 |
 |
 |
 |
 |
 |
Sains Malaysiana 51(6)(2022):
http://doi.org/10.17576/jsm-2022-5106-06
Isolation and Establishment of eimeria tenella Populations from Local Broiler Chicken Farms
(Pemencilan dan
Penghasilan Populasi Eimeria tenella daripada Ladang Ayam Pedaging Tempatan)
SHU-SAN LOO1,2, MAZLAN MOHAMED3,
FARAH SHAFAWATI MOHD-TAIB1, CHOON-KIAT KHOO4 &
KIEW-LIAN WAN1,*
1Department of Biological Sciences
and Biotechnology, Faculty of Science and Technology, Universiti Kebangsaan
Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
2Agro-Biotechnology
Institute, National Institutes of Biotechnology Malaysia, c/o MARDI
Headquarters, 43400 Serdang, Selangor Darul Ehsan, Malaysia
3One
Biotech Sdn. Bhd., No. 9-1, Jalan 5/11C, Seksyen 5, Bandar Baru Bangi, 43650
Bangi, Selangor Darul Ehsan, Malaysia
4Veterinary
Research Institute, Department of Veterinary Services Malaysia, No. 59, Jalan
Sultan Azlan Shah, 31400 Ipoh, Perak Darul Ridzuan, Malaysia
Diserahkan: 20 Mac 2021/Diterima: 29 November 2021
Abstract
Coccidiosis is a
major intestinal disease in the chicken production industry that is caused by
one or more of the seven Eimeria species known to infect chickens.
Development of effective diagnostic methods and controls requires comprehensive
knowledge on the Eimeria species in the local population, particularly
the pathogenic E. tenella. In this study, 35 faecal samples were collected from local chicken farms,
and through microscopic observation, nine samples (26%) were found to contain Eimeria oocysts. Subsequently, two positive samples, namely NSN6 and SGR6, were
selected and propagated via passage in coccidian-free chickens. Species
identification analyses based on oocyst morphological characterisation
suggested the presence of small-sized oocysts (E. acervulina and/or E.
mitis) and medium-sized oocysts (E. necatrix, E. tenella, and/or E. praecox) in NSN6 while in
SGR6, the large-sized oocysts (E. brunetti and/or E. maxima) were also present
in addition to the small and medium-sized oocysts. Subsequently, species identification with PCR using species-specific primers was
successful in determining the presence of specific Eimeria species,
which are E. acervulina and E. tenella in NSN6, and E.
acervulina, E. tenella, and E. maxima in SGR6. The E. tenella populations of NSN6 and SGR6, namely EtNSN6 and EtSGR6, respectively, were
established via passage in coccidian-free chickens and oocyst recovery from the
caeca. The purity of EtNSN6 and EtSGR6
populations were confirmed based on oocyst morphological characterisation
and PCR. The established EtNSN6 and EtSGR6 populations would be
useful as research models for local strains in the development of more
effective control methods.
Keywords: Coccidiosis; local strains; oocyst morphology
Abstrak
Koksidiosis merupakan penyakit saluran usus utama dalam industri
penternakan ayam yang disebabkan oleh satu atau lebih daripada tujuh spesies Eimeria yang diketahui menjangkiti ayam. Pembangunan kaedah diagnostik dan kawalan yang
berkesan memerlukan pengetahuan tentang spesies Eimeria dalam populasi
tempatan, khususnya E. tenella yang patogenik. Dalam kajian ini,
sejumlah 35 sampel tinja ayam diperoleh daripada ladang ayam tempatan dan
melalui pemerhatian mikroskop, didapati sembilan sampel (26%) mengandungi
oosista Eimeria. Seterusnya, dua sampel positif, iaitu NSN6 dan SGR6,
dipilih dan dibiakkan secara pasaj dalam ayam bebas koksidia. Analisis
pengenalpastian spesies berdasarkan pencirian morfologi oosista mencadangkan
kehadiran oosista yang bersaiz kecil (E. acervulina dan/atau E. mitis)
dan oosista yang bersaiz sederhana (E. necatrix, E. tenella dan/atau Eimeria
praecox) dalam NSN6 manakala dalam SGR6, oosista yang bersaiz besar (E.
brunetti dan/atau E. maxima) juga hadir di samping oosista yang
bersaiz kecil dan sederhana. Selanjutnya, pengenalpastian spesies dengan PCR
menggunakan pencetus khusus terhadap spesies telah berjaya mengenal pasti
kehadiran spesies Eimeria secara khusus, iaitu E. acervulina dan E. tenella dalam NSN6 serta E.
acervulina, E. tenella dan E. maxima dalam SGR6. Populasi E. tenella NSN6 dan SGR6,
iaitu masing-masing EtNSN6 serta EtSGR6 dihasilkan melalui pasaj dalam ayam bebas koksidia dan perolehan
oosista daripada bahagian sekum. Ketulenan populasi EtNSN6 dan EtSGR6 kemudian
disahkan secara pencirian morfologi oosista dan PCR. Populasi EtNSN6 dan EtSGR6
adalah berguna sebagai model penyelidikan untuk strain tempatan dalam
pembangunan kaedah pengawalan yang lebih berkesan.
Kata kunci: Koksidiosis; morfologi oosista; strain tempatan
RUJUKAN
Amiruddin, N., Lee, X.W., Blake,
D.P., Suzuki, Y., Tay, Y.L., Lim, L.S., Tomley, F.M., Watanabe, J., Sugimoto,
C. & Wan, K.L. 2012. Characterisation of full-length cDNA sequences
provides insights into the Eimeria
tenella transcriptome. BMC Genomics 13(1): 21.
Barbour, E.K., Ayyash, D.B., Iyer, A., Harakeh, S.
& Kumosani, T. 2015. A review of approaches targeting the replacement of
coccidiostat application in poultry production. Brazilian Journal of Poultry
Science 17(4): 405-418.
Bhaskaran, M.S., Venkatesan, L.,
Aadimoolam, R., Jayagopal, H.T. & Sriraman, R. 2010. Sequence diversity of
internal transcribed spacer-1 (ITS-1) region of Eimeria infecting chicken and its relevance in species
identification from Indian field samples. Parasitology
Research 106(2): 513-521.
Blake,
D.P. & Tomley, F.M. 2014. Securing poultry production from the ever-present Eimeria challenge. Trends in Parasitology 30(1): 12-19.
Blake, D.P., Knox, J., Dehaeck, B.,
Huntington, B., Rathinam, T., Ravipati, V., Ayoade, S., Gilbert, W., Adebambo,
A.O., Jatau, I.D., Raman, M., Parker, D., Rushton, J. & Tomley, F.M. 2020.
Re-calculating the cost of coccidiosis in chickens. Veterinary Research 51(1): 115.
Chapman, H.D. 2014. Milestones in
avian coccidiosis research: A review. Poultry Science 93(3): 501-511.
Chapman, H.D. & Jeffers, T.K. 2014. Vaccination of
chickens against coccidiosis ameliorates drug resistance in commercial poultry
production. International Journal for
Parasitology. Drugs and Drug Resistance 4(3): 214-217.
Chapman, H.D. & Shirley, M.W. 2003. The Houghton
strain of Eimeria tenella: A review
of the type strain selected for genome sequencing. Avian Pathology 32:
115-127.
Chow, Y.P., Wan, K.L., Blake, D.P.,
Tomley, F. & Nathan, S. 2011. Immunogenic Eimeria tenella glycosylphosphatidylinositol-anchored surface
antigens (SAGs) induce inflammatory responses in avian macrophages. PLoS ONE 6(9): e25233.
Dalloul,
R.A. & Lillehoj, H.S. 2006. Poultry coccidiosis: Recent advancements in
control measures and vaccine development. Expert Review of Vaccines 5(1):
143-163.
Fernandez, S., Costa, A.C., Katsuyama, A.M., Madeira,
A.M.B.N. & Gruber, A. 2003a. A survey of the inter- and intraspecific RAPD
markers of Eimeria spp. of the
domestic fowl and the development of reliable diagnostic tools. Parasitology Research 89(6): 437-445.
Gasser,
R.B. 1999. PCR-based technology in veterinary parasitology. Veterinary
Parasitology 84(3-4): 229-258.
Györke, A., Pop, L. & Cozma, V. 2013. Prevalence and
distribution of Eimeria species in
broiler chicken farms of different capacities. Parasite 20: 50.
Hadipour,
M.M., Olyaie, A., Naderi, M., Azad, F. & Nekouie, O. 2013. Prevalence of Eimeria species in
scavenging native chickens of
Shiraz, Iran. African Journal of Poultry
Farming 5(20): 2396-3299.
Haug, A., Gjevre, A.G., Thebo, P., Mattsson,
J.G. & Kaldhusdal, M. 2008. Coccidial infections in commercial broilers:
Epidemiological aspects and comparison of Eimeria species identification by morphometric and polymerase chain reaction
techniques. Avian Pathology 37(2):
161-170.
Haziqah,
F.M.T. & Irwan-Izzauddin, N.A.N.H. 2019.
Protozoan infection in scavenging chickens from Penang Island and Bota, Perak,
Malaysia. Malaysian Journal of Veterinary Research 10(1): 103-106.
Ho,
S.K., Mandeepal, S.A.S., Nathan, S. & Wan, K.L. 2020. Immunisation of Eimeria
tenella SAG2 recombinant protein
protects chickens against the effects of coccidiosis. Sains Malaysiana 49(5): 971-978.
Jeffers, T.K. 1978. Genetics of coccidia and host response. In Proceedings of the 13th Poultry
Science Symposium, edited by Long, P.L., Boorman, K.N. & Freeman, B.M.
Edinburgh: British Poultry Science Ltd. pp. 51-125.
Johan, N., Jangi, M.S. & Wan, K.L. 2011. Isolation and characterisation of an Eimeria
tenella population from the local
jungle fowl. Sains Malaysiana 40(6): 605-611.
Joyner, L.P. & Norton, C.C. 1969. A comparison of two laboratory
strains of Eimeria tenella. Parasitology 59(4): 907-913.
Karavolias, J., Salois, M.J., Baker, K.T. &
Watkins, K. 2018. Raised without antibiotics: Impact on animal welfare and
implications for food policy. Translational Animal Science 2(4):
337-348.
Kučera,
J. 1990. Identification of Eimeria species in Czechoslovakia. Avian
Pathology 19(1): 59-66.
Kumar, S., Garg, R., Moftah, A., Clark, E.L., Macdonald, S.E., Chaudhry, A.S.,
Sparagano, O., Banerjee, P.S., Kundu, K., Tomley, F.M. & Blake, D.P. 2014. An optimised protocol for molecular identification of Eimeria from chickens. Veterinary Parasitology 199(1-2): 24-31.
Lee,
B.H., Kim, W.H., Jeong, J., Yoo, J., Kwon, Y.K., Jung, B.Y., Kwon, J.H.,
Lillehoj, H.S. & Min, W. 2010. Prevalence and cross immunity of Eimeria species on Korean chicken farms. Journal of Veterinary Medical Science 72(8):
985-989.
Lee, X.W., Lam, S.D., Firdaus-Raih, M. & Wan, K.L.
2020. Molecular characterisation of Eimeria tenella porin, a potential
anticoccidial drug target. Sains
Malaysiana 49(4): 755-764.
Loh,
T.C. 2017. Animal Feed: The Way Forward. Serdang: Penerbit Universiti Putra Malaysia.
Long, P.L. 1973. Endogenous stages of a “chick embryo-adapted” strain of Eimeria tenella. Parasitology 66(1):
55-62.
Long,
P.L. & Joyner, L.P. 1984. Problems in identification of species of Eimeria. The Journal of Protozoology 31(4): 535-541.
Loo, S.S., Blake, D.P., Mohd-Adnan, A., Mohamed, R.
& Wan, K.L. 2010. Eimeria tenella glucose-6-phosphate isomerase: Molecular characterization and assessment as a
target for anti-coccidial control. Parasitology 137(8): 1169-1177.
Loo, S.S., Lim, L.S., Efendi, N.A., Blake, D.P., Kawazu, S.I. & Wan,
K.L. 2019. Comparison of molecular methods for the detection of Eimeria in
domestic chickens in Malaysia. Sains
Malaysiana 48(7): 1425-1432.
Marquardt, W.C., Demaree, R.S. & Grieve, R.B. 2000. Parasitology
and Vector Biology. New York: Academic Press. pp 145-153.
MOA. 2018. Agrofood Statistics 2018.
Putrajaya: Policy and Strategic Planning Division. Ministry of Agriculture and
Agro-based Industry (MOA) Malaysia.
Ng, S.T., Jangi, M.S., Shirley, M.W., Tomley, F.M. & Wan, K.L. 2002.
Comparative EST analyses provide insights into gene expression in two asexual
developmental stages of Eimeria tenella. Experimental Parasitology 101:
168-173.
Norulhuda, W.W.A.W., Syakila, N.M.Z., Kamarudin,
N.T., Norlida, O. & Baharia, S.R. 2017. Coccidiosis in village chicken: A
preliminary survey in Pasir Putih district, Kelantan. Malaysian Journal of Veterinary Research 8(2): 23-28.
Ramly, N.Z., Dix, S.R., Ruzheinikov, S.N.,
Sedelnikova, S.E., Baker, P.J., Chow, Y.P., Tomley, F.M., Blake, D.P., Wan, K.L., Nathan,
S. & Rice, D.W. 2021. The structure of a major sueface antigen SAG19
from Eimeria tenella unifies the Eimeria SAG family. Communications Biology 4(1): 376.
Ramly, N.Z., Rouzheinikov, S.N., Sedelnikova, S.E.,
Baker, P.J., Chow, Y.P., Wan, K.L., Nathan, S. & Rice, D.W. 2013.
Crystallization and preliminary crystallographic analysis of a surface antigen
glycoprotein, SAG19, from Eimeria tenella. Acta Crytallographica Section F:
Structural Biology and Crystallization Communications 69(Pt 12): 1380-1383.
Reid, A.J., Blake, D.P., Ansari, H.R., Billington, K.,
Browne, H.P., Bryant, J., Dunn, M., Hung, S.S., Kawahara, F., Miranda-Saavedra,
D., Malas, T.B., Mourier, T., Naghra, H., Nair, M., Otto, T.D., Rawlings, N.D.,
Rivailler, P., Sanchez-Flores, A., Sanders, M., Subramaniam, C., Tay, Y.-L.,
Woo, Y., Wu, X., Barrell, B., Dear, P.H., Doerig, C., Gruber, A., Ivens, A.C.,
Parkinson, J., Rajandream, M.A., Shirley, M.W., Wan, K.L., Berriman, M.,
Tomley, F.M. & Pain, A. 2014. Genomic analysis of the causative agents of
coccidiosis in domestic chickens. Genome
Research 24(10): 1676-1685.
Shirley, M.W. 1995. Eimeria species and strains
of chickens. In Biotechnology - Guidelines on Techniques in Coccidiosis
Research, edited by Eckert, J., Braun, R., Shirley, M. W. & Coudert, P.
(Eds.). Luxemborg: European Commission. pp 1-24.
Shirley,
M.W., Smith, A.L. & Tomley, F.M. 2005. The biology of avian Eimeria with an emphasis on their
control by vaccination. Advances in
Parasitology 60: 285-330.
Shirzad, M.R., Seifi, S., Gheisari, H.R., Hachesoo, B.A.,
Habibi, H. & Bujmehrani, H. 2011. Prevalence and risk factors for
subclinical coccidiosis in broiler chicken farms in Mazandaran province, Iran. Tropical
Animal Health and Production 43(8): 1601-1604.
Sun,
X.M., Pang, W., Jia, T., Yan, W.C., He, G., Hao, L.L., Bentué, M. & Suo, X.
2009. Prevalence of Eimeria species
in broilers with subclinical signs from fifty farms. Avian Disease 53(2): 301-305.
Yao,
P.P., Firdaus-Raih, M., Sidek, H.M., Embi, N. & Wan, K.L. 2016. Molecular
characterisation of glycogen synthase kinase-3 from Eimeria tenella. Sains Malaysiana 45(12): 1947-1957.
Wan,
K.L., Chong, S.P., Ng, S.T., Shirley, M.W., Tomley, M.F. & Jangi, M.S.
1999. A survey of genes in Eimeria
tenella merozoites by EST sequencing. International
Journal for Parasitology 29(12): 1885-1892.
Williams,
R.B., Bushell, A.C., Reperent, J.M., Doy, T.G., Morgan, J.H., Shirley, M.W.,
Yvore, P., Carr, M.M. & Fremont, Y. 1996. A survey of Eimeria species in commercially-reared chickens in France during
1994. Avian Pathology 25(1): 113-130.
*Pengarang untuk
surat-menyurat; email: klwan@ukm.edu.my
|
|||
|
