Ivermectin-induced immunopotentiation in onchocerciasis: recognition of selected antigens following a single dose of ivermectin.

Abstract

Onchocerciasis is associated with blindness and gross skin changes, believed to be a consequence of the immune response to antigens released from the offspring of the female worm of Onchocerca volvulus, the microfilariae (mf). An effective microfilaricidal drug is now available which quickly reduces the mf burden without affecting the adult worm. There exist foci in onchocerciasis endemic areas where some of the patients have many mf in their skin but relatively few clinical symptoms. This state of hyposensitivity is believed to be due to immunosuppression. The aim of this study was to address the question of the basis of, and the effect of ivermectin treatment on this immunosuppression. Female adult worms of O. volvulus were used as whole or fractionated antigens to stimulate peripheral blood mononuclear cells. Microfilariae are found in the reproduction tract of the female worms, and thus an antigen preparation of the female adult O. volvulus contains both exclusive adult antigens as well as antigens from microfilariae. Cells were obtained from onchocerciasis patients, individuals of similar socio-economic status living in the same Ghanaian village, but who showed no parasitological or clinical evidence of onchocerciasis (exposed endemic controls), healthy Ghanaians living in areas where transmission of onchocerciasis does not seem to occur (non-exposed endemic controls) and unexposed healthy Swedish donors. As a group, cells from onchocerciasis patients proliferated to a lesser degree than cells from the exposed endemic control and the non-exposed endemic control groups to the whole worm antigen, whereas the phytohaemagglutinin (PHA) response was strongest in the patients. Proliferative responses of above 1000 ct/min to fractions of the worm extract were only evident in the cells from a few individuals in each of the various groups. However, 28 days following ivermectin treatment, cells from all onchocerciasis patients were able to mount significantly enhanced proliferation to a fraction of approximately 96 kD (fraction 3), while only four of nine of this group showed an increased response to the whole worm antigen. The proportional increase in the response to the whole organism in these individuals was of a much lower magnitude than the increased response to fraction 3. The O. volvulus antigen-specific immunosuppression observed in these onchocerciasis patients appears to be due to suppressive antigens which have the capacity to mask the potential response to selected antigens of O. volvulus, and ivermectin treatment possibly modulates the immune response, allowing for stepwise recognition of such antigens. Since ivermectin treatment kills only the microfilariae and not the adult worm, the putative suppressive antigens would be expected to be from the microfilariae.