Abstract
The causes of anemia and immunosuppression, major outcomes of malaria, are not well established. This study was undertaken to investigate whether erythropoietin (EP) production is adequate and whether the hemopoietic stem cells (CFU-S) were affected during the course of infection. Groups of female Balb/c mice infected with Plasmodium vinckei vinckei, Plasmodium berghei, or Plasmodium chabaudi adami were exposed to five hours of simulated altitude equivalent to 22,000 ft. Plasma samples were collected for EP bioassay and radioimmunoassay (RIA). Using radioiron incorporation as an index of erythropoiesis, differences in response to infection with different species of plasmodia were observed. In general, decreases in erythropoietic activity were observed in bone marrow and spleen as the infection progressed and continued to be depressed after apparent resolution of a nonlethal infection with P. chabaudi adami. Marrow from infected and control femurs were tested for CFU-S content using the spleen colony assay. The cellularity and CFU-S content of the femoral marrow decrease as the parasitemia increases. All three species of plasmodia stimulate EP production during peak parasitemias, indicating that adequate amounts of EP are available to the erythron during malarial infection. Depletion of CFU-S and probable lack of compensatory turnover of CFU-S may contribute to the disease characteristics of malaria.