Thus, the failure of mice to remove adult worms

Thus, the failure of mice to remove adult worms Selleckchem MS-275 following primary infection was not attributable to some inherent capacity of H. p. bakeri to resist the effector mechanisms

(innate resilience), but rather to a failure of mice to successfully express such responses during primary infections. In subsequent work, it was shown that the sera from mice immunized by repeated infections synergized with mesenteric lymphocytes transferred from immune-challenged mice to make recipients almost solidly resistant to challenge infection [50]. Immune serum and mesenteric node lymphocytes from immune mice on their own were not nearly as effective as both given together [50, 51], and this was interpreted as consistent with the idea that the lymphocytes transferred from immune donors benefitted from the presence of transferred antibodies that protected them from parasite-derived IMF and that without this antibody-mediated protection, transferred immune lymphocytes on AZD2014 concentration their own were at best only moderately effective in causing worm expulsion in recipients [51]. Further support for a crucial protective role of antibodies has come more recently with the demonstration that passive transfer of immunity from a mother to her suckling neonates provides

protection against neonatal infection with H. p. bakeri [52]. In these experiments, maternal immunity only arose following multiple infections, was IgG mediated and functioned within the neonatal intestinal lumen to prevent tissue invasion by infective L3. Whilst infection of adult mice with H. p. bakeri is largely asymptomatic, infection of neonates with as few as 50 L3 was associated with a 50% mortality rate and significant weight loss. It was somewhat striking therefore that both mortality and weight loss could be prevented by maternal antibodies

[52]. As it had been suggested earlier that IgG1 hypergammaglobulinaemia was responsible for blocking immunity during primary infections, the idea that primary infection sera might impair immunity was also tested [53]. No evidence for blocking DNA Methyltransferas inhibitor activity was found; however, surprisingly, experiments with serum transferred from mice carrying primary infections to naive recipients showed that the IgG1 fraction has some moderate protective activity. Moreover, the IgG1 fraction of serum from hyperimmune mice was shown to be host protective [54], a finding that has been confirmed recently [55]. Interestingly, another recent study showed that the majority of parasite-specific IgG1 is directed at polypeptides of Val proteins (VAL-3, VAL-4 and VAL-7), which are dominant components among the parasite’s vast array of secreted proteins and which have been shown to have immunosuppressive properties [56, 57]. A concurrent interest at the time was genetic resistance to H. p.

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