The two groups of recipient mice produced low levels of antibody in serum 4 weeks after transfer of BMDC and no significant difference in antibody response was observed between the two groups (Fig. 7a). However, OVA antigen boosting 4 weeks after BMDC transfer enhanced the antibody responses. Mice receiving BMDC that were treated with rHp-CPI and pulsed with OVA produced significantly less OVA-specific total ROCK inhibitor immunoglobulin and IgG1 than the mice that received BMDC pulsed with OVA antigen only (Fig. 7b). No significant levels of IgG2a antibody were detected in the BMDC recipient
mice and the mice injected with OVA antigen only (Fig. 7b). These data show that rHp-CPI is able to modify the DC phenotype and function resulting in impaired antibody response. Immunosuppression that occurs following infection with murine nematode H. polygyrus has been documented extensively.[33-35] The H. polygyrus-derived ES products have been shown to induce immunosuppression in hosts by impairing DC function.[15] However, the parasite molecule(s) responsible for induction of immunosuppression are unknown. In this
study, we cloned the CPI gene from H. polygyrus, produced recombinant protein rHp-CPI and examined its immunomodulatory effects. Our results demonstrated that the selleck inhibitor recombinant rHp-CPI protein is biologically functional as shown by its ability to inhibit the protease activity of a panel of cathepsins. Immunoblotting assays revealed that the mAb raised against the rHp-CPI protein was able to recognize a protein component in H. polygyrus ES products, indicating that H. polygyrus produces Baricitinib and secretes the CPI protein. Indeed, the ES products prepared from H. polygyrus adult worms showed inhibitory activity against cathepsins (Fig. 2). There are several reports to show that
nematode parasites that dwell in the gastrointestinal tract of their hosts are able to modulate the immune response systemically.[21, 36] In a previous study, we have shown that concurrent H. polygyrus infection impairs protective immunity against systemic malarial infection.[24] A study by Goodridge et al.[32] showed that the immunomodulatory glycoprotein ES-62 of a filarial nematode released by an osmotic pump implanted in the neck of mice is able to induce hyporesponsive DC derived ex vivo from the bone marrow cells of mice. These observations suggest that the immunomodulatory molecules released by adult H. polygyrus may modulate the functions of immune cells locally as well as in other organs of the immune system, including bone marrow where the DC progenitors differentiate and develop into immature DC. To verify this possible mechanism, bone marrow cells were cultured in the presence of rHp-CPI and the phenotypes of the differentiated CD11c+ DC were analysed.