• الصفحة الرئيسية
  • شناسایی مولکولی آناپلاسما فاگوسیتوفیلوم (Anaplasma phagocytophilum) در گاوها و گوسفندان استان گیلان

شارک

عنوان URL للمقالة


رقم المقالة : JVCP-2007-1274 (R2) زيارة : 410 الصفحة: 263 - 283

10.30495/jvcp.2020.1904886.1274

نوع المخطوط: ابحاث

شناسایی مولکولی آناپلاسما فاگوسیتوفیلوم (Anaplasma phagocytophilum) در گاوها و گوسفندان استان گیلان

الموضوعات :

نصرالله واحدی نوری 1 , وحید نعمان 2 , ابراهیم رحیم ابادی 3

1 - استادیار بخش تحقیقات بیماری‌های انگلی، موسسه تحقیقات واکسن و سرم‌سازی رازی، سازمان تحقیقات، آموزش و ترویج کشاورزی، کرج، ایران.
2 - دانشیار بخش تحقیقات بیماری‌های انگلی، موسسه تحقیقات واکسن و سرم‌سازی رازی، سازمان تحقیقات، آموزش و ترویج کشاورزی، کرج، ایران.
3 - مربی بخش تحقیقات بیماری‌های انگلی، موسسه تحقیقات واکسن و سرم‌سازی رازی، سازمان تحقیقات، آموزش و ترویج کشاورزی، کرج، ایران.

تاريخ الإرسال : 07 الثلاثاء , ذو الحجة, 1441 تاريخ التأكيد : 08 الأربعاء , جمادى الأولى, 1442 تاريخ الإصدار : 05 الخميس , ربيع الأول, 1442

الکلمات المفتاحية: گیلان, گاو, گوسفند, شناسایی مولکولی, آناپلاسما فاگوسیتوفیلوم,

ملخص المقالة :

گونه آناپلاسما فاگوسیتوفیلوم یکیاز باکتری‌های بیماری زای نوپدید منتقله توسط کنه‌ها می‌باشد که باعث ایجاد بیماری مشترک بین انسان و بسیاری از حیوانات می‌گردد و به همین دلیل اهمیت آن در بهداشت عمومی جامعه قابل‌توجه می‌باشد. هدف از انجام مطالعه حاضر، شناسایی مولکولی گونه آناپلاسما فاگوسیتوفیلوم در گاوها و گوسفندان استان گیلان بود. بدین منظور در طول سال 1397، تعداد 200 نمونه خون از طریق رگ وداج گاوها و 200 نمونه خون از طریق رگ وداج گوسفندان، به‌طور تصادفی از نقاط مختلف استان گیلان جمع‌آوری گردید. جهت آزمایش PCR (polymerase chain reaction)، در ابتدا DNA استخراجی از نمونه‌های خونی، با جفت آغازگری که قطعه 1468 جفت بازی از ژن 16S rRNA جنس آناپلاسما را تکثیر می‌کند، تکثیر داده شد. 70 نمونه‌ مثبت اولیه گاوی با استفاده از روش nested-PCR از نظر وجود گونه آناپلاسما فاگوسیتوفیلوم بررسی شدند و در نتیجه 66 نمونه (33 درصد)، مثبت تشخیص داده شد. همچنین 38 نمونه مثبت اولیه گوسفندی با استفاده از روش nested-PCR، ازنظر وجود گونه آناپلاسما فاگوسیتوفیلوم بررسی شدند که 10 نمونه (5 درصد)، از این نظرمثبت تشخیص داده شدند. تحلیل مقایسه ای درصد فراوانی آلودگی به آناپلاسما فاگوسیتوفیلوم گاوها و گوسفندان مورد آزمایش، در ارتباط با فصول مختلف سال، سنین مختلف، جنسیت دام، ارتفاع از سطح دریا، ناقلین و نوع دامداری (نیمه‌صنعتی- سنتی) هم نشان داد که فقط فراوانی گونه آناپلاسما فاگوسیتوفیلوم در گوسفندان استان گیلان، بین دو نیمه اول و دوم سال دارای اختلاف آماری معنی‌دار بود (05/0 p < /em><). نتایج مطالعه نشان داد که آناپلاسما فاگوسیتوفیلوم از گونه های رایج آناپلاسما در بین دام های استان گیلان می باشد. با توجه به نقش آناپلاسما فاگوسیتوفیلوم در بروز آناپلاسموزیس گرانولوسیتیک در انسان، این موضوع به لحاظ بهداشت عمومی حائز اهمیت می باشد.

المصادر:

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    •
  • ●Ben Said, M.B., Belkahia, H. and Messadi, L. (2018). Anaplasma spp. in North Africa: a review on molecular epidemiology, associated risk factors and genetic characteristics. Vector-borne and zoonotic diseases, 9(3): 543-555.
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  • ● Hayder N.A., Yahia I.­K. and Qassim H.K. (2019). Molecular detection and phylogenetic analysis of Anaplasma spp in cattle in Al-Qadisiyah province of Iraq. Macedonian Veterinary Review, 42(2): 181-188.
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    •
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    •
  • ● Hulínská, D., Langøová, K., Pejèoch, M., and Pavlásek, I. (2004). Detection of Anaplasma­phagocytophilum in animals by real-time polymerase chain reaction. Journal of Pathology, Microbiolgy and Immunology, 112(4-5): 239-247.
    •
  • ● Jalali, S.M., Khaki, Z., Kazemi, B., Bandehpour, M., Rahbari, S., Jalali M.R., et ­al. (2013). Molecular detection and identification of Anaplasma species in sheep from Ahvaz, Iran. Iranian Journal of Veterinary Research, 14(1): 50-56.
    •
  • ● Kiilerich, A.M., Christensen, H. and Thamsborg, S.M. (2009). Anaplasma phagocytophilum in Danish sheep: confirmation by DNA sequencing. Acta Veterinaria Scandinnavia, 51(1): 55.
    •
  • ● Kocan, K.M., de la Fuente, J., Guglielmone, A.A. and Melendez, R.D. (2003). Antigens and alternatives for control of   Anaplasma marginale infection in cattle. Clinical Microbiology Reviews, 16(4): 698-712.
    •
  • ● Laloy, E., Petit, E., Boulouis, H.J., Gandoin, C., Bouillin, C., Gounot, G., et al. (2009). Dynamics of natural infection by Anaplasma phagocytophilum in a dairy cattle herd in Brittany, France. Clinical Microbiology and Infection, 15(2): 24-25.
    •
  • ● Leatch, G. (1973). Preliminary studies on the transmission of Anaplasma marginale by Boophilus­microplus. Australian Veterinary Journal, 49(1): 16-19.
    •
  • ● Muhammad, S.S., Rao Muhammmad, S.S., Ahmad Khan, Z.I. and Muhammad, N.K. (2014). Prevalence and Risk Factors of Anaplasmosis in Cattle and Buffalo Populations of District Khanewal, Punjab, Pakistan. Global Veterinaria, 12(1): 146-153.
    •
  • ● Noaman, V. (2017) A review of anaplasmosis and the prevalence of Anaplasma marginale in cattle in Iran and the world. Veterinary Researches & Biological Products, 116(3): 2-15. [In Persian]
    •
  • ● Noaman, V. (2019). A review on Anaplasma phagocytophilum as a zoonotic agent. Tehran University Medical Journal, 76(12): 778-785. [In Persian]
    •
  • ● Noaman, V., Allameh, S.K. and Nabavi, R. (2017). Anaplasmosis in Ruminants of Iran: An Overview. Advanced Techniques in Clinical Microbiology, 1(2): 1-3.
    •
  • ● Noaman, V. and Moradi, M. (2019). Molecular epidemiology and risk factors assessment of Anaplasma spp. on dairy cattle in Southwest of Iran. Acta Veterinaria Eurasia, 45(1): 30-36.
    •
  • ● Noaman, V., Nabinejad, A., Shahmoradi, A. and Esmaeilkhanian, S. (2016). Molecular detection of bovine leukocytic Anaplasma species in Isfahan, Iran. Research in Molecular Medicine, 4(2): 47-51.
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_||_

Ahmadi-Hamedani, M., Khaki, Z., Rahbari, S., Kazemi, B. and Bandehpour, M. (2009). Molecular identification of anaplasmosis in goats using a new PCR-RFLP method. Iranian Journal of Veterinary Research, 10(29): 367-372.

  • ● Aktas, M. and Özübek, S. (2015). Bovine anaplasmosis in Turkey: First laboratory confirmed clinical cases caused by Anaplasma phagocytophilum. Veterinary Microbiology, 178(3-4): 246-251.
    •
  • ● Awad, H., Antunes, S., Galindo, R.C., do Rosario, V.E., de la Fuente, J., Domingos, A., et al. (2011) Prevalence and genetic diversity of Babesia and Anaplasma species in cattle in Sudan, Veterinary Parasitology, 181(2-4): ­146-152.
    •
  • ●Annen, K., Friedman, K., Eshoa, C., Horowitz, M., Gottschall, J. and Straus, T. (2012) Two cases of transfusion-transmitted Anaplasma phagocytophilum. American Journal of Clinical Pathology, 137(4): 562-565
    •
  • ● Barlough, J.E., Madigan, J.E., DeRock, E. and Bigornia, L. (1996). Nested polymerase chain reaction for detection of Ehrlichia equi genomic DNA in horses and ticks (Ixodes pacificus).­ Veterinary Parasitology, ­63(3-4): 319-329.
    •
  • ● Bashiribod, H, Kazemi, K., Eslami, G., Bigdeli, S., Bandehpour, M., Rahbarian, N., et al. (2004). First molecular detection of Anaplasma phagocytophilum in Ixodes ricinus ticks in Iran. Journal of Medical Sciences, 4(4): 282-286.
    •
  • ●Ben Said, M.B., Belkahia, H. and Messadi, L. (2018). Anaplasma spp. in North Africa: a review on molecular epidemiology, associated risk factors and genetic characteristics. Vector-borne and zoonotic diseases, 9(3): 543-555.
    •
  • ● de la Fuente, J., Estrada-Peña, A., Cabezas-Cruz, A. and Kocan, K.M. (2016). Anaplasma­phagocytophilum uses common strategies for infection of ticks and vertebrate hosts. Trends in Microbiology, 24(3): 173-180.
    •
  • ● de la Fuente, J., Naranjo, V., Ruiz- Fons, F., Hofle, U., Fernandez De Mera, I.G., Villanua, D., et ­al. (2005b). ­Potential vertebrate reservoir hosts and in vertebrate vectors of Anaplasma marginale and A. phagocytophilum in central Spain. Vector Borne Zoonotic Diseases, 5(4): 390-401.
    •
  • ● Eisawi, N., El Hussein, A., Hassan, D., Musa, A., Hussien, M., Enan, K­., et ­al. (2020) A molecular prevalence survey on Anaplasma infection among domestic ruminants in Khartoum State, Sudan. Tropical Animal Health and Production, 52(4): 1845-1852.
    •
  • ● Elhassan, A.M., Mansour, M.E.A., Shamon, A.A.A., and El Hussein, A.M. (2014) A Serological Survey of Akabane Virus Infection in Cattle in Sudan. ISRN. Veterinary Science, 2014: 123904.
    •
  • ●Gaowa Yoshikawa, Y., Ohashi, N., Wu, D., Kawamori, F., Ikegaya, A., Watanabe, T., et al. (2014). Anaplasma phagocytophilum antibodies in humans, Japan, 2010-2011. Emerging Infectious Diseases, 20(3): 508-509.
    •
  • ● Grøva, L., Olesen, I., Steinshamn, H. and Stuen, S. (2011). Prevalence of Anaplasma phagocytophilum infection and effect on lamb growth. Acta Veterinaria Scandinnavia, 53(1): 30.
    •
  • ● Hayder N.A., Yahia I.­K. and Qassim H.K. (2019). Molecular detection and phylogenetic analysis of Anaplasma spp in cattle in Al-Qadisiyah province of Iraq. Macedonian Veterinary Review, 42(2): 181-188.
    •
  • ● Hamzah, K.J. and Hasso, S.A. (2019). Molecular prevalence of Anaplasma phagocytophilum in sheep from Iraq. Open Veterinary Journal, 9(3): 238-245.
    •
  • ● Hanène, B., Mourad, B.S., Alberto, A., Khaoula, A.Z.I., Dorra, H., Mohamed, G., et ­al. (2015). First molecular survey and novel genetic variants’ identification of Anaplasma marginale, A.­centrale and A.­bovis in cattle from Tunisia. Infection, Genetics and Evolution, 34(1): 361-371.
    •
  • ● Hofmann-Lehmann, R., Meli, M.L., Dreher, U.M., Gonczi, E., Deplazes, P., Braun, U., et al. (2004). Concurrent infections with vector-borne pathogens associated with fatal hemolytic anemia in a cattle herd in Switzerland. ­Journal of Clinical Microbiology, 42(8): 3775-3780.
    •
  • ● Hosseini-Vasoukolaei, N., Oshaghi, M.A., Shayan, P., Vatandoost, H., Babama hmoudi, F., Yaghoobi -Ershadi, M.R., et al. (2014). Anaplasma Infection in ticks, livestock and human in Ghaemshahr, Mazandaran province, Iran. Iranian Journal of Arthropod Borne Disease, 8(2): 204-211.
    •
  • ● Hulínská, D., Langøová, K., Pejèoch, M., and Pavlásek, I. (2004). Detection of Anaplasma­phagocytophilum in animals by real-time polymerase chain reaction. Journal of Pathology, Microbiolgy and Immunology, 112(4-5): 239-247.
    •
  • ● Jalali, S.M., Khaki, Z., Kazemi, B., Bandehpour, M., Rahbari, S., Jalali M.R., et ­al. (2013). Molecular detection and identification of Anaplasma species in sheep from Ahvaz, Iran. Iranian Journal of Veterinary Research, 14(1): 50-56.
    •
  • ● Kiilerich, A.M., Christensen, H. and Thamsborg, S.M. (2009). Anaplasma phagocytophilum in Danish sheep: confirmation by DNA sequencing. Acta Veterinaria Scandinnavia, 51(1): 55.
    •
  • ● Kocan, K.M., de la Fuente, J., Guglielmone, A.A. and Melendez, R.D. (2003). Antigens and alternatives for control of   Anaplasma marginale infection in cattle. Clinical Microbiology Reviews, 16(4): 698-712.
    •
  • ● Laloy, E., Petit, E., Boulouis, H.J., Gandoin, C., Bouillin, C., Gounot, G., et al. (2009). Dynamics of natural infection by Anaplasma phagocytophilum in a dairy cattle herd in Brittany, France. Clinical Microbiology and Infection, 15(2): 24-25.
    •
  • ● Leatch, G. (1973). Preliminary studies on the transmission of Anaplasma marginale by Boophilus­microplus. Australian Veterinary Journal, 49(1): 16-19.
    •
  • ● Muhammad, S.S., Rao Muhammmad, S.S., Ahmad Khan, Z.I. and Muhammad, N.K. (2014). Prevalence and Risk Factors of Anaplasmosis in Cattle and Buffalo Populations of District Khanewal, Punjab, Pakistan. Global Veterinaria, 12(1): 146-153.
    •
  • ● Noaman, V. (2017) A review of anaplasmosis and the prevalence of Anaplasma marginale in cattle in Iran and the world. Veterinary Researches & Biological Products, 116(3): 2-15. [In Persian]
    •
  • ● Noaman, V. (2019). A review on Anaplasma phagocytophilum as a zoonotic agent. Tehran University Medical Journal, 76(12): 778-785. [In Persian]
    •
  • ● Noaman, V., Allameh, S.K. and Nabavi, R. (2017). Anaplasmosis in Ruminants of Iran: An Overview. Advanced Techniques in Clinical Microbiology, 1(2): 1-3.
    •
  • ● Noaman, V. and Moradi, M. (2019). Molecular epidemiology and risk factors assessment of Anaplasma spp. on dairy cattle in Southwest of Iran. Acta Veterinaria Eurasia, 45(1): 30-36.
    •
  • ● Noaman, V., Nabinejad, A., Shahmoradi, A. and Esmaeilkhanian, S. (2016). Molecular detection of bovine leukocytic Anaplasma species in Isfahan, Iran. Research in Molecular Medicine, 4(2): 47-51.
    •
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