Polygenic variation and transmission factors involved in the resistance/susceptibility to scrapie in a Romanov flock

doi:10.1099/vir.0.80412-0

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Polygenic variation and transmission factors involved in the resistance/susceptibility to scrapie in a Romanov flock

Clara Díaz¹, Zulma G. Vitezica², Rachel Rupp², Olivier Andréoletti³ and Jean Michel Elsen²

¹ Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Dpto Mejora Genética Animal, Ctra de la Coruña km 7,5, 28040 Madrid, Spain
² INRA, Station d'Amélioration Génétique des Animaux, Castanet Tolosan, France
³ Ecole Vétérinaire de Toulouse, Interactions Hôtes-Agents Pathogènes, 31076 Toulouse, France

Correspondence
Clara Díaz
cdiaz{at}inia.es

Data from 4049 Romanov sheep belonging to a flock affected bynatural scrapie were analysed by using survival-analysis techniques.Failure time was defined as the period of time between firstexposure to infection and the date that animals left the flockwith scrapie signs. Four hundred and forty-seven sheep wereidentified as ‘scrapie animals’. Several models,including level of exposure as a time-dependent effect, PrPgenotype, sex, age at first exposure, litter size and factorsrelated to vertical transmission, were tested. The best modelwas extended to a sire–dam frailty model, in order toestimate the polygenic variation in addition to that in thePrnp gene. A combined effect of rearing type and the dam's diseasestatus was detected. Thus, only sheep with a low degree of exposureto infection as lambs (lambs reared artificially and born outof a healthy dam) showed less risk than others. Animals firstexposed to infection at older ages seemed to be less susceptibleto scrapie. In this Romanov population, new genotypes (AHQ/AHQ,AHQ/VRQ, ARR/VRQ and ARR/ARQ) were associated with risk, suggestingthe effect of genotypes on the incubation period of animals.Polygenic variance was responsible for 21 % of the total geneticvariability that was related to susceptibility to scrapie. Therefore,the genetic susceptibility to scrapie may be explained by thejoint effect of point mutations at the Prnp major gene and anumber of genes that modulate its effect.

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INT J SYST EVOL MICROBIOL	MICROBIOLOGY	J GEN VIROL
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				A. N. Hamir, R. A. Kunkle, J. J. Greenlee, and J. A. Richt Experimental oral transmission of United States origin scrapie to neonatal sheep J Vet Diagn Invest, January 1, 2009; 21(1): 64 - 68. [Abstract] [Full Text] [PDF]

				C. R. Moreno, G. M. Cosseddu, L. Schibler, A. Roig, K. Moazami-Goudarzi, O. Andreoletti, F. Eychenne, D. Lajous, F. Schelcher, E. P. Cribiu, et al. Identification of New Quantitative Trait Loci (Other Than the PRNP Gene) Modulating the Scrapie Incubation Period in Sheep Genetics, May 1, 2008; 179(1): 723 - 726. [Abstract] [Full Text] [PDF]

				F. Corbiere, F. Barillet, O. Andreoletti, F. Fidelle, N. Laphitz-Bordet, F. Schelcher, and P. Joly Advanced survival models for risk-factor analysis in scrapie J. Gen. Virol., February 1, 2007; 88(2): 696 - 705. [Abstract] [Full Text] [PDF]

				R. A. Kunkle, J. M. Miller, D. P. Alt, R. C. Cutlip, N. E. Cockett, S. Wang, J. A. Richt, B. V. Thomsen, and S. Hall Determination of Sheep Prion Gene Polymorphisms from Paraffin-embedded Tissue J Vet Diagn Invest, September 1, 2006; 18(5): 443 - 447. [Abstract] [Full Text] [PDF]

				Z. G. Vitezica, C. R. Moreno, L. Bodin, D. Francois, F. Barillet, J. C. Brunel, and J. M. Elsen No associations between PrP genotypes and reproduction traits in INRA 401 sheep J Anim Sci, June 1, 2006; 84(6): 1317 - 1322. [Abstract] [Full Text] [PDF]

				M. Ierna, C. F. Farquhar, G. W. Outram, and M. E. Bruce Resistance of Neonatal Mice to Scrapie Is Associated with Inefficient Infection of the Immature Spleen J. Virol., January 1, 2006; 80(1): 474 - 482. [Abstract] [Full Text] [PDF]