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. 2020 Jun 26;52(1):34.
doi: 10.1186/s12711-020-00552-8.

Genetic parameters of resistance to pasteurellosis using novel response traits in rabbits

Merina Shrestha  1 Hervé Garreau  1 Elodie Balmisse  2 Bertrand Bed'hom  3 Ingrid David  1 Edouard Guitton  4 Emmanuelle Helloin  5 Guillaume Lenoir  6 Mickaël Maupin  7 Raphaël Robert  8 Frédéric Lantier  5 Mélanie Gunia  9
Affiliations

Genetic parameters of resistance to pasteurellosis using novel response traits in rabbits

Merina Shrestha et al. Genet Sel Evol. .

Abstract

Background: Pasteurellosis (Pasteurella infection) is one of the most common bacterial infections in rabbits on commercial farms and in laboratory facilities. Curative treatments using antibiotics are only partly efficient, with frequent relapses. Breeding rabbits for improved genetic resistance to pasteurellosis is a sustainable alternative approach. In this study, we infected 964 crossbred rabbits from six sire lines experimentally with Pasteurella multocida. After post-mortem examination and bacteriological analyses, abscess, bacteria, and resistance scores were derived for each rabbit based on the extent of lesions and bacterial dissemination in the body. This is the first study to use such an experimental design and response traits to measure resistance to pasteurellosis in a rabbit population. We investigated the genetic variation of these traits in order to identify potential selection criteria. We also estimated genetic correlations of resistance to pasteurellosis in the experimental population with traits that are under selection in the breeding populations (number of kits born alive and weaning weight).

Results: Heritability estimates for the novel response traits, abscess, bacteria, and resistance scores, ranged from 0.08 (± 0.05) to 0.16 (± 0.06). The resistance score showed very strong negative genetic correlation estimates with abscess (- 0.99 ± 0.05) and bacteria scores (- 0.98 ± 0.07). A very high positive genetic correlation of 0.99 ± 0.16 was estimated between abscess and bacteria scores. Estimates of genetic correlations of the resistance score with average daily gain traits for the first and second week after inoculation were 0.98 (± 0.06) and 0.70 (± 0.14), respectively. Estimates of genetic correlations of the disease-related traits with average daily gain pre-inoculation were favorable but with high standard errors. Estimates of genetic and phenotypic correlations of the disease-related traits with commercial selection traits were not significantly different from zero.

Conclusions: Disease response traits are heritable and are highly correlated with each other, but do not show any significant genetic correlations with commercial selection traits. Thus, the prevalence of pasteurellosis could be decreased by selecting more resistant rabbits on any one of the disease response traits with a limited impact on the selection traits, which would allow implementation of a breeding program to improve resistance to pasteurellosis in rabbits.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

Fig. 1
Fig. 1
Overview of the experimental infection trials of crossbred rabbits, with age at body weight measurement, inoculation, and euthanasia. ADG-BW: average daily weight gain calculated from birth to weaning pre-inoculation; ADG-PI1: average daily weight gain calculated during first week post-inoculation; ADG-PI2: average daily weight gain calculated during second week post-inoculation. The red line refers to the stage post-inoculation, from the first day of inoculation to the last day of the experiment when rabbits were euthanized
Fig. 2
Fig. 2
Percentage of rabbits with different scores for each disease-related response trait
See this image and copyright information in PMC

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