Experimental Plasmodium falciparum cerebral malaria in the squirrel monkey Saimiri sciureus.

Infection of the squirrel monkey, Saimiri sciureus, with several strains of Plasmodium falciparum leads in a proportion of animals to neurological symptoms with a fatal outcome. This first simian model for human cerebral malaria was studied with three strains of parasites, the uncloned Palo Alto(FUP-1) strain, the Palo AltoPLF3 clone MHB11, and the recently monkey-adapted P. falciparum strain IPC/RAY. Cerebral malaria could develop during primo infection of monkeys, whether the animals had been splenectomized or not. It did not occur in all animals and the appearance of neurological symptoms could not be predicted, as it was not related to the degree of parasitemia or duration of parasite infections.

The squirrel monkey as an experimental model for Plasmodium falciparum erythrocyte rosette formation.

Experimental cerebral malaria was recently found to occur in the squirrel monkey Saimiri sciureus when infected with the human malaria parasite Plasmodium falciparum. This report is concerned with the existence of spontaneous rosette formation ex vivo (infected blood samples) and in vitro (cultured parasites) between red blood cells (RBC) infected with squirrel monkey-adapted P. falciparum isolates and normal squirrel monkey RBC. Transfer of P. falciparum with high rosette formation tendencies (90-100 R+) from one donor monkey to several recipients gave rise to parasites that varied extensively in their ex vivo rosette formation capacity (4-96% R+). However, all individual parasites readily form rosettes after 24 hr of in vitro culture (60-95% R+). Host factors may be involved in the modulation of rosette formation, although it is found to occur both in splenectomized and spleen-intact animals. Cross-rosette formation is seen between parasitized human RBC and normal squirrel monkey RBC and vice versa, and rosettes formed by RBC of the two hosts are similarly affected by pH, temperature, EDTA, trypsin, as well as squirrel monkey and African human hyperimmune IgG. These characteristics of rosette formation are preserved after long-term in vitro culture in human RBC. Rosettes formed by some isolates are highly sensitive to heparin while others are not, suggesting at least two distinct mechanisms of rosette formation. This idea is also supported by the observation that specific squirrel monkey antisera to heparin-sensitive strains does not dissociate rosettes formed by a heparin-resistant strain. The results suggest that rosettes and anti-rosette formation antibodies formed by squirrel monkeys and humans exhibited similar characteristics, and that the squirrel monkey is therefore a good experimental model to study erythrocyte rosette formation and cerebral malaria.

Identification of GATA-1 and NF-E2 binding sites in the flanking regions of the human alpha-globin genes.

Some of the elements involved in the erythroid-specific transcriptional regulation of the human gamma- and beta-globin genes and located inside or in the immediate proximity of these genes have been identified as sequences which bind erythroid-specific factors. In the present study, we found two regions located within 1 kb in 5' to the alpha 2- and in 3' to the alpha 1-globin genes which contribute to the induction of human alpha-globin genes following erythroid differentiation in stable MEL transformants. By DNAse I footprinting and gel mobility shift assays, we identified several GATA-1 and one AP-1/NF-E2-binding sites located inside these regions. These results strengthen the idea that, like for all other globin genes, flanking regions contribute in vivo to the regulation of human alpha-globin gene expression.