Effect of light colour temperature on expression and serum profile of selected immune markers in layers


H. EL-EMAM
U. ABOU-ISMAIL
I. EL-ARABY
M. FOUDA
A. ATEYA
Resumen

This study was carried out to quantify the effects of different temperatures of light colour on expression and serum profile of selected immune markers in Fayoumi layers. A total of 165 Fayoumi healthy pullets, 17 weeks of age were used. At laying, birds were separated in well ventilated environmentally-controlled rooms and allocated into three groups of 55 birds each (5 males and 50 females) for 3 months and these birds represented the base generation (F0). Fertile eggs were collected and the newly hatched chicks were also divided into three groups from first day of life till 3 months after laying and these represented the first generation (F1). In the two generations, the first group (control) was exposed to cool white LED light (day light) (6500 kelvin), the second group was exposed to very cool white LED light (sky blue light) (10000 kelvin) and the third group was exposed to warm white LED light (yellow light) (2700 kelvin). Birds of each group of the two generations were evaluated for expression profile of TLR4 and IL10 genes and serum level of IL10. Results showed that blue light-exposed groups, in the two generations, exhibited a higher up-regulation of TLR4 and IL10 genes and increased serum level of IL10 compared to groups experienced either white or yellow light colour. Comparison between F0 and F1 individuals revealed improved genetic profiles for F1 birds. The results therefore elucidate the benefits of using blue light in improving the immune status of layers in order to predict the most susceptible risk time for disease incidence and to build up an effective management regimen.

Article Details
  • Sección
  • Research Articles
Descargas
Los datos de descargas todavía no están disponibles.
Citas
Abdel-Azeem AF, Borham BE (2018) Productive and physiological response of broiler chickens exposed to different colored light-emitting diode and reared under different stocking densities. Egypt Poult Sci J 38(4): 1243-1264.
Abdo SE, El-Kassas S, El-Nahas AF, Mahmoud S (2017) Modulatory effect of monochromatic blue light on heat stress response in commercial broilers. Oxid Med Cell Longev 2017: 1-13.
Abu Tabeekh MAS (2016) An investigation on the effect of light color and stocking density on some blood parameters of broilers and layers. Donn J Agric Res 3(2): 8-12.
Alattar E, Elwasife K, Radwan E (2019) The Effect of Light-Emitting Diode Light on the Physical Traits of Chicks. Open J Anim Sci 9(4):481-491.
Archer GS (2018) Effect of type of Light Source and Location of Light Source on Layer Production, Stress and Fear During the Start of Lay. Int J Poult Sci 17(2): 92-99.
Archer GS (2019) How Does Red Light Affect Layer Production, Fear, and Stress? Poult Sci 98(1): 3-8.
Archer GS (2016) Comparison of raising broiler chickens under light emitting diode or incandescent light at differing intensities on growth, stress and fear. Int J Poult Sci 15(11): 425-431.
Ateya AI, Arafat N, Saleh RM, Ghanem HM, Naguib D, Radwan HA, Elseady YY (2019) Intestinal gene expressions in broiler chickens infected with Escherichia coli and dietary supplemented with probiotic, acidifier and synbiotic. Vet Res Commun 43 (2):131-142.
Baghban-Kanani P, Hosseintabar-Ghasemabad B, Azimi-Youvalari S, Seidavi AR, Laudadio V, Mazzei D, Tufarelli V (2020) Effect of dietary sesame (Sesame indicum L) seed meal level supplemented with lysine and phytase on performance traits and antioxidant status of latephase laying hens. Asian Autral J Anim 33(2): 277-285.
Bekeredjian Ding I, Jego G (2009) Toll‐like receptors-sentries in the Bcell response. Immunology 128(3): 311-323.
Bell DD, Weaver WD, North MO (2002) The World’s Commercial Chicken Meat and Egg Industries. In Commercial Chicken Meat and Egg production. Ed Kluwer Academic Publishers, The Netherlands, pp. 3-17.
Blatchford R, Klasing K, Shivaprasad H, Wakenell P, Archer G, Mench J (2009) The effect of light intensity on the behavior, eye and leg health, and immune function of broiler chickens. Poult Sci 88(1): 20-28.
Borille R, Garcia, RG, Royer, AFB, Santana MR, Colet S, Naas IA, Caldara FR, Almeida ICL, Rosa ES, Castilho VAR (2013) The use of light-emitting diodes (LED) in commercial layer production. Braz J Poult Sci 15(2): 135-140.
Bowmaker J, Knowles A (1977) The visual pigments and oil droplets of the chicken retina. Vision Res 17(7): 755-764.
Cao J, Liu W, Wang Z, Xie D, Jia L, Chen Y (2008) Green and blue mono chromatic lights promote growth and development of broilers via stimulating testosterone secretion and myofiber growth. J Appl Poult Res 17(2):211-218.
Chen F, Reheman A, Cao J, Wang Z, Dong Y, Zhang Y, Chen Y (2016) Effect of melatonin on monochromatic light-induced T-lymphocyte proliferation in the thymus of chickens. J Photochem Photobiol B 161(8): 9-16.
da Silva DCF, dE Arruda AMV, Gonçalvis AA (2017) Quality characteristics of broiler chicken meat from free-range and industrial poultry system for the consumers. J Food Sci Technol 54(5): 1818-1826.
Deep A, Schwean-Lardner K, Crowe T, Fancher B, Classen H (2010) Effect of light intensity on broiler production, processing characteristics, and welfare. Poult Sci 89(11): 2326-2333.
Egbuniwe IC, Ayo JO (2016) Physiological roles of avian eyes in light perception and their responses to photoperiodicity. Worlds Poult Sci J 72(3): 605-614.
EL-Emam HA, Ateya AI, EL- Araby IE, Abou-Ismail UA, Fouda MM (2019) The Effect of colour temperature of light on egg production parameters and gene expression pattern of Heat Shock Protein 27 in layers. Mans Vet Med J 20(4): 9-14.
El-Sabrout K, Khalil MH (2017) Effect of LED lighting on hatchability and chick performance of chicken eggs. Pak J Zool 49(6): 2323-2325.
Er D, Wang Z, Cao J, Chen Y (2007) Effect of monochromatic light on the egg quality of laying hens. J Appl Poult Res 16(4): 605-612.
Eskdale J, Kube D, Tesch H, Gallagher G (1997) Mapping of the human IL10 gene and further characterization of the 5’ flanking sequence. Immunogenetics 46(2): 120-8.
Firouzi S, Nazarpak HH, Habibi H, Jalali SS, Nabizadeh Y, Rezaee F, Ardali R, Marzban M (2014) Effects of Color Lights on Performance, Immune Response and Hematological Indices of Broilers. J World Poult Res 4(2): 52-55
Guo YL, Ma SM, Du JJ, Chen JL (2018) Effects of light intensity on growth, anti-stress ability and immune function in yellow feathered broilers. Rev Bras Cienc Avic., 20(1): 79-84.
Foss D, Carew JL, Arnold E (1972) Physiological development of cockerels as influenced by selected wavelengths of environmental light. Poult Sci 51(6): 1922-1927.
Han S, Wang Y, Liu L, Li D, Liu Z, Shen X, Xu H, Zhao X, Zhu Q, Yin H (2017) Influence of three lighting regimes during ten weeks growth phase on laying performance, plasma levels-and tissue specific gene expression-of reproductive hormones in Pengxian yellow pullets. PloS One 12(5):1-11.
Haritova AM, Stanilova SA (2012) Enhanced expression of IL-10 in contrast to IL-12B mRNA in poultry with experimental coccidiosis. Exp Parasitol 132(3): 378-82.
Hartl FU, Hayer-Hartl M (2002) Molecular chaperones in the cytosol: from nascent chain to folded protein. Science 295(5561): 1852-1858.
Hassan MR, Sultana S, Choe HS, Ryu KS (2014) A comparison of monochromatic and mixed LED light color on performance, bone mineral density, meat and blood properties, and immunity of broiler chicks. J Poult Sci 51(2): 195-202.
Higgs R, Cormican P, Cahalane S, Allan B, Lloyd AT, Meade K, James T, Lynn DJ, Babiuk LA, O’Farrelly C (2006) Induction of a novel chicken Toll-like receptor following Salmonella enterica serovar Typhimurium infection. Infect Immun 74(3): 1692-1698.
James C, Asher L, Herborn K, Wiseman J (2018) The effect of supplementary ultraviolet wavelengths on broiler chicken welfare indicators. Appl Anim Behav Sci 209(1): 55-64.
Kamanli S, Durmus I, Demir S, Tarim B (2015) Effect of different light sources on performance and egg quality traits in laying hens. Eur Poult Sci 79: 1-7.
Knisley JR (1990) Updating light sources for new and existing facilities. Electrical Construction and Maintenance 89: 49-60.
Kogut MH, Iqbal M, He H, Philbin V, Kaiser P, Smith A (2005) Expression and function of Toll-like receptors in chicken heterophils. Dev Comp Immunol 29(9): 791-807.
Kralik G, Kralik Z, Grčević M, Hanžek D (2018) Quality of Chicekn Meat. In: Animal Husbandry and Nutrition. InTech. https://doi. org/10.5772/intechopen. 72865. BoD - Books on Demand, Germany.
Krishnan J, Selvarajoo K, Tsuchiya M, Lee G, Choi S (2007) Tolllike receptor signal transduction. Exp Mol Med 39(4): 421-438.
Li J, Cao J, Wang Z, Dong Y, Chen Y (2015) Melatonin plays a critical role in inducing B lymphocyte proliferation of the bursa of Fabricius in broilers via monochromatic lights. J Photochem Photobiol B 142(1): 29-34.
Liu K, Xin H, Settar P (2018) Effects of light-emitting diode light v. Fluorescent light on growing performance, activity levels and well-being of non-beak-trimmed W-36 pullets. Animal 12(1): 106-115.
Lu H, Adedokun SA, Adeola L, Ajuwon KM (2013) Anti-inflammatory effects of non-antibiotic alternatives in coccidia challenged broiler chickens. J Poult Sci 51(1): 14-21.
Manzanillo P, Eidenschenk C, Ouyang W (2015) Deciphering the crosstalk among IL-1 and IL-10 family cytokines in intestinal immunity. Trends Immunol 36(8): 471-478.
Marsh BJ, Williams-Karnesky RL, Stenzel-Poore MP (2009) Toll-like receptor signaling in endogenous neuroprotection and stroke. Neuroscience 158(3): 1007-1020.
Meyer B (1997) Egyptian chicken plan hatches... 50 years later. Iowa Stater, May 1997 (available at www.iastate.edu/IaStater/1997/may/chicken.html).
Mohammed H, Grashorn M, Bessei W (2010) The effects of lighting conditions on the behaviour of laying hens. Arch Geflugelkd 74(3):197-202.
Mohamed RA, Eltholth MM, El-Saidy NR (2014) Rearing broiler chickens under monochromatic blue light improve performance and reduce fear and stress during pre-slaughter handling and transportation. Biotech Anim Husb 30(3): 457-471.
Moore CB, Siopes TD (2000) Effects of lighting conditions and melatonin supplementation on the cellular and humoral immune responses in Japanese quail Coturnix coturnix japonica. Gen Comp Endocrinol 119(1): 95-104.
Moore CB, Siopes TD (2003) Melatonin Enhances Cellular and Humoral Immune Responses in the Japanese Quail (Coturnix Coturnix Japonica) via an Opiatergic Mechanism. Gen Comp Endocrinol 131(3):258-263.
National Research Council, NRC (1994) Nutrient requirements of poultry: 1994. National Academies Press.
Olanrewaju H, Purswell J, Maslin W, Collier S, Branton S (2015) Effects of color temperatures (kelvin) of LED bulbs on growth performance, carcass characteristics, and ocular development indices of broilers grown to heavy weights. Poult Sci 94(3): 338-344.
Olanrewaju H, Thaxton J, Dozier W, Purswell J, Roush W, Branton, S (2006) A review of lighting programs for broiler production. Int J Poult Sci 5(4): 301-308.
Onbaşılar EE, Erol H, Cantekin Z, Kaya U (2007) Influence of intermittent lighting on broiler performance, incidence of tibia dyschondroplasia, tonic immobility, some blood parameters and antibody production. Asian Austral J Anim 20(4): 550-555.
Parry JW, Poopalasundaram S, Bowmaker JK, Hunt DM (2004) A novel amino acid substitution is responsible for spectral tuning in a rodent violet-sensitive visual pigment. Biochemistry 43(25): 8014-8020.
Pestka S, Krause CD, Sarkar D, Walter MR, Shi Y, Fisher PB (2004) Interleukin-10 and related cytokines and receptors. Annu Rev Immunol 22(1): 929-79.
Prayitno D, Phillips C, Omed H (1997) The effects of color of lighting on the behavior and production of meat chickens. Poult Sci 76(3):452-457.
Rothwell L, Young JR, Zoorob R, Whittaker CA, Hesketh P, Archer A, Smith AL, Kaiser P, (2004) Cloning and characterization of chicken IL-10 and its role in the immune response to Eimeria maxima. Immunol 173(4): 2675-2682.
Mousa-Balabel TM, Mohamed RA, Saleh MM (2017) Using different light colors as a stress factor on broiler performance in Egypt. Aust J Basic Appl Sci 11(9): 165-170.
Rosa E, Arriaga H, Calvet S, Merino P (2019) Assessing ventilation rate measurements in a mechanically ventilated laying hen facility. Poult Sci 98(3): 1211-1221.
Rozenboim I, Biran I, Uni Z, Robinzon B, Halevy O (1999) The effect of monochromatic light on broiler growth and development. Poult Sci 78(1): 135-138.
Rozenboim I, Zilberman E, Gvaryahu G (1998) New monochromatic light source for laying hens. Poult Sci 77: 1695-1698.
Said EA, Dupuy FP, Trautmann L, Zhang Y, Shi Y, El-Far M, Hill BJ, Noto A, Ancuta P, Peretz Y, Fonseca SG, Van GJ, Boulassel MR, Bruneau J, Shoukry NH, Routy JP, Douek DC, Haddad EK, Sekaly RP (2010) Programmed death-1-induced interleukin-10 production by monocytes impairs CD4+ T cell activation during HIV infection. Nat Med 16(4): 452-459.
Saraiva M, O’Garra A (2010) The regulation of IL-10 production by immune cells. Nat Rev Immunol 10(3): 170-181.
Seo HS, Yoon MKR, Roh JH, Wei B, Ryu KS, Cha SY, Jang HK (2016) Effects of various LED light colors on growth and immune response in broilers. J Poult Sci 53(1):76-81.
Sharideh H, Zaghari M (2017) Effect of light emitting diodes with different color temperatures on immune responses and growth performance of male broiler. Ann Anim Sci 17(2): 545-553.
Sharma A, Kumar M, Aich J, Hariharan M, Brahmachari SK, Agrawal A, Ghosh B (2009) Posttranscriptional regulation of interleukin-10 expression by hsa-miR-106a. Proc Natl Acad Sci USA 106(14):5761-5766.
Shi H, Li B, Tong Q, Zheng W, Zeng, D, Feng G (2019) Effects of LED Light Color and Intensity on Feather Pecking and Fear Responses of Layer Breeders in Natural Mating Colony Cages. Animals 9(10): 814.
Soliman ES, Hassan RA (2019) Impact of lighting color and duration on productive performance and Newcastle disease vaccination efficiency in broiler chickens. Vet World 12(7): 1052-1059.
Sowunmi A, Gbotosho GO Happi CT Folarin OA, Balogun ST (1999) SPSS for Windows release 10.01 (standard version) SPSS for Windows release 10.01 (standard version).
Sultana S, Hassan MR, Choe HS, Kang MI, Kim BS, Ryu KS (2013) Effect of various LED light color on the behavior and stress response of laying hens. Indian J Anim Sci 83(8): 829-833.
Thiele H-H (2010) Light stimulation of commercial layers. World Poult 26: 18-21.
Underhill DM, Ozinsky A (2002) Toll-like receptors: key mediators of microbe detection. Curr Opin Immunol 14(1): 103-110.
Xie D, Wang Z, Dong Y, Cao J, Wang J, Chen J, Chen Y (2008) Effects of monochromatic light on immune response of broilers. Poult Sci 87(8):1535-1539.
Yang Y, Yu Y, Pan J, Ying Y, Zhou H (2016) A new method to manipulate broiler chicken growth and metabolism: Response to mixed LED light system. Sci Rep 6(1): 25972.
Yu Y, Li Z, Zhong Z, Jin S, Pan J, Rao X, Yu Y (2018) Effect of monochromatic green LED light stimuli during incubation on embryo growth, hatching performance, and hormone levels. Am Soc Agric Biol Eng 61(2): 661-669.
Yuan J, Guo Y, Yang Y, Wang Z (2007) Characterization of fatty acid digestion of Beijing fatty and arbor acres chickens. Asian Austral J Anim 20(8):1222-1228.
Yuan JS, Reed A, Chen F, Stewart CN (2006) Statistical analysis of real-time PCR data. BMC Bioinformatics 7: 85.
Zdanov A, Schalk‐Hihi C, Wlodawer A (1996) Crystal structure of human interleukin‐10 at 1.6 A resolution and a model of a complex with its soluble receptor. Protein Sci 5(10): 1955-1962.
Zhang Z, Cao J, Wang Z, Dong Y, Chen Y (2014) Effect of a combination of green and blue monochromatic light on broiler immune response. J Photochem Photobiol B 138(9): 118-123.
Zhou H, Lamont SJ (2003) Chicken MHC class I and II gene effects on antibody response kinetics in adult chickens. Immunogenetics 55(3):133-140.
Artículos más leídos del mismo autor/a