Active immunization against Plasmodium berghei malaria in mice, using different preparations of plasmodial antigen and different pathways of administration.

With regard to the effectiveness of the antigens in inducing clinical immunity against malaria parasites, the minimum amount of living antigen developed in mice during controlled low parasitaemia with Plasmodium berghei has been estimated and compared with the amount of non-living antigen obtained by various methods of freeing parasites from their erythrocyte hosts.Whereas about 100 mg of living antigen per kg of body-weight are sufficient to induce a degree of hyperimmunity, 1240 mg/kg of a freshly prepared crude antigen are necessary to enable the mice to survive a challenge infection while 3500 mg-7000 mg/kg of a vaccine prepared from freshly isolated plasmodia are necessary to produce a degree of immunity comparable with hyperimmunity. It appears, therefore, that every manipulation of the parasitized erythrocyte or the isolated plasmodium outside the host organism, as well as a storage time in excess of 36 hours, causes a reduction in antigenicity, up to a factor of 10(-2). However, this decrease in antigenicity is disproportionate compared with the reduced rate of infectivity of stored, parasitized erythrocytes and isolated parasites. After an incubation period of 18 hours, the ID(100) increases from 2 x 10 to 5 x 10(7) parasites. Therefore, the differences between the essential amount of living plasmodia and non-living antigen may be due to other, hitherto unknown, factors and not exclusively to degradation of the most important antigen.The saponin method of freeing parasites from their erythrocyte hosts was found to yield the purest antigen. Preparations of parasites obtained by treating parasitized erythrocytes with anti-erythrocyte serum or with formalin were highly contaminated with remnants of the host cells and showed no better antigenic qualities than the parasites isolated by means of saponin.Since the decrease of antigenicity associated with harvesting and isolation procedures is constant, vaccination with a fractionated antigen pool should be possible.