quercetin (QH), PMA or Esc...

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Main Authors: Boondarika Nambooppha, Kornravee Photichai, Kanreuthai Wongsawan, Phongsakorn Chuammitri
Format: Journal
Published: 2018
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/59177
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-591772018-09-05T04:40:56Z Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils Boondarika Nambooppha Kornravee Photichai Kanreuthai Wongsawan Phongsakorn Chuammitri Veterinary © 2018 The Japanese Society of Veterinary Science. Chicken heterophils generate reactive oxygen species (ROS) molecules to defend against invading pathogens. The present study examined effects of quercetin on chicken heterophils. Heterophils were stimulated with PBS, 50 µM quercetin (QH), PMA or Escherichia coli (EC) and the resulting intracellular ROS molecules were determined. Flow cytometry results showed that cells stimulated with QH, PMA and EC had a higher ROS production. Increases in intracellular ROS molecules were identified in all treatment groups by fluorescence microscopy. Determination of the ability of quercetin to manipulate mRNA expression of ROS subunits was assessed using real-time RT-PCR. Quercetin and other stimulants up-regulated the majority of genes involved in ROS production: CYBB (NOX2), NCF1 (p47phox), NCF2 (p67phox), NOX1 and RAC2. The antioxidant property of QH was explored by measuring mRNA expression of CAT and SOD1. The data indicate increased levels of CAT with all treatments; however, only QH attenuated the expression of the SOD1 gene. To further investigate the effects of ROS-driven inflammation or cell death, IL6, CASP8 and MCL1 genes were preferentially tested. The inflammatory gene (IL6) was profoundly down-regulated in the QH-and PMA-treated groups while EC induced a strikingly high IL6 expression level. Investigation of the known apoptotic (CASP8) and anti-apoptotic (MCL1) genes found down-regulation of CASP8 in the QH-and PMA-treated groups which were contradicted to the MCL1 gene. In conclusion, quercetin can enhance ROS production by regulating the expression of genes involved in ROS production as well as in subsequent processes. 2018-09-05T04:40:56Z 2018-09-05T04:40:56Z 2018-08-01 Journal 13477439 09167250 2-s2.0-85051461100 10.1292/jvms.17-0112 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85051461100&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/59177
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Veterinary
spellingShingle Veterinary
Boondarika Nambooppha
Kornravee Photichai
Kanreuthai Wongsawan
Phongsakorn Chuammitri
Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
description © 2018 The Japanese Society of Veterinary Science. Chicken heterophils generate reactive oxygen species (ROS) molecules to defend against invading pathogens. The present study examined effects of quercetin on chicken heterophils. Heterophils were stimulated with PBS, 50 µM quercetin (QH), PMA or Escherichia coli (EC) and the resulting intracellular ROS molecules were determined. Flow cytometry results showed that cells stimulated with QH, PMA and EC had a higher ROS production. Increases in intracellular ROS molecules were identified in all treatment groups by fluorescence microscopy. Determination of the ability of quercetin to manipulate mRNA expression of ROS subunits was assessed using real-time RT-PCR. Quercetin and other stimulants up-regulated the majority of genes involved in ROS production: CYBB (NOX2), NCF1 (p47phox), NCF2 (p67phox), NOX1 and RAC2. The antioxidant property of QH was explored by measuring mRNA expression of CAT and SOD1. The data indicate increased levels of CAT with all treatments; however, only QH attenuated the expression of the SOD1 gene. To further investigate the effects of ROS-driven inflammation or cell death, IL6, CASP8 and MCL1 genes were preferentially tested. The inflammatory gene (IL6) was profoundly down-regulated in the QH-and PMA-treated groups while EC induced a strikingly high IL6 expression level. Investigation of the known apoptotic (CASP8) and anti-apoptotic (MCL1) genes found down-regulation of CASP8 in the QH-and PMA-treated groups which were contradicted to the MCL1 gene. In conclusion, quercetin can enhance ROS production by regulating the expression of genes involved in ROS production as well as in subsequent processes.
format Journal
author Boondarika Nambooppha
Kornravee Photichai
Kanreuthai Wongsawan
Phongsakorn Chuammitri
author_facet Boondarika Nambooppha
Kornravee Photichai
Kanreuthai Wongsawan
Phongsakorn Chuammitri
author_sort Boondarika Nambooppha
title Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
title_short Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
title_full Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
title_fullStr Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
title_full_unstemmed Quercetin manipulates the expression of genes involved in the reactive oxygen species (ROS) process in chicken heterophils
title_sort quercetin manipulates the expression of genes involved in the reactive oxygen species (ros) process in chicken heterophils
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85051461100&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/59177
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