Journal of Dairy Science (Jun 2022)

Effect of Holstein genotype on immune response to an intramammary Escherichia coli challenge

  • John D. Lippolis,
  • Ellie J. Putz,
  • Timothy A. Reinhardt,
  • Eduardo Casas,
  • Wanda J. Weber,
  • Brian A. Crooker

Journal volume & issue
Vol. 105, no. 6
pp. 5435 – 5448

Abstract

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ABSTRACT: Selective breeding of US dairy cows since the mid-1960s has contributed to remarkable gains in milk yield per cow. This increased milk yield has been associated with an increase in health issues. Since 1964, the University of Minnesota has selectively bred a Holstein herd to maintain genetically static, unselected Holsteins (UH). Comparison of these UH cows with contemporary Holsteins (CH) has demonstrated that the UH cows not only produce less milk but also have fewer health concerns than their CH herdmates. The objective of this study was to determine the effects of Holstein genotype on innate immune response in an experimental intramammary Escherichia coli challenge model. Primiparous UH (n = 5) and CH (n = 7) cows received 430 cfu of E. coli strain P4 in 1 quarter. Blood and affected quarter milk samples were collected at 0, 0.25, 0.5, 1, 1.5, 2, 2.5, 3, 3.5, 4, 7, 9, and 11 d relative to E. coli infusion. Rectal temperatures were recorded at each milking through d 4 of the experiment. Milk bacterial counts, somatic cell count and BSA concentrations, complete blood cell counts, rectal temperature, and serum and milk whey cytokine (IL-1β and IL-6) concentrations were used as metrics to determine infection severity. Longitudinal (repeated) data were analyzed using general linear models with PROC MIXED with day of study as the repeated effect. Whole blood transcriptomes were generated by RNA sequencing. Transcripts with a false discovery rate of P < 0.05 and a delta log2 expression value greater than 0.7 or less than −0.7 were used for functional enrichment analysis. Bacterial counts were consistently greater in milk from CH than UH cows from d 0.25 through d 2.5. Milk somatic cell count increased within 6 h (d 0.25) after E. coli administration in CH and UH cows but did not differ between genotypes after d 1. Rectal body temperature peaked at d 1 in CH and UH cows but was greater in CH cows. Milk BSA, IL-1β, and IL-6 concentrations were greater in CH than UH cows after E. coli administration. Blood lymphocyte and neutrophil counts were decreased at 0.5 and 1 d in CH but not in UH cows. The number of differentially expressed transcripts at each of the postinfusion sampling times was consistently greater (4- to 90-fold) in CH than in UH cows. A key difference between the immune reaction of the 2 genotypes was that the immune response to E. coli was largely contained within the mammary gland of the UH cows but became more systemic in the CH cows. These data demonstrate that UH cows exerted more effective control of E. coli infused into the mammary gland and thus support the hypothesis that selection practices since the mid-1960s have resulted in CH cows with an immune system that is less effective in fighting intramammary infections. Identification of genetic factors associated with enhanced immune functions that differ between the UH and CH cows could contribute to efforts to reintroduce or enhance beneficial components that have been lost or reduced in the CH cows since the mid-1960s.

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