JoVE Journal > Immunology and Infection
Summary
Abstract
Introduction
Protocol
Risultati
Discussion
Divulgazioni
Acknowledgements
Materials
Riferimenti
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Immunologia e infezioni

Prévention de stress thermique Effets indésirables chez les rats par<em> Bacillus subtilis</em> Strain

Published: July 11, 2016
doi:
10.3791/54122
, , ,
1Department of Anatomy, Physiology and Pharmacology,Auburn University

Summary

We described a protocol for prevention of heat stress effects in rats by oral pre-treatment with beneficial bacteria. This protocol can be modified and used for various routes of administration and for analysis of different compounds.

Abstract

Cette étude a été conçue pour évaluer l'effet protecteur de la souche de Bacillus subtilis contre les complications liées au stress thermique. Trente-deux rats Sprague-Dawley ont été utilisés dans cette étude. Les animaux ont été traités par voie orale deux fois par jour pendant deux jours avec B. subtilis souche BSB3 ou PBS. Le lendemain , après le dernier traitement, chaque groupe a été divisé et les deux groupes expérimentaux (une traités avec du PBS et traitées avec un B. subtilis) ont été placés à 45 ° C pendant 25 min. Deux groupes témoins sont restés pendant 25 min à température ambiante. Tous les rats ont été euthanasiés et différents paramètres ont été analysés dans tous les groupes. Les effets néfastes du stress thermique sont enregistrées par la diminution de la hauteur des villosités et de l'épaisseur totale de la muqueuse dans l'épithélium intestinal; la translocation des bactéries à partir de la lumière; (LPS) niveau dans le sang augmenté vesiculation des érythrocytes et de l'élévation des lipopolysaccharides. L'efficacité protectrice du traitement est évaluée par un prévention de ces effets secondaires. Le protocole a été mis en place pour le traitement oral de rats avec des bactéries pour la prévention des complications de stress de chaleur, mais ce protocole peut être modifié et utilisé pour d'autres voies d'administration et pour l'analyse de différents composés.

Introduction

Different stressors affect human and animal health. Temperature is one of the most stressful factors, causing chronic, acute and even lethal illnesses1. Changes in intestinal morphology and a loss of gut barrier integrity after heat stress were documented in many cases2,3. This protective barrier is responsible for defense against translocation of gut bacteria and their toxins, in particular lipopolysaccharides (LPS), from the lumen to the internal circulation4,5. Stability of the gut microbiota significantly influences intestinal barrier function, the immune response of the host, and tolerance to stress conditions6. Thus, modulation of the intestinal microbiota can provide a novel approach for prevention of stress-related adverse effects.

Beneficial bacteria have been used as a promising strategy to modify the gut microbiota for successful management of various clinical conditions, such as diarrhea, inflammatory bowel disease, atopic dermatitis, metabolic disorders7-10. Probiotic effects of beneficial bacteria include production of essential metabolites to support intestinal health, stimulation of the immune system, promotion of lactose tolerance, restoration of epithelial dysfunction. Probiotics were effective in prevention of the stress-related complications in vitro and in animal models11,12.

Researchers have given more attention to Bacillus bacteria as probiotics because these bacteria support intestinal homeostasis13 and have beneficial effects on the host14. Our previous data demonstrated high efficacy of Bacillus probiotics against pathogens in vitro15,16 and in clinical trials17,18. Here, we aim to evaluate the preventive effect of B. subtilis BSB3 strain against complications after heat stress.

Protocol

Toutes les procédures expérimentales ont été approuvées par IACUC de l'Université d'Auburn, Auburn, Alabama. 1. Préparation de la Culture Media, Vaisselle et culture bactérienne Inoculer 10 ml de bouillon nutritif dans un flacon avec une colonie unique de la culture BSB3 Bacillus subtilis cultivées pendant une nuit sur ​​une plaque de gélose nutritive. Faire 500 ml de milieu de sporulation 19 (par litre: Bacto Nutrient Broth, 8 g; 10% (p / v) de KCl,…

Representative Results

La température corporelle moyenne des animaux avant et immédiatement après le stress thermique était de 36,7 ± 0,07 o C et 40,3 ± 0,17 ° C, respectivement (P <0,05). L' exposition des rats à la chaleur (groupe 3) a entraîné une inhibition significative de la hauteur de villosités et de l' épaisseur totale de la muqueuse (figures 2, 3). L'administration orale de la souche BSB3 avant le stress protégé intestin de l'eff…

Discussion

L' exposition à haute température dans des conditions de santé graves 29. Prévention et détection précoce des complications liées au stress thermique sont d' une importance vitale 30. Le protocole présenté peut être utilisé pour évaluer l'efficacité de diverses approches pour la prévention des effets nocifs de stress thermique.

Les étapes critiques au sein de ce protocole comprennent: la procédure de traitement thermique (4…

Divulgazioni

The authors have nothing to disclose.

Acknowledgements

This work was supported by the Auburn University fund FOP 101002-139294-2050.

Materials


 

Phosphate buffered saline (PBS) Sigma-Aldrich, St. Louis, MO P4417
Ethyl Alcohol  Pharmco products Inc. Brookfield, CT, USA  64-17-5
Agar VWR 97064-334
MacConkey agar plates VWR 470180-742
5% blood agar plates VWR 89405-024
Brucella blood with Hemin, and Vitamin K,
 plates		 VWR 89405-032
Bouin’s Fixative Electron Microscopy Sciences, Hatfield, PA, USA 15990
IL-10 Rat ELISA kit Invitrogen, Camarillo, CA, USA KRC0101
IL-1beta Rat ELISA Kit Invitrogen, Camarillo, CA, USA KRC0011
IL-6 Rat ELISA Kit Invitrogen, Camarillo, CA, USA KRC0061
INF-gamma Rat ELISA Kit Invitrogen, Camarillo, CA, USA KRC4021
TNF-alpha Rat ELISA Kit Invitrogen, Camarillo, CA, USA KRC3011
Rat LPS ELISA Kit NeoBioLab, MA, USA RL0275
Environmental Chamber 6020-1 Caron, Marietta, OH, USA 6020-1
Centrifuge  Beckman Coulter, Indianapolis, IN, USA Optima L-90K
Ultra Centrifuge
Light microscope optical system CitoViva Technology Inc., Auburn, AL
Colony counter Fisher Scientific , Pittsburgh, PA, USA RE-3325
Freezer Haier, Brooklyn, NY, USA HCMO50LA
Ultra microplate reader Bio-Tek Instrument, Winooski, VT, USA ELx 808
Auto Strip Washer Bio-Tek Instrument, Winooski, VT, USA ELx50
Pipettes Gilson, Pipetman, France P100, P200, P1000
C24 Incubator Shaker New Brunswick Scientific, Enfield, CT, USA Classic C24
Rocking Shaker  Reliable Scientific, Inc., Nesbit, MS, USA 55
Petri dishes Fisher Scientific, Pittsburgh, PA, USA 875713 100mmX15mm
SterilGard III Advance The Baker Company, Sanford, ME, USA SG403
Culture Growing Flasks Corning Incorporated, Corning, NY, USA 4995 PYREX 250mL Erlenmeyer flasks
Optical Spectrometer Genesys 20 Thermo Scientific, Waltham, MA, USA. 4001
Sony DXC-33 Video camera Sony
Richardson test slide Electron Microscopy Science, Hatfield, PA, USA 80303
Millipore water purification system Millipore Direct-Q
Image-Pro Plus software Media Cybernetics, MD, USA
Triple Beam Balance OHAUS Corporation, Parsippany, NJ, USA
Tissue Homogenizer, Dounce VWR 71000-518
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Riferimenti

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Tags

Bacillus SubtilisHeat StressPreventionRatsSporesSporulation MediumColony Forming UnitsOral GavageRectal Temperature

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Sorokulova, I., Globa, L., Pustovyy, O., Vodyanoy, V. Prevention of Heat Stress Adverse Effects in Rats by Bacillus subtilis Strain. J. Vis. Exp. (113), e54122, doi:10.3791/54122 (2016).
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