Effect of probiotic supplementation on adipokine profile (visfatin, adiponectin and chemerin), intestinal (citrulline) and thyroid functions in Japanese quails subjected to heat stress
Küçük Resim Yok
Tarih
2020
Yazarlar
Dergi Başlığı
Dergi ISSN
Cilt Başlığı
Yayıncı
European Poultry Science
Erişim Hakkı
info:eu-repo/semantics/restrictedAccess
Özet
In this study, we aimed to determine the effect of probiotic supplementation of Lactobacillus reuteri E81 (LRE; 200, 400, 600 mg/kg) to the diets of Japanese quail ( Coturnix coturnix japonica) reared under heat stress (HS) on serum adipokine (visfatin, adiponectin and chemerin), intestinal (citrulline) and thyroid hormone levels. On day 7 of the trial, the animals were assigned to 8 groups [Control temperature (CT): control (C, without LRE supplementation), LRE-200, LRE-400 and LRE-600 and HS: control (HSC), SLRE-200, SLRE-400 and SLRE-600], each composed of 56 animals of equal body weight. Each group was divided into 4 subgroups withg 14 animals per compartment. During the experiments, the temperature applied to the CT-groups C, LRE-200, LRE-400 and LRE-600 was 25°C and to the HS-groups HSC, SLRE-200, SLRE-400 and SLRE-600 was 37°C. At the end of the study (days 21 and 42), a dose-dependent decrease in citrulline, chemerin, adiponectin, and thyroid hormones and a dose-dependent increase in the visfatin hormone level (p < 0.01) due to LRE supplementation were observed in the HS and CT groups compared to its control. In conclusion, the present study showed that dietary supplementation with 600 mg/kg of LRE affected serum chemerin, adiponectin, T3, T4, TSH and visfatin levels in Japanese quail raised under heat stress (p < 0.001).
Açıklama
Anahtar Kelimeler
Japanese Quail; probiotic; heat stress; adiponectin; chemerin; visfatin; citrulline; T3; T4; TSH
Kaynak
European Poultry Science
WoS Q Değeri
Q4
Scopus Q Değeri
Q3
Cilt
2020
Sayı
84
Künye
AL-AZRAQI, A.A, 2008: Pattern of leptin secretion and oxidative markers in heat-stressed pigeons. Int. J. Poult. Sci.
7, 1174-1176.
AL‐DAWOOD, A, 2017: Effect of heat stress on adipokines and some blood metabolites in goats from Jordan. Anim.
Sci. J. 88, 356-363.
AL-FATAFTAH, A.R., A. ABDELQADER, 2014: Effects of dietary Bacillus subtilis on heat-stressed broilers performance,
intestinal morphology and microflora composition. Anim. Feed Sci. Technol.198, 279-285.
AOAC, 2005: Official Methods of Analysis, 16th Edition. Association analytical chemists, Arlington, VA, USA.
AWAD, W.A., K. GHAREEB, S. ABDEL-RAHEEM, J. BÖHM, 2009: Effects of dietary inclusion of probiotic and synbiotic on
growth performance, organ weights, and intestinal histomorphology of broiler chickens. Poult. Sci. 88, 49-56.
BARBE, A., A. BONGRANI, N. MELLOUK, A. ESTIENNE, P. KUROWSKA, J. GRANDHAYE, J. DUPONT, 2019: Mechanisms of
adiponectin action in fertility: An overview from gametogenesis to gestation in humans and animal models in
normal and pathological Conditions. Int. J. Mol. Sci. 20, 1526.
BAXTER, M.F., J.D. LATORRE, S. DRIDI, R. MERINO-GUZMAN, X. HERNANDEZ-VELASCO, B.M. HARGIS, G.TELLEZ-ISAIAS,
2019: Identification of serum biomarkers for intestinal integrity in a broiler chicken malabsorption model. Front
Vet Sci. 6, 144-150.
BAYRAKTAR, B, 2018: Antidiyabetik, Proinflamatuvar, Kardiyoprotektif Etkiye Sahip Bir Adipositokin Visfatin
Hormonun Fizyolojik Sistemler Üzerindeki Etkisinin İncelenmesi.(içinde):Temel Sağlık Bilimleri. Oğuz Ö
(editör).Cilt 1. Baskı 1. s.163-168. Akademisyen Yay, Ankara, Türkiye.
BAYRAKTAR, B., E. TEKCE, 2018: Deneysel Olarak Sıcaklık Stresi Oluşturulan Broilerde Farklı Oranlarda Kullanılan
Bazı Bitkisel Ekstrelerin Serum Demir Seviyesine Etkisinin İncelenmesi. J. Trad. Complement Med. 1, 50-55.
BEHROUZ, V., S. JAZAYERI, N. ARYAEIAN, M.J. ZAHEDI, F. HOSSEINI, 2017: Effects of probiotic and prebiotic
supplementation on leptin, adiponectin, and glycemic parameters in non-alcoholic fatty liver disease: a
randomized clinical trial. Middle East J. Dig. Dis. 9, 150.
BERNABUCCI, U., L. BASIRICO, P. MORERA, N. LACETERA, B. RONCHI, A. NARDONE, 2009: Heat shock modulates
adipokines expression in 3T3-L1 adipocytes. J. Mol. Endocrinol. 42/2, 139-147.
BOWEN, S.J., K.W. WASHBURN, 1985: Thyroid and adrenal response to heat stress in chickens and quail differing in
heat tolerance. Poultry Sci. 64/1,149-154.
CHAN, K.H., K.S.L. LAM, O.Y. CHENG, J.S.C. KWAN, P.W.L. HO, K.K.Y. CHENG, A. XU, 2012: Adiponectin is
protective against oxidative stress induced cytotoxicity in amyloid-beta neurotoxicity. PloSone. 7/12, e52354.
CHEN, B., W.Q. LIAO, N. XU, H. XU, J.Y. WEN, C.A. YU, W. CAMPBELL, 2009: Adiponectin protects against cerebral
ischemia–reperfusion injury through anti-inflammatory action. Brain Res. 1273, 129-137.
CRENN, P., B. MESSING, L. CYNOBER, 2008: Citrulline as a biomarker of intestinal failure due to enterocyte mass
reduction. Clin Nutr. 27, 328-339.
DE MELO PEREIRA, G.V., B. DE OLIVEIRA COELHO, A.I.M. JÚNIOR, V. THOMAZ-SOCCOL, C.R. SOCCOL, 2018: How to select
a probiotic? A review and update of methods and criteria. Biotechnol. Adv. 36, 2060-2076.
DEMIRCI, Ş., G. CENNET, 2019: Adipoz Doku ve Adipoz Dokudan Salgılanan Bazı Proteinler. MAKÜ Sağ Bil Enst Derg.
5, 155-179.
DIOT, M., M. REVERCHON, C. RAME, P. FROMENT, J.P. BRILLARD, S. BRIÈRE, J. DUPONT, 2015: Expression of adiponectin,
chemerin and visfatin in plasma and different tissues during a laying season in turkeys. Reprod. Biol. Endocrinol.
13, 1-14.
DÖNMEZ, N., E. KESKIN, 2009: The effects of aflatoxin and glucomannan on coagulation parameters in rabbits. Vet.
Arh. 79, 555-560.
Europ.Poult.Sci., 84. 2020, ISSN 1612-9199, © Verlag Eugen Ulmer, Stuttgart. DOI: 10.1399/eps.2020.309
15.06.2020 11 / 14
DROCHNER, W., STADERMANN, B., YILDIZ, G., 1993: Einfluss von Pektinen auf Leistung und Estoffwechsel des
Geflügels. Übers.Tierernährg. 21, 121-180.
DUTTA, D., S. GHOSH, K. PANDIT, P. MUKHOPADHYAY, S. CHOWDHURY, 2012: Leptin and cancer: Pathogenesis and
modulation. Indian J Endocrinol Metab. 16, S596–S600.
DUTTA, S., P. SENGUPTA, A. BISWAS, 2019: Adiponectin in male reproduction and infertility. Asian Pac. J. Reprod. 8,
244.
ERNST, M.C., M. ISSA, K.B. GORALSKI, C.J. SINAL, 2010: Chemerin exacerbates glucose intolerance in mouse models
of obesity and diabetes. Endocrinology 151, 1998-2007.
ESTIENNE, A., A. BONGRANI, M. REVERCHON, C. RAMÉ, P.H. DUCLUZEAU, P. FROMENT, J. DUPONT, 2019: Involvement of
novel adipokines, chemerin, visfatin, resistin and apelin in reproductive functions in normal and pathological
conditions in humans and animal models. Int. J. Mol. Sci. 20, 1-45.
FOLIGNE, B., F. SÉNÉGAS-BALAS, J.M. ANTOINE, C. CAYUELA, N. ROLF-PEDERSEN, D. BALAS, 2004: Trophic status of the
small intestine in young and aged rats: modulation by a yogurt-supplemented diet. Dig. Dis. Sci. 49, 1291-1301.
FRÜHBECK, G., V. CATALÁN, A. RODRÍGUEZ, B. RAMÍREZ, S. BECERRIL, J. SALVADOR, J. GÓMEZ-AMBROSI, 2017:
Involvement of the leptin-adiponectin axis in inflammation and oxidative stress in the metabolic syndrome. Sci.
Rep.7, 1-8.
GORALSKI, K.B., A.E. JACKSON, B.T. MCKEOWN, C.J. SINAL, 2019: More than an adipokine: the complex roles of
chemerin signaling in cancer. Int. J. Mol. Sci. 20, 1-28.
GRADINARU, D., D. MARGINA, C. BORSA, C. IONESCU, M. ILIE, M. COSTACHE, G.I. PRADA, 2017: Adiponectin: possible
link between metabolic stress and oxidative stress in the elderly. Aging Clin. Exp. Res. 29, 621-629.
HAYS, F.A., A.H. SUMBARDO, 1926: Physical Characters of Eggs in Relation to Hatchability. Poult. Sci. 6, 196-200.
HENDRICKS III, G.L., J.A. HADLEY, S.M. KRZYSIK-WALKER, K.S. PRABHU, R. VASILATOS-YOUNKEN, R. RAMACHANDRAN,
2009: Unique profile of chicken adiponectin, a predominantly heavy molecular weight multimer, and relationship
to visceral adiposity. Endocrinology 150, 3092-3100.
HOSSEINI, E., J. CHERAGHI, S.S. TAHERI, K. TAHERPOUR, K.Z. KAVIANI, L. REZAZADEH, 2013: Thyroid hormones
investigation under heat stress in broilers administered with probiotic (BIO-SAF) and prebiotic (BIO-MOS). Europ.
J. Exper. Biol. 3, 562-567.
INCHAROEN, T., R. CHAROENSOOK, S. ONODA, W. TATRAKOON, S. NUMTHUAM, T. PECHKONG, 2019: The effects of heatkilled
lactobacillus plantarum supplementation on growth performance, intestinal morphology, and immunerelated
gene expression in broiler chickens. Anim. Feed. Sci. Tech. 257, doi: 10.1016/j.anifeedsci. 2019.114272.
KHAJALI, F., S. KARIMI, D. QUJEQ, 2008: Probiotics in drinking water alleviate stress of induced molting in feeddeprived
laying hens. Asian-Australas. J. Anim. Sci. 21, 1196-1200.
KHALIL, H.A., A.M. HANAFY, H.S.A. ELHALIM, F.A. ATTIA, M.E. MADY, 2008: Effect of fasting periods on productive
performance and thyroid hormones levels of Japanese quail exposed to high temperature. Agricult. Research J.
Suez Canal Uni. 8, 1-8.
KUKLA, M., K. ZWIRSKA-KORCZALA, M. HARTLEB, M. WALUGA, A. CHWIST, M. KAJOR, R. BULDAK, 2010: Serum
chemerin and vaspin in non-alcoholic fatty liver disease. Scand. J. Gastroenterol. 45, 235-242.
LARBIER, M., B. LECLERCQ, 1994: Nutrition and feeding of poultry. Nottingham (UK), Nottingham University Press,
1994.
LEE, H., T.H. TU, B.S. PARK, S. YANG, J.G. KIM, 2019: Adiponectin reverses the hypothalamic microglial
inflammation during short-term exposure to fat-rich diet. Int. J. Mol. Sci. 20, 1-12.
LIN, H., E. DECUYPERE, J. BUYSE, 2004: Oxidative stress induced by corticosterone administration in broiler chickens
(Gallus gallus domesticus): 1. Chronic exposure. Comp. Biochem. Physiol. B, Biochem. Mol. Biol. 139, 737-744.
Europ.Poult.Sci., 84. 2020, ISSN 1612-9199, © Verlag Eugen Ulmer, Stuttgart. DOI: 10.1399/eps.2020.309
15.06.2020 12 / 14
MEDINA-GÓMEZ, G, 2012: Mitochondria and endocrine function of adipose tissue. Best Pract. Res. Cl. En. 26, 791-
804.
MELLOUK, N., C. RAMÉ, A. BARBE, J. GRANDHAYE, P. FROMENT, J. DUPONT, 2018: Chicken is a useful model to
investigate the role of adipokines in metabolic and reproductive diseases. Int. J. Endocrinol. V. 2018,
https://doi.org/10.1155/2018/4579734.
MIN, L., J.B. CHENG, B.L. SHI, H.J. YANG, N. ZHENG, J.Q. WANG, 2015: Effects of heat stress on serum insulin,
adipokines, AMP-activated protein kinase, and heat shock signal molecules in dairy cows. J. Zhejiang Univ. Sci. B
16, 541-548.
MORERA, P., L. BASIRICÒ, K. HOSODA, U. BERNABUCCI, 2012: Chronic heat stress up-regulates leptin and adiponectin
secretion and expression and improves leptin, adiponectin and insulin sensitivity in mice. J. Mol. Endocrinol. 48,
129-138.
MOSCHEN, A.R., A. KASER, B. ENRICH, B. MOSHEIMER, M. THEURL, H. NIEDEREGGER, H. TILG, 2007: Visfatin an
adipocytokine with proinflammatory and immunomodulating properties. J. Immunol. Res. 178, 1748-1758.
MOUNTZOURIS, K.C., P. TSITRSIKOS, I. PALAMIDI, A. ARVANITI, M. MOHNL, G. SCHATZMAYR, K. FEGEROS, 2010: Effects
of probiotic inclusion levels in broiler nutrition on growth performance, nutrient digestibility, plasma
immunoglobulins, and cecal microflora composition. Poult. Sci. 89, 58-67.
MULLUR, R., Y.Y. LIU, G.A. BRENT, 2014:Thyroid hormone regulation of metabolism. Physiol. Rev. 94, 355-382.
NIKOLOVA, N., Z. PAVLOVSKI, N. MILOŠEVIĆ, L. PERIĆ, 2007: The quantity of abdominal fat in broiler chicken of
different genotypes from fifth to seventh week of age. Biotech. Anim. Husbandry 23, 331-338.
OUCHI, N., K. WALSH, 2007: Adiponectin as an anti-inflammatory factor. Clin. Chim. Acta. 380, 24-30.
PARK, H.G., S.I. HAN, S.Y. OH, H.S. KANG, 2005: Cellular responses to mild heat stress. Cell. Mol. Life Sci. 62, 10-23.
PERIC, L., N. MILOSEVIC, D. ZIKIC, S. BJEDOV, D. CVETKOVIC, S. MARKOV, T. STEINER, 2010: Effects of probiotic and
phytogenic products on performance, gut morphology and cecal microflora of broiler chickens. Archiv Tierz. 53,
350-359.
PILZ, S., H. MANGGE, B. OBERMAYER-PIETSCH, W. MÄRZ, 2007: Visfatin/pre-B-cell colony-enhancing factor: a protein
with various suggested functions. J. Endocrinol. Invest. 30, 138-144.
POURVALI-TALATAPPEH, P., E. ALIPOOR, 2019: Visfatin; a potential novel mediator of brown adipose tissue. Obes.
Med. 15, 1-2.
PRINGSULAKA, O., K. RUEANGYOTCHANTHANA, N. SUWANNASAI, R. WATANAPOKASIN, P. AMNUEYSIT, S.
SUNTHORNTHUMMAS, A. RANGSIRUJI, 2015: In vitro screening of lactic acid bacteria for multi-strain probiotics.
Livest. Sci. 174, 66-73.
ROH, S.G., S.H. SONG, K.C. CHOI, K. KATOH, V. WITTAMER, M. PARMENTIER, S.I. SASAKI, 2007: Chemerin - a new
adipokine that modulates adipogenesis via its own receptor. Biochem. Biop. Res. Co. 362, 1013-1018.
RONGVAUX, A., R.J. SHEA, M.H. MULKS, D. GIGOT, J. URBAIN, O. LEO, F. ANDRIS, 2002: Pre‐B‐cell colony‐enhancing
factor, whose expression is up‐regulated in activated lymphocytes, is a nicotinamide phosphoribosyltransferase, a
cytosolic enzyme involved in NAD biosynthesis. Eur. J. Immunol. 32, 3225-3234.
SALEH, K.M., M.B. AL-ZGHOUL, 2019: Effect of acute heat stress on the mRNA levels of cytokines in broiler chickens
subjected to embryonic thermal manipulation. Animals 9, 499-501.
SCHEJA, L., J. HEEREN, 2019: The endocrine function of adipose tissues in health and cardiometabolic disease. Nat.
Rev. Endocrinol. 15, 507-524.
SHILOAH, E., H. KANETY, O. COHEN, S. WITZ, A. BUCHS, C. PARIENTE, M.J. RAPOPORT, 2007: Acute psychotic stress is
associated with decreased adiponectin serum levels. J. Endocrinol. Invest. 30, 382-387.
Europ.Poult.Sci., 84. 2020, ISSN 1612-9199, © Verlag Eugen Ulmer, Stuttgart. DOI: 10.1399/eps.2020.309
15.06.2020 13 / 14
SPIERS, D.E., R.A. MCNABB, F.A. MCNABB, 1974: The development of thermoregulatory ability, heat seeking
activities, and thyroid function in hatchling Japanese quail (Coturnix coturnix japonica). J. Comp. Physiol. 89, 159-
174.
ST-PIERRE, N.R., B. COBANOV, G. SCHNITKEY, 2003: Economic losses from heat stress by US livestock industries. J.
Dairy Sci. 86, E52-E77.
TEKCE, E., M. GÜL, 2015: Sıcaklık Stresi Altında Beslenen Etçi Piliçlerde Origanum Syriacum Uçucu Yağının
performans Antioksidan Potansiyel Lipid Profili Bağırsak Mikroflorası ve Et Kalitesine Etkisi. Doktora Tezi, AÜ
Sağlık Bilimleri Enstitüsü, Erzurum.
TSAO, T.S., E. TOMAS, H.E. MURREY, C. HUG, D.H. LEE, N.B. RUDERMAN, H.F. LODISH, 2003: Role of disulfide bonds in
Acrp30/adiponectin structure and signaling specificity different oligomers activate different signal transduction
pathways. J. Biol. Chem. 278, 50810-50817.
WANG, G., W.K. KIM, M.A. CLINE, E.R. GILBERT, 2017: Factors affecting adipose tissue development in chickens: A
review. Poult. Sci. 96, 3687-3699.
WITTAMER, V., J.D. FRANSSEN, M. VULCANO, J.F. MIRJOLET, E. LE POUL, I. MIGEOTTE, A. MANTOVANI, 2003: Specific
recruitment of antigen-presenting cells by chemerin, a novel processed ligand from human inflammatory fluids. J.
Exp. Med. 198, 977-985.
XU, Y., X. LAI, Z. LI, X. ZHANG, Q. LUO, 2018: Effect of chronic heat stress on some physiological and immunological
parameters in different breed of broilers. Poult. Sci. 97, 4073-4082.
YILMAZ, Y., O. YONAL, R. KURT, Y.O. ALAHDAB, F. EREN, O. OZDOGAN, E. AVSAR, 2011: Serum levels of omentin,
chemerin and adipsin in patients with biopsy-proven nonalcoholic fatty liver disease. Scand. J. Gastroenterol. 46,
91-97.
ZABEL, B.A., A.M. SILVERIO, E.C. BUTCHER, 2005: Chemokine-like receptor 1 expression and chemerin-directed
chemotaxis distinguish plasmacytoid from myeloid dendritic cells in human blood. J. Immunol. Res. 174, 244-
251.
ZHOU, Z., H. CHEN, H. JU, M. SUN, 2018: Circulating chemerin levels and gestational diabetes mellitus: A systematic
review and meta-analysis. Lipids Health Dis. 17, 169-180.
ZHANG, R, M. ZHOU, Y. TU, N. ZHANG, K. DENG, T. MA, Q. DIAO, 2016: Effect of oral administration of probiotics on
growth performance, apparent nutrient digestibility and stress‐related indicators in holstein calves. J Anim.
Physiol. An. N. 100, 33-38.
Europ.Poult.Sci., 84. 2020, ISSN 1612-9199, © Verlag Eugen Ulmer, Stuttgart. DOI: 10.1399/eps.2020.309
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https://hdl.handle.net/20.500.12403/2179
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