D.H. Kelley

Study of immunological dysfunction in periparturient Holstein cattle selected for high and average milk production

Data from twenty assays of traits associated with innate and adaptive immunity were evaluated from 137 periparturient Holstein cows. These cows had been selected through planned matings for four different levels of milk production (high and average pounds of milk, and high and average pounds of milk fat plus protein). For up to seven generations, the genetic lines were produced by mating females of each line to sires of corresponding merit. With the exceptions of neutrophil ingestion of Staphylococcus aureus and directed migration, all assays measuring neutrophil functions were depressed beginning 2 to 3 weeks before calving through 3 weeks after calving. Serum concentrations of immunoglobulin G1 decreased while those of immunoglobulin G2 increased around calving time. Serum complement and conglutinin concentrations decreased before calving and reached a minimum around calving time. Cows selected for high milk production (pounds of milk and pounds of milk fat plus proteins) had significantly higher (P < 0.10) numbers of circulating neutrophils and mononuclear cells, had higher (P < 0.10) neutrophil resting chemiluminescence and higher (P < 0.10) neutrophil directed migration than cows with average production potentials. There were significant (P < 0.001) sire progeny group differences for most traits associated with the immune system that we tested. These results can be considered encouraging, in that selection for high milk yield did not produce unfavorable correlated responses in the functional capacity of immune function traits, and that there is sufficient genetic variation in these immunological traits among sires of high genetic merit for milk production to potentially improve the immunocompetence of periparturient cows through planned mating experiments.

Bovine sire effects on daughters' in vitro blood neutrophil functions, lymphocyte blastogenesis, serum complement and conglutinin levels

Blood neutrophil functions, lymphocyte blastogenic responses, serum complement, and serum conglutinin activity of 98 lactating Holstein cows from two genetic lines were evaluated. The genetic lines were produced in a selection experiment that created and perpetuated genetic differences in milk production for up to seven generations. No significant differences between the two genetic lines of cows were found for neutrophil function, lymphocyte blastogenic responses, serum complement levels, or serum conglutinin levels. Significant differences between sire progeny groups within lines were found for unstimulated and mitogen-stimulated lymphocyte blastogenesis (P less than 0.0001), and almost all neutrophil functions (antibody independent neutrophil cytotoxicity, antibody dependent neutrophil cytotoxicity, ingestion of bacteria, iodination, chemiluminescence, chemokinesis, and chemotaxis (P less than or equal to 0.05)). Sire progeny group differences (P less than or equal to 0.0001) within lines for serum complement and conglutinin activity were also found. Neutrophil chemiluminescence activity (positive relationship; P less than or equal to 0.001), concanavalin A-stimulated lymphocyte blastogenesis (positive relationship; P less than or equal to 0.004), and serum conglutinin activity levels (negative relationship; P less than or equal to 0.01) each had small but significant associations with the total milk somatic cell count. Cows seropositive for bovine leukosis virus had increased resting and mitogen-stimulated lymphocyte blastogenic activity and were associated with increased in vitro neutrophil random migration and production of superoxide anion. Estimates of genetic parameters of various immune cell functions, of serum complement and of conglutinin levels for daughters of 11 sires with 4-6 daughters in the data set were determined. In this report, genetic variation was demonstrated for nonspecific humoral and cellular immunity.

Association of class I bovine lymphocyte antigen complex alleles with in vitro blood neutrophil functions, lymphocyte blastogenesis, serum complement and conglutinin levels in dairy cattle

Ninety-eight lactating Holstein cows from two genetic lines selected for high and average milk production were used in the study. Five peripheral blood samples were collected over a 60-day period from each cow for evaluation of neutrophil function, lymphocyte blastogenesis, leukocyte count, and serum complement and conglutinin levels. Blood samples were typed for antigens encoded by alleles at the bovine major histocompatibility complex (BoLA) A locus. Alleles w14(w8), w20A, and w19(w6) were the most frequent of 14 alleles present in this herd. Association of BoLA type with immune function results was examined by using gene substitution models including and ignoring sire effects. Alleles w15(w8) and w16 were associated with greater circulating mononuclear cell and total leukocyte numbers, while w27(w10), w11, and w20A were associated with lower numbers of these cell types. Alleles EU28D and w20A were positively and negatively associated with granulocyte percentage, respectively. Allele w16 was associated with greater antibody-independent neutrophil cytotoxicity, unstimulated lymphocyte proliferation, serum conglutinin activity, and with lower antibody-dependent neutrophil cytotoxicity. Allele w19(w6) was associated with decreased conglutinin activity and decreased neutrophil iodination. Increased antibody-dependent neutrophil cytotoxicity was observed for animals bearing allele w14(w8), and decreased neutrophil iodination, serum conglutinin, and nonstimulated lymphocyte blastogenesis were observed in individuals carrying w20A or EU28D. Significance of both sire and BoLA complex effects suggests that both major histocompatibility complex genes and background genes of the sire significantly affect immune function. This research suggests BoLA-A locus genes may be major genes or markers for closely linked major genes involved in regulation of nonspecific immune function.