The pathogenicity and immunogenicity of Pasteurella multocida in low and rich iron media


Pubblicato: Απρ 18, 2023
Aggiornato: 2023-04-18
Versioni:
2023-04-18 (2)
E Hosseini
https://orcid.org/0000-0002-6566-4081
Y Tahamtan
https://orcid.org/0000-0002-6566-4081
H Molaee
Abstract

Pasteurella multocida has the highest prevalence among animal populations and may cause hemorrhagic septicemia in cattle and pneumonia in sheep and goats. It has known that the pathogenicity of this organism depends on the levels of iron. Present study attempts to evaluate any changes in blood parameters and visceral organs of mice by cultivation of P.multocida under iron sufficient and insufficient conditions. P.multocida was cultured on three media: BHI alone, supplemented with bipyridyl and iron. They injected into the mice by intra-peritoneal rout. At the same time inactivated antigens were prepared from all medium and mice were immunized two weeks apart and blood samples were collected until weeks 9. Visceral organs were collected from dead mice for pathological studies. In contrast to immunogenicity and antibody titers, there are significant differences in pathogenicity and blood parameters in rich and limit iron condition.

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Riferimenti bibliografici
Abdelhady DH, El-Abasy MA (2015) Effect of Prebiotic and Probiotic on Growth, Immuno-hematological responses and Biochemical Parameters of infected rabbits with Pasteurella multocida. Benha Veterinary Medical Journal 28:40-51.
Abubakar MS, Zamri‐Saad M (2011) Clinico‐pathological changes in buffalo calves following oral exposure to Pasteurella multocida B: 2. Basic and Applied Pathology 4:130-135.
Boyce JD, Seemann T, Adler B, Harper M (2012) Pathogenomics of Pasteurella multocida. Pasteurella multocida:23-38.
Chawak M, Verma K, Kataria J, Kumar A (2000) Characterization of indigenous isolates of avian Pasteurella multocida. Indian Journal of Comparative Microbiology, Immunology and Infectious Diseases 21:111-114.
Choi-Kim K, Maheswaran SK, Felice LJ, Molitor TW (1991) Relationship between the iron regulated outer membrane proteins and the outer membrane proteins of in vivo grown Pasteurella multocida. Veterinary microbiology 28:75-92.
Dowling A, Hodgson J, Schock A, Donachie W, Eckersall P, McKendrick I (2002) Experimental induction of pneumonic pasteurellosis in calves by intratracheal infection with Pasteurella multocida biotype A: 3. Research in veterinary science 73:37-44.
Dunn SR, Qi Z, Bottinger EP, Breyer MD, Sharma K (2004) Utility of endogenous creatinine clearance as a measure of renal function in mice. Kidney international 65:1959-1967.
Glisson J, Contreras M, Cheng I-H, Wang C (1993) Cross-protection studies with Pasteurella multocida bacterins prepared from bacteria propagated in iron-depleted medium. Avian diseases:1074-1079.
Glisson J.R. HCL, Christensen JP. L.R. McDougald (Associate Editor), L.K. Nolan (Associate Editor), D.L. Suarez (Associate Editor), V.L. Nair (Associate Editor). (2013) Diseases of Poultry, 13th Edition. Wiley- Blackwell, Ames, Lowa, USA and Oxford, UK:807-823.
Kaneko JJ, Harvey JW, Bruss ML. 2008. Clinical biochemistry of domestic animals. Academic press.
Katoch S, Verma L, Sharma M, Asrani R, Kumar S, Chahota R, Verma S (2015) Experimental study of the pathogenicity of Pasteurella multocida capsular type B in rabbits. Journal of comparative pathology 153:160-166.
Markey B, Leonard F, Archambault M, Cullinane A, Maguire D. 2013. Clinical veterinary microbiology e-book. Elsevier Health Sciences.
May BJ, Zhang Q, Li LL, Paustian ML, Whittam TS, Kapur V (2001) Complete genomic sequence of Pasteurella multocida, Pm70. Proceedings of the National Academy of Sciences 98:3460-3465.
Morishita TY, Lowenstine LJ, Hirsh DC, Brooks DL (1996) Pasteurella multocida in raptors: prevalence and characterization. Avian diseases:908-918.
Muriel P. 2006. Role of nitric oxide in liver disorders. Science Publishers: En¼eld, NH.
Prado M, Dabo S, Confer A (2005) Immunogenicity of iron-regulated outer membrane proteins of Pasteurella multocida A: 3 in cattle: molecular characterization of the immunodominant heme acquisition system receptor (HasR) protein. Veterinary microbiology 105:269-280.
Rimler R, Angus R, Phillips M (1989) Evaluation of the specificity of Pasteurella multocida somatic antigen-typing antisera prepared in chickens, using ribosome-lipopolysaccharide complexes as inocula. American journal of veterinary research 50:29-31.
Rimler R, Rhoades K (1987) Serogroup F, a new capsule serogroup of Pasteurella multocida. Journal of clinical microbiology 25:615-618.
Ringler DH, Newcomer CE. 2014. The biology of the laboratory rabbit. Academic press.
Roier S, Leitner DR, Iwashkiw J, Schild-Prüfert K, Feldman MF, Krohne G, Reidl J, Schild S (2012) Intranasal immunization with nontypeable Haemophilus influenzae outer membrane vesicles induces cross-protective immunity in mice. PloS one 7:e42664.
Ruffolo CG, Jost BH, Adler B (1998) Iron-regulated outer membrane proteins of Pasteurella multocida and their role in immunity. Veterinary microbiology 59:123-137.
Sadeghian S, Dezfouli MRM, Kojouri GA, Bazargani TT, Tavasoli A (2011) Pasteurella multocida pneumonic infection in goat: Hematological, biochemical, clinical and pathological studies. Small Ruminant Research 100:189-194.
Suarez D. 2013. Avian encephalomyelitis. In (eds: Swayne DE, glisson Jr, McDougald Lr, Nolan LK, Suarez DL, Nair V) Diseases of Poultry 13th edn, Ames. Wiley-Blackwell.
Weiser GC, DeLong WJ, Paz JL, Shafii B, Price WJ, Ward AC (2003) Characterization of Pasteurella multocida associated with pneumonia in bighorn sheep. Journal of Wildlife Diseases 39:536-544.