Evaluation of vaccine candidate potential of ΔaroA, ΔhtrA and ΔaroAΔhtrA mutants of Salmonella enterica subspecies enterica serovar Abortusequi in guinea pigs.

Salmonella enterica subspecies enterica serovar Abortusequi (S. Abortusequi), a host adapted Salmonella causes abortions, still births and foal mortality in equids. Though known since more than 100 years, it is still a problem in many of the developing countries including India. There is dearth of really good vaccine affording immunity lasting at least for one full gestation. In search of a potential vaccine candidate, three defined deletion mutants (ΔaroA, ΔhtrA and ΔaroAΔhtrA) of S. Abortusequi were tested in guinea pig model for attenuation, safety, immunogenicity, humoral immune response, protective efficacy and persistence in host. The ΔhtrA and ΔaroAΔhtrA mutants were found to be safe on oral inoculation in doses as high as 4.2×109 cfu/animal. Also through subcutaneous inoculation ΔaroAΔhtrA mutant did not induce any abortion in pregnant guinea pigs. All the three mutants did not induce any illness or death in 1-2 week-old baby guinea pigs except ΔhtrA mutant which caused mortality on intraperitoneal inoculation. Inoculation with mutants protected against challenge and increased breeding efficiency of guinea pigs. After >4.5 months of mutant inoculation, guinea pigs were protected against abortifacient dose of wild type S. Abortusequi and mother guinea pigs also conferred resistance to their babies to the similar challenge. Early humoral immune response of S. Abortusequi mutants was characteristic. Faecal excretion of ΔaroA and htrA mutants was detected up to 45 days of inoculation in guinea pigs while ΔaroAΔhtrA mutant could not be detected after 21 days of inoculation. The results indicated that the double deletion mutant (ΔaroAΔhtrA) was the most effective and safe candidate for vaccination against S. Abortusequi through mucosal route of inoculation.

Evaluation of guinea pig model for experimental Salmonella serovar Abortusequi infection in reference to infertility.

The present study conclusively revealed the role for Salmonella enterica subspecies enterica serovar Abortusequi in conception failure. None of the 12 guinea pigs conceived when orally exposed to sublethal dose of the pathogen during breeding, while 66.67% of animals in control group were found pregnant during same period of observation under similar conditions. Salmonella carrier animals also had drastic reduction in conception rate (16.67%). During mid pregnancy, S. Abortusequi exposure to guinea pigs through intravaginal, intramuscular and subcutaneous routes induced fetal death followed by resorption. While 2 out of 6 orally inoculated and 3 out of 6 intraperitonially inoculated guinea pigs aborted, in rest of the animals fetal death was followed by meceration and resorption. It was interesting to note that S. Abortusequi could not persist longer than a week in males while in pregnant females it could be detected for >10 weeks after inoculation. In late pregnancy, most of the exposed animals aborted and non aborting animals though had normal parturition, survival rate of their babies was nearly zero in comparison to the control group. The study revealed role for S. Abortusequi in impairing conception, abortion, early fetal deaths, fetal meceration and resorption. Further studies are required to identify factors responsible for increased susceptibility of females particularly during pregnancy.