Abstract
Background: Series of more than 35 proteins facilitated a major role in fighting the foreign invaders in human body and other warm blooded animals, those named complement system. Methods: Total of 147 human serum were collected from asymptomatic volunteers by venipuncture, their sero groups were determined by reverse blood grouping method. Strain of Salmonella typhi (S. Typhi) were collected from Wudil general hospital and identified molecularly at center of biotechnological research of Bayero University, Kano. Serum bactericidal assay was done at microbiology laboratory of Wudil general hospital. Data obtained was subjected to two way ANOVA and considered significant at p <0.05. Results: Complement dependent pathways shows a more than 50% kills, in which both A, AB, B and O kill percent were 74.98%, 67.87%, 78.53% and 78.60% respectively, however, no statistical significant difference. While the non-complement dependent pathways revealed kills percentage of 59.27%, 57.86%, 59.21% and 58.60% for A, AB, B and O sero groups, also no significant statistical difference. Moreover, in comparing the complement and non-complement dependent pathways, data analysis shows a significant difference with p values of 0.001, 0.003, 0.006 and 0.0008 for A, AB, B and O sero groups respectively. Conclusion: We concluded that, ABO sero-groups and complement system plays an important role as infection determinants, where AB sero-group have more chances to S. Typhi infection than other sero-groupings. This study suggests that the effect of many host genetic parameters on treatment of microorganisms needs to be further studied.
Highlights
The bactericidal effect of serum is an essential innate immune mechanism of the host that provides protection against harmful bacteria [1]
The current study examined the ability of human humoral immune system in combating Salmonella Typhi (S.typhi) infection with emphasis on different sero groups
Typhi shows sensitivity to complement dependent bactericidal activity in all the serum from the 4 sero-groupings with different average killing percentage revealing 74.98%, 77.88%, 78.93% and 78.60% for sero-groupings of A, AB, B and O respectively while in complement independent bactericidal activity only 15 participant’s serum with sero-grouping of A shows an activity (>50% kills) against S
Summary
The bactericidal effect of serum is an essential innate immune mechanism of the host that provides protection against harmful bacteria [1]. The ability of cell-free human serum to kill pathogenic microbes was exposed at the end of the 19th century. Results: Complement dependent pathways shows a more than 50% kills, in which both A, AB, B and O kill percent were 74.98%, 67.87%, 78.53% and 78.60% respectively, no statistical significant difference. While the non-complement dependent pathways revealed kills percentage of 59.27%, 57.86%, 59.21% and 58.60% for A, AB, B and O sero groups, no significant statistical difference. In comparing the complement and non-complement dependent pathways, data analysis shows a significant difference with p values of 0.001, 0.003, 0.006 and 0.0008 for A, AB, B and O sero groups respectively. This study suggests that the effect of many host genetic parameters on treatment of microorganisms needs to be further studied
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
