Investigación molecular de algunas enfermedades transmitidas por vectores en ganado vacuno criado en el oeste de Turquía
Resumen
Desafortunadamente, el calentamiento global, especialmente la crisis climática global, aumenta la tasa de infecciones transmitidas por vectores. Entre las causas de esta infección se encuentran microorganismos del Orden Rickettsiales, que son microorganismos Gram negativos y cocobacilos pequeños que pueden multiplicarse dentro de las células huésped y son dependiente de su metabolismo las, además de infecciones bacterianas, protozoos como Babesia spp. y Theileria spp. se transmiten a través de vectores y causan enfermedades graves en los animales. Este estudio tuvo como objetivo investigar la presencia de algunos microorganismos bacterianos y protozoarios transmitidos por vectores en muestras de sangre tomadas de ganado criado en la provincia de Mugla, ubicada en el oeste de Turquía, y revelar datos relevantes sobre enfermedades para la región. En este estudio, se tomaron muestras de sangre de 100 bovinos y se examinaron mediante métodos moleculares. Mientras que Anaplasma phagocytophilum se detectó en 15 muestras de sangre (15%), el agente Anaplasma ovis se detectó en ocho muestras (8%). El agente Anaplasma bovis (1%) fue identificado en una sola muestra de sangre. En las muestras examinadas en el marco del estudio no se pudieron detectar especies de bacterias como Ehrlichia y Rickettsia y de parásitos como Theileria spp. y Babesia spp. La provincia de Mugla, situada al oeste de Turquía, tiene un clima estival seco subtropical, por lo que la probabilidad de infecciones transmitidas a través de artrópodos es alta. Dado que los agentes se transmiten a través de las garrapatas, es esencial realizar más estudios sobre las enfermedades transmitidas por vectores. Esto incluye mapear las garrapatas vectoras de la región y determinar y evaluar los mapas de portadores de garrapatas y enfermedades en el ganado. Se cree que los datos obtenidos ayudarán a crear mapas regionales y nacionales de enfermedades transmitidas por vectores.
Descargas
Citas
Ceylan O, Ma Z, Ceylan C, Culha MH, Galon EM, Ji S, Li H, Zafar I, Mohanta UK, Xuan X, Sevinc F. Wide bovine tick–borne pathogen spectrum: Predominancy of Theileria annulata and the first molecular detection of Ehrlichia minasensis in Turkey. Vet. Res. Commun. [Internet]. 2024; 48(2):1037–1059. doi: https://doi.org/g5rbvm
Xu J, Gu XL, Jiang ZZ, Cao XQ, Wang R, Peng QM, Li ZM, Zhang L, Zhou CM, Qin XR, Yu XJ. Pathogenic Rickettsia, Anaplasma, and Ehrlichia in Rhipicephalus microplus ticks collected from cattle and laboratory hatched tick larvae. PLOS Negl. Trop. Dis. [Internet]. 2023; 17(8):e0011546. doi: https://doi.org/g5rbvr
Diop A, El Karkouri K, Raoult D, Fournier PE. Genome sequence–based criteria for demarcation and definition of species in the genus Rickettsia. Int. J. Syst. Evol. Microbiol. [Internet]. 2020; 70(3):1738–1750. doi: https://doi.org/g5rbvv
Lu M, Tian J, Wang W, Zhao H, Jiang H, Han J, Guo W, Li K. High diversity of Rickettsia spp., Anaplasma spp., and Ehrlichia spp. in ticks from Yunnan Province, Southwest China. Front. Microbiol. [Internet]. 2022; 13:1008110. doi: https://doi.org/g5rbvw
Osorio M, Miranda J, Gonzalez M, Mattar S. Anaplasma sp., Ehrlichia sp., and Rickettsia sp. in ticks: a high risk for public health in Ibagué, Colombia. Kafkas Univ. Vet. Fak. Derg. [Internet]. 2018; 24(4):557–562. doi: https://doi.org/g5rbvx
Soosaraei M, Haghi MM, Etemadifar F, Fakhar M, Teshnizi SH, Asfaram S, Esboei BR. Status of Anaplasma spp. infection in domestic ruminants from Iran: A systematic review with meta–analysis. Parasite Epidemiol. Cont. [Internet]. 2020; 11:e00173. doi: https://doi.org/g5rbvz
Vidotto MC, Kano SF, Gregori F, Headley SA, Vidotto O. Phylogenetic analysis of Anaplasma marginale strains from Paraná State, Brazil, using the msp1α and msp4 genes. J. Vet. Med. Ser. B. [Internet]. 2006; 53(9):404–411. doi: https://doi.org/bnfvnf
Dahmani M, Davoust B, Benterki MS, Fenollar F, Raoult D, Mediannikov O. Development of a new PCR–based assay to detect Anaplasmataceae and the first report of Anaplasma phagocytophilum and Anaplasma platys in cattle from Algeria. Comp. Immunol. Microbiol. Infect. Dis. [Internet]. 2015; 39:39–45. doi: https://doi.org/f68jg5
Park J, Han DG, Ryu JH, Chae JB, Chae JS, Yu DH, Park BK, Kim HC, Choi KS. Molecular detection of Anaplasma bovis in Holstein cattle in the Republic of Korea. Acta Vet. Scand. [Internet]. 2018; 60:1–5. doi: https://doi.org/g5rbv4
Peter SG, Aboge GO, Kariuki HW, Kanduma EG, Gakuya DW, Maingi N, Mulei CM, Mainga AO. Molecular prevalence of emerging Anaplasma and Ehrlichia pathogens in apparently healthy dairy cattle in peri–urban Nairobi, Kenya. BMC Vet. Res. [Internet]. 2020; 16:364. doi: https://doi.org/g5rbv5
Dumler JS. Anaplasma and Ehrlichia Infection. Ann. N.Y. Acad. Sci. [Internet]. 2005; 1063(1):361–373. doi: https://doi.org/c6vrnc
Basit MA, Ijaz M, Khan JA, Ashraf K, Abbas RZ. Molecular evidence and hematological profile of bovines naturally ınfected with ehrlichiosis in southern Punjab, Pakistan. Acta Parasit. [Internet]. 2022; 67(1):72–78. doi: https://doi.org/g5rbv9
Peter SG. Zoonotic Anaplasma and Ehrlichia infections and their potential reservoirs: A review. Int. J. Vet. Sci. [Internet]. 2020 [cited 25 Apr. 2024]; 9(1):1–9. Available in: https://goo.su/BcWQwM
Adjadj NR, Cargnel M, Ribbens S, Quinet C, Malandrin L, Mignon B, Mori M. Prevalence of Anaplasma phagocytophilum, Borrelia burgdorferi sensu lato, Rickettsia spp. and Babesia spp. in cattle serum and questing ticks from Belgium. Ticks Tick–borne Dis. [Internet]. 2023; 14(4):102146. doi: https://doi.org/gr4nd6
Barradas PF, Mesquita JR, Ferreira P, Gärtner F, Carvalho M, Inácio E, Chivinda E, Katimba A, Amorim I. Molecular identification and characterization of Rickettsia spp. and other tick–borne pathogens in cattle and their ticks from Huambo, Angola. Ticks Tick–borne Dis. [Internet]. 2021; 12(1):101583. doi: https://doi.org/g5rbwb
Kim HK. Rickettsia–host–tick Interactions: Knowledge advances and gaps. Infect. Immun. [Internet]. 2022; 90:e00621–21. doi: https://doi.org/g5rbwc
Merino O, Almazan C, Canales M, Villar M, Moreno–Cid JA, Galindo RC, de la Fuente J. Targeting the tick protective antigen subolesin reduces vector infestations and pathogen infection by Anaplasma marginale and Babesia bigemina. Vaccine. [Internet]. 2011; 29(47):8575–8579. doi: https://doi.org/dvg4xq
Gosh S, Azhahianambi P, Yadav MP. Upcoming and future strategies of tick control: a review. J. Vector Borne Dis. [Internet] 2007 [cited 24 Apr. 2024]; 44(2):79–89. PMID: 17722860. Available in: https://goo.su/rOI52
Homer MJ, Aguilar–Delfin I, Telford III SR, Krause PJ, Persing DH. Babesiosis. Clin. Microbiol. Rev. [Internet]. 2000; 13(3):451–469. doi: https://doi.org/gqjng2
Schnittger L, Rodriguez AE, Florin–Christensen M, Morrison DA. Babesia: a world emerging. Infect. Genet. Evol. [Internet]. 2012; 12(8):1788–1809. doi: https://doi.org/f22qns
Altay K, Aydin MF, Dumanli N, Aktas M. Molecular detection of Theileria and Babesia infections in cattle. Vet Parasit. [Internet]. 2008; 158(4):295–301. doi: https://doi.org/bftwc8
Inci A, Çakmak A, Karaer Z, Dinçer S, Sayin F, Iça A. Kayseri yöresinde sığırlarda babesiosis in seroprevalansı [Seroprevalence of bovine babesiosis around Kayseri]. Turk. J. Vet. Anim. Sci. [Internet]. 2002 [cited 29 Apr. 2024]; 26(6):1345–1350. Turkish. Available in: https://goo.su/RW3H
Kar S, Güven E, Karaer Z. Ankara’da Şubat ayında Babesiosis olgusu [A Babesiosis Case in February in Ankara]. Turkiye Parazitol. Derg. [Internet]. 2008 [cited 05 May 2024]; 32(4):379–381. Turkish. Available in: https://goo.su/6uORBzF
Bishop R, Musoke A, Morzaria S, Gardner M, Nene V. Theileria: Intracellular protozoan parasites of wild and domestic ruminants transmitted by ixodid ticks. Parasitology. [Internet]. 2004; 129(1):271–283. doi: https://doi.org/ck8qks
Levine ND. Veterinary Protozoology. Ames (Iowa, USA): Iowa State University Press; 1985. Chapter 9, Apicomplexa: The Piroplasms. p. 291–328.
Taylor MA, Coop RL, Wall RL, editors. Veterinary Parasitology. 4th ed. Hoboken (New Jersey, USA): John Wiley & Sons, Inc; 2015. 1032 p.
Bell–Sakyi L, Palomar AM, Bradford EL, Shkap V. Propagation of the Israeli vaccine strain of Anaplasma centrale in tick cell lines. Vet. Microbiol. [Internet]. 2015; 179(3–4):270–276. doi: https://doi.org/f7p2vg
Pérez Pérez JC, Montoya Ruiz C, Arroyave Sierra E, Paternina LE, Rodas JD. Design and analytical validation of a duplex PCR for Ehrlichia and Rickettsia detection in ticks. Rev. Colomb. Cienc. Pec. [Internet]. 2018; 31(4):285–294. doi: https://doi.org/g5rbwj
Peng Y, Zhao S, Wang K, Song J, Yan Y, Zhou Y, Shi K, Jian F, Wang R, Zhang L, Ning C. A multiplex PCR detection assay for the identification of clinically relevant Anaplasma species in field blood samples. Front Microbiol. [Internet]. 2020; 11:606. doi: https://doi.org/g5rbwm
Gubbels JM, De Vos AP, Van der Weide M, Viseras J, Schouls LM, De Vries E, Jongejan F. Simultaneous detection of bovine Theileria and Babesia species by reverse line blot hybridization. J. Clin. Microbiol. [Internet]. 1999; 37(6):1782–1789. doi: https://doi.org/gg88dt
Shrivastava P, Dehuri M, Mohanty B, Mishra C, Venkatesh KM, Biswal SS. Molecular characterization and prevalence of bovine hemoprotozoan and rickettsial organism from Bhubaneswar, Eastern India. Anim. Biotechnol. [Internet]. 2023; 34(7):2917–2927. doi: https://doi.org/g5rbwn
Kaur R, Yadav A, Rafiqi SI, Godara R, Sudan V, Chakraborty D, Katoch R. Epidemiology, haematology and molecular characterization of haemoprotozoon and rickettsial organisms causing infections in cattle of Jammu region, North India. BMC Vet. Res. [Internet]. 2021; 17:219. doi: https://doi.org/g5rbwq
Aubry P, Geale DW. A review of bovine anaplasmosis. Transbound. Emerg. Dis. [Internet]. 2011; 58(1):1–30. doi: https://doi.org/bpsfgv
Parvizi O, El–Adawy H, Melzer F, Roesler U, Neubauer H, Mertens–Scholz K. Seroprevalence and molecular detection of bovine anaplasmosis in Egypt. Pathogens [Internet]. 2020; 9(1):64. doi: https://doi.org/g5rbwr
Spare MR, Hanzlicek GA, Wootten KL, Anderson GA, Thomson DU, Sanderson MW, Ganta RR, Reif KE, Raghavan RK. Bovine anaplasmosis herd prevalence and management practices as risk–factors associated with herd disease status. Vet. Parasitol. [Internet]. 2020; 277:100021. doi: https://doi.org/g5rbws
Ceylan O, Xuan X, Sevinc F. Primary tick–borne protozoan and Rickettsial infections of animals in Turkey. Pathogens [Internet]. 2021; 10(2):231. doi: https://doi.org/g5rbwt
Sevinç F, Xuan X. Major tick–borne parasitic diseases of animals: A frame of references in Turkey. Eurasian J. Vet. Sci. [Internet]. 2015; 31(3):132–142. doi: https://doi.org/g5rbww
Altay K, Erol U, Sahin OF, Aytmirzakizi A. First molecular detection of Anaplasma species in cattle from Kyrgyzstan; molecular identification of human pathogenic novel genotype Anaplasma capra and Anaplasma phagocytophilum related strain. Ticks Tick–borne Dis. [Internet]. 2022; 13(1):101861. doi: https://doi.org/g5rbwx
Seerintra T, Saraphol B, Thanchomnang T, Piratae S. Molecular prevalence of Anaplasma spp. in cattle and assessment of associated risk factors in Northeast Thailand. Vet World. [Internet]. 2023; 16(8):1702–1707. doi: https://doi.org/g5rbw2
Yan Y, Jiang Y, Tao D, Zhao A, Qi M, Ning C. Molecular detection of Anaplasma spp. in dairy cattle in southern Xinjiang, China. Vet. Parasitol. Reg. Stud. Reports [Internet]. 2020; 20:100406. doi: https://doi.org/g5rbw5
Aktas M, Ozübek S. Bovine anaplasmosis in Turkey: First laboratory confirmed clinical cases caused by Anaplasma phagocytophilum. Vet. Microbiol. [Internet]. 2015; 178(3–4):246–251. doi: https://doi.org/f7hcbg
Aktas M, Altay K, Dumanli N. Molecular detection and identification of Anaplasma and Ehrlichia species in cattle from Turkey. Ticks Tick–borne Dis. [Internet]. 2011; 2(1):62–65. doi: https://doi.org/fkrb5g
Aktas M, Çolak S. Molecular detection and phylogeny of Anaplasma spp. in cattle reveals the presence of novel strains closely related to A. phagocytophilum in Turkey. Ticks Tick–borne Dis. [Internet]. 2021; 12(1):101604. doi: https://doi.org/g5rbw8
Bilgic HB, Bakırcı S, Kose O, Unlu AH, Hacılarlıoglu S, Eren H, Weir W, Karagenc, T. Prevalence of tick–borne haemoparasites in small ruminants in Turkey and diagnostic sensitivity of single–PCR and RLB. Parasit. Vectors. [Internet]. 2017; 10:211. doi: https://doi.org/g5rbw9
Ceylan O, Uslu A, Ozturk O, Sevinc F. Serological investigation of some vector–borne parasitic and rickettsial agents in dogs in the western part of Turkey. Pak. Vet. J. [Internet]. 2021 [cited 25 Apr. 2024]; 41(3):386–392. Available in: https://goo.su/prRgxq
Haydardedeoğlu AE, Büyükleblebici O, Aksoy NH, Karaşahin T. Aksaray Malaklısı Çoban Köpeklerinde Ehrlichia Canis, Anaplasma Phagocytophilum, Borrelia Burgdorferi, Dirofilara immitis Enfeksiyonlarının Anlık Dağılımının Belirlenerek Hematolojik Bulguların Araştırılması [Investigation of hematological findings by determining the spatial distribution of infections of Ehrlichia canis, Anaplasma phagocytophilum, Borrelia burgdorferi, Dirofilaria immitis in Aksaray Malakli Dogs]. Harran Üniv. Vet. Fak. Derg. [Internet]. 2019; 8(1):38–43. Turkish. doi: https://doi.org/g5rbxc
Ural K, Gultekin M, Atasoy A, Ulutas B. Spatial distribution of vector borne disease agents in dogs in Aegean region, Turkey. Revista MVZ Córdoba. [Internet]. 2014; 19(2):4086–4098. doi: https://doi.org/g5rbxf
Hoşgör M, Bilgiç HB, Bakırcı S, Ünlü AH, Karagenç T, Eren H. Detection of Anaplasma/Ehrlichia species of cattle and ticks in Aydın region. Turk. Parazitol. Derg. [Internet]. 2015; 39(4):291–298. doi: https://doi.org/g4ntd3
Mohammadian B, Noaman V, Emami SJ. Molecular survey on prevalence and risk factors of Anaplasma spp. infection in cattle and sheep in West of Iran. Trop. Anim. Health Prod. [Internet]. 2021; 53(2):266. doi: https://doi.org/g5rbxj
Aktas M, Ozubek S. Molecular and parasitological survey of bovine piroplasms in the Black Sea region, ıncluding the first report of babesiosis associated with Babesia divergens in Turkey. J. Med. Entomol. [Internet]. 2015; 52(6):1344–1350. doi: https://doi.org/f72c9m
Altay K, Atas AD, Ograk YZ, Ozkan E. Survey of Theileria, Babesia and Anaplasma infections of cattle and ticks from Sivas region of Turkey. Erciyes Univ. Vet. Fak. Derg. [Internet]. 2020; 17(1):32–38. doi: https://doi.org/g5rbxm
Yavuz A, Inci A, Düzlü Ö, Bişkin Z, Yildirim A. Babesia bovis’in msa–2c Geninin Moleküler Karakterizasyonu [Molecular characterization of babesia bovis msa–2c gene]. Turkiye Parazitol. Derg. [Internet]. 2011; 35(3):140–144. Turkish. doi: https://doi.org/bv5cjj
Woldehiwet Z. The natural history of Anaplasma phagocytophilum. Vet. Parasit. [Internet]. 2010; 167(2–4):108–122. doi: https://doi.org/fqcxwm
Ji S, Ceylan O, Ma Z, Galon EM, Zafar I, Li H, Hasegawa Y, Sevinc M, Masatani T, Iguchi A, Kawase O, Umemiya–Shirafuji R, Asada M, Sevinc F, Xuan X. Protozoan and rickettsial pathogens in ticks collected from infested cattle from Turkey. Pathogens [Internet]. 2022; 11(5):500. doi: https://doi.org/g5rbxq
Ceylan O, Ma Z, Ceylan C, Culha MH, Galon EM, Ji S, Li H, Zafar I, Mohanta UK, Xuan X, Sevinc F. Wide bovine tick–borne pathogen spectrum: Predominancy of Theileria annulata and the first molecular detection of Ehrlichia minasensis in Turkey. Vet. Res. Commun. [Internet]. 2024; 48(2):1037–1059. doi: https://doi.org/g5rbvm
Bakirci S, Sarali H, Aydin L, Eren H, Karagenc T. Distribution and seasonal activity of tick species on cattle in the West Aegean region of Turkey. Exp. Appl. Acarol. [Internet]. 2012; 56(2):165–178. doi: https://doi.org/crz99j
Henker LC, Lorenzett MP, Fagundes–Moreira R, Dalto AGC, Sonne L, Driemeier D, Soares JF, Pavarini SP. Bovine abortion, stillbirth and neonatal death associated with Babesia bovis and Anaplasma sp. infections in southern Brazil. Ticks Tick–borne Dis. [Internet]. 2020; 11(4):101443. doi: https://doi.org/jzcz
Aktas M, Altay K, Ozubek S, Dumanli N. A survey of ixodid ticks feeding on cattle and prevalence of tick–borne pathogens in the Black Sea region of Turkey. Vet. Parasitol. [Internet]. 2012; 187(3–4):567–571. doi: https://doi.org/f32t7p
Derechos de autor 2024 Semiha Yalçın, Neslihan Sürsal Şimşek, Seyda Cengiz
Esta obra está bajo licencia internacional Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0.
