Abstract

In the present study, we analyzed the immune response of calves to Brucella abortus strain 19 vaccine (S19) and its association with MHC class I (BoLA-A) alleles (exons 2–3 and 4–5). Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) was used for typing of BoLA-A exon 2–3 with DdeI and TaqI restriction enzymes; and exon 4–5 with HinfI in 45 crossbred calves. The PCR-RFLP analysis revealed five BoLA-A alleles each for exon 2–3 (A10/A19, A19, A18/19, A18 and A31) and exon 4–5 (A, B, C, D and E). Immune response against B. abortus S19 was assessed at the 4th week post vaccination; antibody response by standard tube agglutination test (STAT) and cell-mediated immunity by lymphocyte proliferation and lymphocyte-mediated cytotoxicity assays. Further, the macrophage function in terms of nitrite production was also analyzed. The association analysis of various BoLA-A alleles with the elicitation of immune response revealed that calves with certain defined genotypes induced significantly higher cell-mediated immune response in terms of lymphocyte proliferation with higher stimulation indices (S.I.) of 1.59 (BoLA-A19), 1.49 (A18/19) and 1.52 (HinfI-D); lymphocyte mediated cytotoxicity (55.52 % in A19) and nitrite production (43.40 μM in A31). It is assumed that allelic variants of BoLA-A (exons 2–3 and 4–5) were associated with the differential immune response of calves to B. abortus S19 vaccination. Therefore, further studies on association analysis of MHC class-I genes in large number of cattle may generate more information and might be useful for adapting the alternative approach of exploring genetic resistance in the cattle herd against bovine brucellosis.

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