Indonesian Journal of Veterinary Sciences

The aim of this research was to detect the presence of Feline Parvovirus (FPV) in blood samples of FPV suspected cats by Polymerase Chain Reaction (PCR) method. This research used eleven fresh blood samples of FPV suspected cats which were obtained from the Internal Medicine Laboratory of Faculty of Veterinary Medicine at UGM, Yogyakarta, Clinic Pet Care in Semarang and Medania Private Clinic in Yogyakarta. The DNA was first extracted from the blood using DNA isolation kit. Then the template of DNA was used for amplification by PCR method using CPV primers to target the Viral Protein-2 (VP-2) encoding gene. The PCR products were then visualized using 1% Agarose Gel electrophoresis and UV-Transilluminator.  A  positive  result  was indicated  by  the  appearance  of  a  DNA  fragment in size of  518  bp  which  can  be interpreted as the presence of FPV in the obtained blood samples. PCR products were then sent for sequencing to determine the nucleotide sequence of the VP-2 gene. The sequences obtained were aligned using multiple alignment method with three FPV isolates obtained from the database of Genebank using the MEGA6.06 software program. From the eleven cat blood samples obtained, 8 samples indicated positive with FPV infection. This results showed that PCR method can be used to detect FPV in samples derived from blood specimens from  FPV suspected cats. Conventional PCR method was also used to confirm the cause of the symptoms shown by the infected cats as some of the symptoms such as gastroenteritis is quite common among many other viral infection.

Berns K.I., 1990, Parvovirus Replication, Microbiology Review, 54: 316-329.

Buonavoglia, C., Martella, V., Pratelli, A., Tempesta, M., Cavalli, A., Buonavoglia, D., Bozzo, G., Elia, G., Decaro, N., Carmichael, L., 2001, Evidence for evolution of canine parvovirus type 2 in Italy. J. Gen. Virol. 82, 3021–3025.

Cassinoti P., Weitz M., and Siegl G., 1993, Parvoviruses, Microbiology and Microbial infections; Volume 1 Virology, Topley & Wilson’s, 14: 261-279.

Decaro, N., Desario, C., Elia, G., Martella, V., Mari, V., Lavazza, A., Nardi, M., and Buonavoglia, C., 2008, Evidence for immunisation failure in vaccinated adult dogs infected with canine parvovirus type 2c. New Microbiol. 31, 125–130

Farr, G.A., Cotmore, S.F, and Tattersall, P. 2006. VP-2 cleavage and the leucine ring at the base of the fivefold cylinder control pH-dependent externalization of both the VP1 N terminus and the genome of minute virus of mice. J. Virol. 80 (1):161-71

Goddard A., Leisewitz A.L, and Christopher M.M., 2008, Prognostic usefulness of blood leukocyte changes in canine parvoviral enteritis. J Vet Intern Med. 22: 309–316.

Greene C.E., and Addie D.D., 2013, Feline panleukopenia. In Infectious diseases of the dog and cat, Ed. CE Greene, WB Saunders Company, Philadelphia. pp 78-88

Hueffer K. and Parrish C.R., 2003, Combination of Two Capsid Regions Controlling Canine Host Range Determine Canine Transferrin Receptor Binding by Canine and Feline Parvovirus. Journal of Virology.18: 10099-10105.

Kapil S et al. Canine parvovirus types 2c and 2b circulating in North American dogs in 2006 and 2007. J Clin Microbiol 2007; 45:4044-4047.

Lamm, C.G., and Rezabek, G.B., 2008. Parvovirus infections in domestic companion animals, Veterinary Clinics of North America Small Animal Practice. 38. 837-851.

Laurent S, Vautherot JF, Madelaine MF, Le Gall G, Rasschaert D. 1994. Recombinant rabbit hemorrhagic disease virus capsid protein expressed in baculovirus self-assembles into viruslike particles and induces protection. J. Virol. 68 (10):6794-6798.

Levy J, Crawford C, Hartmann K, Hoffmann-Lehmann R, Little S, Sundahl E, Thayer V; 2008 Feline retrovirus management guidelines.American Association of Feline Practitioners. Compend Contin Educ Vet. 31 (6):E10

Martella, V., Decaro, N., Elia, G., Buonavoglia, C., 2005, Surveillance activity for canine parvovirus in Italy. J. Vet. Med. 52, 312–315.

Nakamura K, Ikeda Y, Miyazawa T, Tohya Y, Takahashi E, Mochizuki M (2001). Characterisation of cross-reactivity of virus neutralising antibodies induced by feline panleukopenia virus and canine parvoviruses. Res Vet Sci 71:219-222

Parrish, C. R., Aquadro, C. F., Strassheim, M. L., Evermann, J. F., Sgro, J. Y., and Mohammed, H. O., 1991, Rapid antigenic type replacement and DNA sequence evolution of canine parvovirus. J. Virol. 65:6544–6552.

Sonntag F, Bleker S, Leuchs B, Fischer R, Kleinschmidt JA. 2006. Adeno-associated virus type 2 capsids with externalized VP1/VP2 trafficking domains are generated prior to passage through the cytoplasm and are maintained until uncoating occurs in the nucleus. J Virol. 80 (22):11040-11054.

Steinel A., Parrish C.R., Bloom M.E., and Truyen U., 2001, Review: Parvovirus Infection in Wild Carnivores. Journal of Wildlife Diseases 37 (3): 594-607.

Zhang Q., Xu X.M., Zhai G.Q., Wang Z., Hou S.H., and Zhu H.F., 2010, Molecular Characterisation of Canine Parvovirus Strains Circulating in China. African Journal of Biotechnology 9 (29): 4556-4560.