Multidrug-Resistant Strain ExPEC Isolat Asal Puyuh (Coturnix coturnix japonica)
Wahyu Prihtiyantoro(1), Agus Purnomo(2), Sudarisman .(3), Khusnan .(4*)
(1) Akademi Peternakan Brahmaputra Yogyakarta
(2) Akademi Peternakan Brahmaputra Yogyakarta
(3) Akademi Peternakan Brahmaputra Yogyakarta
(4) Akademi Peternakan Brahmaputra Yogyakarta
(*) Corresponding Author
Abstract
Abstract
Extraintestinal Escherichia coli (ExPEC) causes colibacillosis in poultry, including quail. ExPEC is a pathogenic E. coli that causes colibacillosis outside the gastrointestinal tract of poultry, in the form of peritonitis, pericarditis, salpingitis, synovitis, osteomyelitis, septicemia, pneumonitis, nephritis, pleurisy, proventriculitis and ventriculitis. In poultry farming antibiotics are used to promote growth and egg production, prevention and treatment of bacterial infections. Antibiotic resistance is a new problem that arises in poultry farming. In this study, 24 isolates of ExPEC strain from quail were used. These isolates did not differentiate sorbitol in the MacConkey (SMAC) sorbitol test assay. Antibiotic resistance was tested based on the inhibition of bacterial growth on Muller Hinnton Agar (MHA) media. 10 types of antibiotics were used to observe their resistance in all isolates. Resistance to Amikacin (87.5%), Ampicillin (87.5%), Ciprofloxacin (100%), Clindamycin (95.83%), Cefoxacin (25.0%), Doxycycline (87.5%), Erythromycin (100%), Gentamicin (95.83%), Penicillin (95.83%) and Tetracycline (83.3%). The isolates had multidrug-resistance between 3 to 10 types of antibiotics. This study showed that ExPEC isolates from quail were resistant to the type of antibiotics tested, so that the use of antibiotics in quail culture should be limited to reduce and prevent the emergence of new antibiotic resistance.
Keyword: Escherichia coli, sorbitol-negative, quail, antibiotics resistance
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DAFTAR PUSTAKA Ali, A. and Chidrawar, V.R. (2021). Multidrug resistance among Gram negative E. coli in chicken meat (Rafha-Saudi Arabia). Journal of Pharmaceutical Research International. 33(58B): 38-48. Arenas, A., Vicente, S., Luque, I., Gomez-Villamandos, J. C., Astorga, R., Maldonado, A., and Tarradas, C. (1999). Outbreak of septicaemic colibacillosis in Japanese Quail (Coturnix coturnix japonica). Journal of Veterinary Medicine Series B. 46(6): 399-404. AL-Ferdaus, T., Hossain, K.M.M., Kabis, S.M.L. and Amin, M.M. (2012). Characterization of Escherichia coli isolates obtained from washing and rinsed water of broilers in pluck shops at Sreepur of Gazipur district in Bangladesh. Scientific Journal of Microbiology. 1(5): 126-132. Adebowale, O.O., Adeyemo, O.K., Awoyomi, O., Dada, R. and Adebowale, O., (2016). Antibiotic use and practices in commercial poultry laying hens in Ogun State Nigeria. Revue d’élevage et de médecine vétérinaire des pays tropicaux. 69(1): 41-45. Agyare, C., Boamah, V.B., Zumbi, C.N. and Osei, F.B. (2019). Antibiotic use in poultry production, and Bacterial Resistance http://dx.doi.org/10.5772/intechopen.79371 Basak, S., Singh, P. and Rajur, M. (2016). Multidrug resistant and extensively drug resistant bacteria: A Study. Journal of Pathogens. ID 4065603, 5 pages http://dx.doi.org/10.1155/2016/4065603 Butaye, P., Devriese, L.A. and Haesebrouck, F. (2003). Antimicrobial growth promoters used in animal feed: effects of less well known antibiotics on gram-positive bacteria. Clinical Microbiology Review. 16: 175-188. Buyukunal, E.B., Albazaz, R.I. and Bal, M.A. (2019). Antimicrobial susceptibilities of commensal Escherichia coli isolates recovered from cloacal samples of Japanase quails and chickens in Turkey. Pakistan Journal Zoology., 51(4): 1439-1445. Calnek, B.W., Barnes, H.J., Beard, C.W., McDougald, L.R. and Saif, Y.M. (1997). Diseases of Poultry. 10th ed. Iowa State University Press; Ames, IA, USA. Chansiripornchai, N., Pakpinyo, S. and Sasipreeyajan, J. (1995). The in vitro antimicrobial sensitivity testing of Escherichai coli isolated from commercially reared chickens. Thai Journal Veterinary Medicine. 25(4): 275-283. Costa, P.M., Loureiro, L. and Matos, A.J.F. (2013). Transfer of multidrug-resistant bacteria between intermingled ecological niches: the interface between humans, animals and the environment. International Journal Environmental Research Public Health. 10: 278-294. Courvalin, P. (2005). Antimicrobial drug resistance: prediction is very difficult, especially about the future. Emerging Infectious Diseases. 11(10): 1503-1506. Edwards, S.J. (1961). Effect of streptomycin on the growth rate and intestinal flora (Escherichia coli) of piglets. Journal of Comparative Pathology and Therapeutics. 71: 243-252. Eltai, N.O., Yassine, H.M., Al Thani, A.A., Madi, M.A.A., Ismail, A., Ibrahim, E. and Alali, W.Q. (2018). Prevalence of antibiotic resistant Escherichia coli isolates from fecal samples of food handlers in Qatar. Antimicrobial Resistance & Infection Control. 7: 1-7. Farghaly, E.M., Samy, A. and Roshdy, H. (2017). Wide prevalence of critically important antibiotic resistance in Egyptian quail farms with mixed infections. Veterinary Science. 3(1): 17-24. Gambi, L., Rossini, R., Menandro, M.L., Franzo, G., Valentini, F., Tosi, G., D’Incau, M. and Fiorentini, L. (2022). Virulence factors and antimicrobial resistance profile of Escherichia coli isolated from laying hens in Italy. Animals, 12, 1812. https://doi.org/10.3390/ ani1214181 Ghodousi, A., Bonura, C., Noto, A.M.D. and Mammina, C. (2015). Extended-spectrum β-lactamase, AmpC-producing, and fluoroquinolone-resistant Escherichia coli in retail broiler chicken meat, Italy. Foodborne Pathogens and Diseases. 12(7): 619-625. Gita, K., Prasad, B.N., Sinha, A.K., Sapna, K., Quasim, A. and Modi, G. (2001). In-vitro antibiotic resistance pattern of Escherichia coli isolated from quails (Coturnix coturnix japonica). Indian Journal of Poultry Science. 36(3): 344-345 Goetting, V., Lee, K.A. and Tell, L.A. (2011). Pharmacokinetics of veterinary drugs in laying hens and residues in eggs: a review of the literature. Journal Veterinary Pharmacology and Therapeutics. 34: 521-556. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Handbook of Veterinary Drugs. Lippincott, Philadelphia, pp. Hasan, B., Faruque, R., Drobni, M., Waldenstrom, J., Sadique, A., Ahmed, K.U. and Alam, M. (2011). High prevalence of antibiotic resistance inpathogenic Escherichia coli from large- and small-scale poultry farms in Bangladesh. Avian Diseases. 55(4): 689-692. Hess, C., Troxler, S., Jandreski-Cvetkovic, D., Zloch, A. and Hess, M. (2022). Escherichia coli isolated from organic laying hens reveal a high level of antimicrobial resistance despite no antimicrobial treatments. Antibiotics. 11(4), 467; https://doi.org/10.3390/antibiotics11040467 Ibrahim, A.I., Elattar, A.A. and El-Shahidy, M. (1997). Studies on E. coli isolates from repiratory affected bfoilrs and protection evaluation of prepared bacteriner. Assiut Veterinary Medicine Journal. 37(74):152-162. Islam, M.T., Talukder, A.K., Rahman, M.A., Haider, M.D. and Rahman, A.N.M.A. (2016). Incidence of diseases in Japanese quail (Coturnix coturnix japonica) with special reference to bacterial and viral diseases in some selected areas of Bangladesh. Asian-Australasian Journal of Bioscience and Biotechnology. 1(3): 410-418. Jahantigh, M. and Dizaji, R.E. (2015). Antimicrobial drug resistance pattern of Escherichia coli isolated from chickens farms with colibacillosis infection. Open Journal Medicine Microbiology. 5: 159-162. Johnson, T.J., Logue, C.M., Johnson, J.R., Kuskowski, M.A., Sherwood, J.S., Barnes, H.J., DebRoy, C., Wannemuehler, Y.M., Yasuoka, O., Spanjaard, M. and Nolan, L.K. (2012). Associations between multidrug resistance, plasmid content, and virulence potential among extraintestinal pathogenic and commensal Escherichia coli from humans and poultry. Foodborne Pathogens and Diseases. 9: 37-46. Kabir, L.S.M. (2010). Avian colibacillosis and salmonellosis: a closer look at epidemiology, pathogenesis, diagnosis, control and public health concerns. International Journal of Environmental Research and Public Health. 7: 89-114. Kazemnia, A., Ahmadi, M. and Dilmaghani, M. (2014). Antibiotic resistance pattern of different Escherichia coli phylogenetic groups isolated from human urinarytract infection and avian colibacillosis. Iranian Biomedical Journal. 18(4): 219-224. Kilonzo-Nthenge, A., Nahashon, S.N., Chen, F. and Adefope, N. 2008. Prevalence and antimicrobial resistance of pathogenic bacteria in chicken and guinea fowl. Poultry Sciences. 87: 1841-1848. Landman, W.J.M. and van Ec. J.H.H. 2015. The incidence and economic impact of the Escherichia coli peritonitis syndrome in dutch poultry farming. Avian Pathology. 44(5): 370-378. Leekha, S., Terrell, C.L. and Edson, R.S. 2011. General principles of antimicrobial therapy. Mayo Clinic Proceedings. 86(2): 156-167. Levy, S., Islam, M.S., Sobur, M.A., Talukder, M., Rahman, M.B., Rahman Khan, M.F.R. and Rahman, M.T.M.T. (2020). Molecular detection of avian pathogenic Escherichia coli (APEC) for the first time in layer farms in Bangladesh and their antibiotic resistance patterns. Microorganisms. 8(7): 1021.9. doi: 10.3390/microorganisms8071021 Li, Y., Chen, L., Wu, X. and Huo, S. (2015). Molecular characterization of multidrug-resistant avian pathogenic Escherichia coli isolated from septicemic broilers. Poultry Science. 94: 601-611. Liu, Y., Dyall-Smith, M., Marenda, M., Hu, H.W., Browning, G. and Billman-Jacobe, H. (2020). Antibiotic resistance genes in antibiotic-free chicken farms. Antibiotics. 9(3): 120-124. Magiorakos, A.P., Srinivasan, A., Carey, R.B., Carmeli, Y., Falagas, M.E., Giske, C.G., Harbarth, S, Hindler, J.F., Kahlmeter, G., Olsson-Liljequist, B., Paterson, D.L., Rice, L.B., Stelling, J., Struelens, M.J., Vatopoulos, A., Weber, J.T. and Monnet, D.L. (2012). Multidrug-resistant, extensively drug-resistant and pandrug-resistant bacteria: an international expert proposal for interim standard definitions for acquired resistance. Clinical Microbiology Infection. 18(3): 268-281. Mailafia, M., Nagappan, D. and Bamaiyi, P.H. (2017). Phenotypic and molecular characterization of Escherichia coli isolates from Japanese quails (Coturnix-coturnix japonica) in Kelantan, Malaysia. Jornal of Microbiology Biotechnology and Food Sciences. 3(1): 01-08. Mandal, A.K., Talukder, S., Hasan, M.M. and Tasmim, S.T., Parvin, M.S., Ali, M.A. and Islam, M.T. (2022). Epidemiology and antimicrobial resistance of Escherichia coli in broiler chickens, farm workers, and farm Sewagein Bangladesh. Veterinary Medical Science. 8:187-199. Marshall, B.M. and Levy, S.B. 2011. Food animals and antimicrobials: impacts on human health. Clinical Microbiology Reviews. 24(4): 718-733. Mendonca, N., Figueiredo, R., Mendes, C., Card, R.M., Anjum, M.F. and da Silva, G.J. (2016). Microarray evaluation of antimicrobial resistanceand virulence of Escherichia coli isolates from Portuguese poultry. Antibiotics. 5(4): 1-9. Messai, C.R., Ait-Oudhia, K., Khelef, D., Hamdi, T.M., Chenouf, N.S. and Messai, M.R. (2015). Serogroups and antibiotics susceptibility pattern of avian pathogenic Escherichia coli strains responsible for colibacillosis in broiler breeding farms in the east of Algeria. African Journal Microbiology Research. 9.(49): 2358-2363. Mgaya, F.X., Matee, M.I., Muhairwa, A.P. and Hoza, A.S. (2021). Occurrence of multidrug resistant Escherichia coli in raw meat and cloaca swabs in poultry processed in slaughter slabs in Dar es Salaam, Tanzania. Antibiotics. 10, 343. https://doi.org/10.3390/antibiotics10040343 Miranda, J.M., Vázquez, B.I., Fente, C.A., Barros-Velázquez, J., Cepeda, A. and Franco, C.M. (2008). Evolution of resistance in poultry intestinal Escherichia coli during three commonly used antimicrobial therapeutic treatments in poultry. Poultry Science. 87: 1643-1648. Mohammad, N., Torshizi, K., Amir, M. Shaban, R. and Sorensen, D.T. (2019). Synergistic effect of phage therapy using a cocktail rather than a single phage in the control of severe colibacillosis in quails. Poultry Science. 98(2): 653-663. Naghavi, M., Murray, C.J.L., Ikuta, K.S., Mestrovic, T., Swetschinski, L. and Sartorius, B. (2022). Global Burden of Antimicrobial Resistance: Essential Pieces of a Global Puzzle Authors’ Reply. Lancet. 399: 2349-2350. NCCLS, (2007). Clinical and Laboratory Standards Institute. M100-S17. Performance standards for antimicrobial susceptibility testing; 16th Informational supplement. Clinical and Laboratory Standards Institute, Wayne, PA. Nhung, N.T., Chansiripornchai, N. and Carrique-Mas, J.J. (2017). Antimicrobial resistance in bacterial poultry pathogens: A Review. Frontieres Veterinary in Science. 4:126. doi: 10.3389/fvets.2017.00126 Nolan, L.K., Vaillancourt, J-P., Barbieri, N. and Logue C.M. (2020). Colibacillosis. In: Swayne DE, Boulianne M, Logue CM, McDougald LR, Nair VL, Suarez DL, editors. Diseases of Poultry. 14th Edition. Hoboken: John Wiley and Sons, Inc; 770-830 Prihtiyantoro, W., Khusnan, Slipranata, M. and Rosyidi, I. (2019). Prevalence of avian pathogenic Escherichia coli (APEC) strains causes colibacillosis in quail. Journal Sain Veteriner. 37(1): 69-79. Radwan I.A., Salam, H.S.H., Abd-El Aziz Abd-Alwanis, S. and Al-Sayed, M.A.Y. (2014). Frequency of some virulence associated genes among multidrug-resistant Escherichia coli isolated from septicemic broiler chicken. International Journal of Advanced Research. 2(12): 867-874. Rahman, M.M., Husna, A., Elshabrawy, H.A., Alam, J., Runa, N.Y., Badruzzaman, A.T.M., Banu, N.A., Al Mamun, M., Paul, B., Das, S., Rahman, M.M., Mahbub E Elahi, A.T.M., Khairalla, A.S. and Ashour, H.M. (2020) Isolation and molecular characterization of multidrug resistant Escherichia coli from chicken meat. Scientific Reports. 10:21999, https://doi.org/10.1038/s41598-020-78367-2 Racewicz, P., Majewski, M., Biesiada, H., Nowaczewski, S., Wilczyński, J., Wystalska, D., Kubiak, M., Pszczoła, M. and Madeja, Z.E. (2022). Prevalence and characterisation of antimicrobial resistance genes and class 1 and 2 integrons in multiresistant Escherichia coli isolated from poultry production. Scientific Reports, 12:6062, https://doi.org/10.1038/s41598-022-09996-y Racewicz, P., Majewski, M., Madeja, Z.E., Lukomska, A. and Kubiak, M. (2018). Role of integrons in the proliferation of multiple drug resistance in selected bacteria occurring in poultry production. British Poultry Science. 61: 122-131. Raji, M., Adekeye, J., Kwaga, J., Bale, J. and Henton, M. (2007). Serovars and biochemical characterization of Escherichia coli isolated from colibacillosis cases and dead-in-shell embryos in poultry in Zaria-Nigeria. Veterinarski Arhiv. 77(6): 495-505. Reig, M. and Toldra, F. (2008). Veterinary drug residues in meat: concerns and rapid methods for detection. Meat Science. 78: 60-67. Roy, P., Purushothaman, V., Koteeswaran, A. and Dhillon, A.S. (2006). Isolation, characterization, and antimicrobial drug resistance pattern of Escherichia coliisolated from Japanese quail and their environment. Journal of Applied Poultry Research. 15: 442-446. Rugumisa, B.T., Call, D.R., Mwanyika, G.O., Subbiah, M. and Buza, J. (2016). Comparison of the prevalence of antibiotic-resistant Escherichia coli isolates from commercial-layer and free-range chickens in Arusha district, Tanzania. African Journal of Microbiolgy Research. 10(34): 1422-1429. Saha, S.D.K., Det, R., Das, D.R. and Som, T.L. (1993). Biocllemical and drug sensitivity tests on E. coli isolated from quails. Journal of Veterinary and Animals Science. 24: 153-160. Saidi, B., Mafirakureva, P. and Mbanga, J. (2013). Antimicrobial resistance of Escherichia coli isolated from chickens with colibacillosis in and around harare, Zimbabwe. Avian Diseases. 57:152-154. Salehi, M. and Ghanbarpour, R. (2010). Phenotypic and genotypic properties of Escherichia coli isolated from colisepticemic cases of Japanese quail. Tropical Animals Health Production. 42(7):1497-1504. Scioli, C., Espostito, S., Anzilotti, G., Pavone, A. and Pennucci, C. (1983). Transferable drug resistance in Escherichia coli isolated from antibiotic-fed chickens. Poultry Science. 62: 382-384. Sevilla-Navarro, S., Catalá-Gregori, P., Torres-Boncompte, J., Orenga, M.T., Garcia-Llorens, J. and Cortés, V. (2022). Antimicrobial Resistance Trends of Escherichia coli Isolates: A Three-Year Prospective Study of Poultry Production in Spain. Antibiotics. 11, 1064. https:// doi.org/10.3390/antibiotics11081064 Shehu, Z., Adamu, Y.A., Garba, S., Ahmad, U.S. and Bodinga, A.H. (2015). Antibiotic resistance of isolates of Escherichia coli from chicken in Sokoto Metropolis, Nigeria. Journal Microbiology. 4(6): 34-39. Sokol, A., Koppel Z. and Mikula, L. (1969). Dynamics of incidence of antibiotic-(chemotherapeutic-) resistant E. coli in pigs and types of polyresistance of the isolated strains depending on addition of aureovit12 C20 to food. Journal of Hygiene Epidemiology, Microbiology and Immunology. 13(3): 347-357. Song, Y., Yu, L., Zhang, Y., Dai, Y., Wang, P., Feng, C., Liu, M., Sun, S., Xie, Z. and Wang, F. (2020). Prevalence and characteristics of multidrug-resistant mcr-1-positive Escherichia coli isolates from broiler chickens in Taiwan, China. Poultry Science. 99:1117-1123. Stehling, E.G., Campos, T.A., Azevedo, V., Brocchi, M. and Silveira, W.D. (2007). DNA sequencing of a pathogenicity-related plasmid of an avian septicemic Escherichia coli strain. Genetics Molecular Research. 6: 231-237. Subedi, M., Luitel, H., Devkota, B., Bhattarai, R.K., Phuyal. S., Panthi, P., Shrestha, A. and Chaudhary, D.K. (2018). Antibiotic resistance pattern and virulence genes content in avian pathogenic Escherichia coli (APEC) from broiler chickens in Chitwan, Nepal. BMC. Veterinary Research. 14(14): 102-113. Talebiyan, R., Kheradmand, M., Khamesipour, F. and Rabiee-Faradonbeh, M. (2014). Multiple antimicrobial resistance of Escherichia coli isolated from chickens in Iran. Veterinary Medicine International. Article ID 491418, 4 pages http://dx.doi.org/10.1155/2014/491418. Taunde P.A., Bianchi M.V., Mathai V.M., De Lorenzo C., Gaspar B.D.C.B., Correia I.S.M., Laisse C.J.M. and Driemeier, D. (2021). Pathological, microbiological and immunohistochemical characterization of avian colibacillosis in broiler chickens of Mozambique. Pesquisa Veterinaria Brasileira. 41:e06831, doi: 10.1590/1678-5150-PVB-6831 Usmana, S., Anjumb, A., Usmanc, M., Imrana, M.S., Alid, M., Moustafae, M., Rehmang, M.S., Hussainh, T., Sarwari, F., Azad, A., Hussainj, I., Naseerh, J., Tiwanak, U. and Hafeez, S. (2022). Antibiotic resistance pattern and pathological features of avian pathogenic Escherichia coli O78:K80 in chickens. Brazilian Journal of Biology. 84, e257179. doi.org/10.1590/1519-6984.257179 Van Boeckel, T.P., Pires, J., Silvester, R., Zhao, C., Song, J., Criscuolo, N.G., Gilbert, M., Bonhoeffer, S. and Laxminarayan, R. (2019). Global trends in antimicrobial resistance in animals in low- and middle-income countries. Science. 365, Issue 6459. doi: 10.1126/science.aaw1944. Wang, X., Cao, C., Huan, H., Zhang, L., Mu, X., Gao, Q., Dong, X., Gao, S. and Liu, X. (2015). Isolation, identification, and pathogenicity of O142 avian pathogenic Escherichia coli causing black proventriculus and septicemia in broiler breeders. Infection Genetics Evolution. 32: 23-29. Wang, M., Jiang, M., Wang, Z., Chen, R., Zhuge, X. and Dai, J. (2021). Characterization of antimicrobial resistance in chicken-source phylogroup F Escherichia coli: similar populations and resistance spectrums between E. coli recovered from chicken colibacillosis tissues and retail raw meats in Eastern China. Poultry Science. 100(9): 101370. doi: 10.1016/j.psj.2021.101370 WHO (2015) http://www.who.int/mediacentre/factsheets/antibiotic-resistance/en/. WHO (2021). Antimicrobial resistance. https://www.who.int/news-room/fact-sheets/detail/antimicrobial-resistance Wibisono, F.J., Sumiarto, B., Untari, T., Effendi, M.H., Permatasari, D.A. and Witaningrum, A.M. (2021). Cases of Multidrug Resistance (MDR) and extended spectrum beta-lactamase (ESBL) producing Escherichia coli from broiler chicken in Blitar, Indonesia. Biochemical and Cellular Archives. 7(21): 1923-1929. Younis, W., Sabra, M., Elmahallawy, E.K. and Sayed, H.H. (2021). Isolation and characterization of some Enterobacteriaceae isolated from early mortalities in Japanese quail chicks at Qena Governorate, Egypt. Assiut Veterinary Medicine Journal. 67(170):19-36. Zou, M., Ma, P.P., Liu, W.S., Liang, X., Li, X.Y., Li, Y.Z. and Liu, B.T. 2021. Prevalence and antibiotic resistance characteristics of extraintestinal pathogenic Escherichia coli among healthy chickens from farms and live poultry markets in China. Animals. 11, 1112. doi.org/10.3390/ani11041112
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