The major histocompatibility complex and peptide vaccines in domestic animals

Three hypotheses are suggested to explain the phenomenon of low responsiveness in domestic animals after injection of peptide vaccines. The first hypothesis proposes involvement of MHC haplotype and the special case in livestock breeding, where inheritance of the sire's haplotype can be closely examined by injection of antigen into a large number of paternal half‐sib progeny. The second hypothesis examines the effect of repeated antigen injections in overcoming age and MHC haplotype effects and distinguishing these effects from those caused by deficiencies in the T cell repertoire. The third hypothesis concerns non‐MHC effects that influence the expression of MHC haplotype effects and enable the host to mount an effective immune response. It is suggested that the antigen recognition signal from T cell receptor/MHC interaction is amplified to a varying extent in animal populations. Deficiency in this amplification through myeloid cell or cytokine responses may be yet another factor limiting immune responsiveness

High and low responsiveness to vaccines in farm animals

Low responsiveness in some farm Animals is emerging as a problem in the application of newly developed vaccines which operate at skin surfaces and mucous membranes. Breeding for resistance to specific diseases seems to be associated with breeding for specific immune responsiveness in farm Animals and very likely this involves selection for major histocompatibility complex (MHC) haplotype. However, other factors contribute to low responsiveness and these include poor nutrition, sire effects, antigenic competition and inadequate effector mechanisms. The future of newly developed vaccines will rest on the solution to the low responder problem, and once solved, the application of these vaccines will be fully utilized for disease control in farm Animals

The eosinophil leucocyte, a phenotypic marker of resistance to nematode parasites, is associated with calm behaviour in sheep

The hypothesis that behaviour in sheep is influenced by resistance to infections with Trichostrongylus colubriformis and Haemonchus contortus was explored. Sheep were assessed phenotypically as resistant and susceptible in four ways and thereafter, the effect of resistance on several behavioural traits was measured in an arena test. The behavioural parameters recorded for each sheep were: approach/avoidance distance; travel; number of moves; and spread. Four phenotypic groups of sheep were set up each with two subgroups: ovine lymphocyte antigen (OLA) type (subgroups SY1a type vs other types); blood eosinophil leucocyte counts (high vs low); T. colubriformis and H. contortus serum antibodies (high vs low titres) and faecal egg count (FEC) (high vs low). Only the behavioural comparison between sheep with high versus low eosinophil leucocyte count showed consistent differences that were statistically significant, although other comparisons favoured associations between OLA type SY1a, low FEC and reduced approach/avoidance distance and/or locomotor behaviour. The eosinophil leucocyte association was established on two non-overlapping test populations of sheep, with mean eosinophil leucocyte counts of 3.19 x 10/mL blood for high and 0.83 x 10/mL blood for low subgroups; results were reproduced on five separate occasions over 6 weeks to detect differences as approach/avoidance distance (P < 0.01), travel (P < 0.01), number of moves (P < 0.01), and spread (P < 0.05). High eosinophilia correlated with low FEC for the infected sheep, which identified sheep that were resistant to parasites. We concluded, therefore, that the resistant sheep were more at ease with the environment of the test than were the sheep with low eosinophil leucocyte counts. The strong association between high eosinophil leucocyte counts and behaviour is consistent with other reports which suggest that retention of normal levels of circulating eosinophil leucocytes is associated with resistance to stress