Evaluation of X-ray ionizing radiation on Plasmodium berghei invasion of erythrocytes

Abstract

Developing new strategies for designing effective vaccines has become a priority for parasitologists worldwide. There is high interest in designing a vaccine against malaria since it is considered one of the most prevalent infectious diseases in the tropics. We evaluated the effects of X-rays irradiation on the erythrocytic stage of Plasmodium berghei ANKA merozoites and schizonts using doses of ionizing radiation ranging between 10 and 300 Gy on parasitized red blood cells (PRBC) to study the attenuating effects of radiation on the merozoites. Parasitic activity diminution was observed starting at 50 Gy, and the dose for complete attenuation was established at 200 Gy, corresponding with a 100% survival rate of mice. In vivo invasion experiments and immunofluorescence assays (IFA) showed inhibition of merozoite invasion of the host red blood cells (RBC). Nonetheless, immunization with irradiated parasitized red blood cells (IPRBC) was ineffective in protective assays. We perform cytoadherence and inhibition of cytoadhesion assays on irradiated merozoites. The results showed that high irradiation doses caused an unspecific cellular adhesion phenomenon independent of the ICAM-1 and CD36 interaction, which was determined by Cytoadhesion assays. Our results show that, even though X-ray irradiation is an effective method to induce complete parasite attenuation, it might affect the parasite's membrane surface structures triggering unspecific adhesion.