Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers

Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers

Climatic changes and heat stress have become a great challenge in the livestock industry, negatively affecting, in particular, poultry feed intake and intestinal barrier malfunction. Recently, phytogenic feed additives were applied to reduce heat stress effects on animal farming. Here, we investigat...

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Main Authors: Georg Sandner, Andreas S. Mueller, Xiaodan Zhou, Verena Stadlbauer, Bettina Schwarzinger, Clemens Schwarzinger, Uwe Wenzel, Klaus Maenner, Jan Dirk van der Klis, Stefan Hirtenlehner, Tobias Aumiller, Julian Weghuber
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Molecules
Subjects:
ginseng extract
heat stress
intestinal barrier
broiler
Online Access:https://www.mdpi.com/1420-3049/25/4/835
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spelling doaj-8ad8e3862ea345c29c9957fc978beecd2020-11-25T00:15:37ZengMDPI AGMolecules1420-30492020-02-0125483510.3390/molecules25040835molecules25040835Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing BroilersGeorg Sandner0Andreas S. Mueller1Xiaodan Zhou2Verena Stadlbauer3Bettina Schwarzinger4Clemens Schwarzinger5Uwe Wenzel6Klaus Maenner7Jan Dirk van der Klis8Stefan Hirtenlehner9Tobias Aumiller10Julian Weghuber11School of Engineering and Environmental Sciences, University of Applied Sciences Upper Austria, Stelzhamerstraße 23, Wels 4600, AustriaDelacon Biotechnik GmbH, Weissenwolffstraße 14, Steyregg 4221, AustriaDelacon Biotechnik GmbH, Weissenwolffstraße 14, Steyregg 4221, AustriaSchool of Engineering and Environmental Sciences, University of Applied Sciences Upper Austria, Stelzhamerstraße 23, Wels 4600, AustriaSchool of Engineering and Environmental Sciences, University of Applied Sciences Upper Austria, Stelzhamerstraße 23, Wels 4600, AustriaJohannes Kepler University, Institute for Chemical Technology of Organic Materials, Linz, Austria 4040Molecular Nutrition Research, Interdisciplinary Research Centre, Justus-Liebig-University of Giessen, Heinrich-Buff-Ring 26-32, 35392 Giessen, GermanyInstitute of Animal Nutrition of Free University Berlin, Königin-Luise-Str.49, 14195 Berlin, GermanyDelacon Biotechnik GmbH, Weissenwolffstraße 14, Steyregg 4221, AustriaDelacon Biotechnik GmbH, Weissenwolffstraße 14, Steyregg 4221, AustriaDelacon Biotechnik GmbH, Weissenwolffstraße 14, Steyregg 4221, AustriaSchool of Engineering and Environmental Sciences, University of Applied Sciences Upper Austria, Stelzhamerstraße 23, Wels 4600, AustriaClimatic changes and heat stress have become a great challenge in the livestock industry, negatively affecting, in particular, poultry feed intake and intestinal barrier malfunction. Recently, phytogenic feed additives were applied to reduce heat stress effects on animal farming. Here, we investigated the effects of ginseng extract using various in vitro and in vivo experiments. Quantitative real-time PCR, transepithelial electrical resistance measurements and survival assays under heat stress conditions were carried out in various model systems, including Caco-2 cells, <i>Caenorhabditis elegans</i> and <i>jejunum</i> samples of broilers. Under heat stress conditions, ginseng treatment lowered the expression of <i>HSPA1A</i> (Caco-2) and the heat shock protein genes <i>hsp-1</i> and <i>hsp-16.2</i> (both in <i>C. elegans</i>), while all three of the tested genes encoding tight junction proteins, <i>CLDN3</i>, <i>OCLN</i> and <i>CLDN1</i> (Caco-2), were upregulated. In addition, we observed prolonged survival under heat stress in <i>Caenorhabditis elegans</i>, and a better performance of growing ginseng-fed broilers by the increased gene expression of selected heat shock and tight junction proteins. The presence of ginseng extract resulted in a reduced decrease in transepithelial resistance under heat shock conditions. Finally, LC-MS analysis was performed to quantitate the most prominent ginsenosides in the extract used for this study, being Re, Rg1, Rc, Rb2 and Rd. In conclusion, ginseng extract was found to be a suitable feed additive in animal nutrition to reduce the negative physiological effects caused by heat stress.https://www.mdpi.com/1420-3049/25/4/835ginseng extractheat stressintestinal barrierbroiler
collection DOAJ
language English
format Article
sources DOAJ
author Georg Sandner
Andreas S. Mueller
Xiaodan Zhou
Verena Stadlbauer
Bettina Schwarzinger
Clemens Schwarzinger
Uwe Wenzel
Klaus Maenner
Jan Dirk van der Klis
Stefan Hirtenlehner
Tobias Aumiller
Julian Weghuber
spellingShingle Georg Sandner
Andreas S. Mueller
Xiaodan Zhou
Verena Stadlbauer
Bettina Schwarzinger
Clemens Schwarzinger
Uwe Wenzel
Klaus Maenner
Jan Dirk van der Klis
Stefan Hirtenlehner
Tobias Aumiller
Julian Weghuber
Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
Molecules
ginseng extract
heat stress
intestinal barrier
broiler
author_facet Georg Sandner
Andreas S. Mueller
Xiaodan Zhou
Verena Stadlbauer
Bettina Schwarzinger
Clemens Schwarzinger
Uwe Wenzel
Klaus Maenner
Jan Dirk van der Klis
Stefan Hirtenlehner
Tobias Aumiller
Julian Weghuber
author_sort Georg Sandner
title Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
title_short Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
title_full Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
title_fullStr Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
title_full_unstemmed Ginseng Extract Ameliorates the Negative Physiological Effects of Heat Stress by Supporting Heat Shock Response and Improving Intestinal Barrier Integrity: Evidence from Studies with Heat-Stressed Caco-2 Cells, <i>C. elegans</i> and Growing Broilers
title_sort ginseng extract ameliorates the negative physiological effects of heat stress by supporting heat shock response and improving intestinal barrier integrity: evidence from studies with heat-stressed caco-2 cells, <i>c. elegans</i> and growing broilers
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2020-02-01
description Climatic changes and heat stress have become a great challenge in the livestock industry, negatively affecting, in particular, poultry feed intake and intestinal barrier malfunction. Recently, phytogenic feed additives were applied to reduce heat stress effects on animal farming. Here, we investigated the effects of ginseng extract using various in vitro and in vivo experiments. Quantitative real-time PCR, transepithelial electrical resistance measurements and survival assays under heat stress conditions were carried out in various model systems, including Caco-2 cells, <i>Caenorhabditis elegans</i> and <i>jejunum</i> samples of broilers. Under heat stress conditions, ginseng treatment lowered the expression of <i>HSPA1A</i> (Caco-2) and the heat shock protein genes <i>hsp-1</i> and <i>hsp-16.2</i> (both in <i>C. elegans</i>), while all three of the tested genes encoding tight junction proteins, <i>CLDN3</i>, <i>OCLN</i> and <i>CLDN1</i> (Caco-2), were upregulated. In addition, we observed prolonged survival under heat stress in <i>Caenorhabditis elegans</i>, and a better performance of growing ginseng-fed broilers by the increased gene expression of selected heat shock and tight junction proteins. The presence of ginseng extract resulted in a reduced decrease in transepithelial resistance under heat shock conditions. Finally, LC-MS analysis was performed to quantitate the most prominent ginsenosides in the extract used for this study, being Re, Rg1, Rc, Rb2 and Rd. In conclusion, ginseng extract was found to be a suitable feed additive in animal nutrition to reduce the negative physiological effects caused by heat stress.
topic ginseng extract
heat stress
intestinal barrier
broiler
url https://www.mdpi.com/1420-3049/25/4/835
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