African Journal of Malaria and Tropical Diseases

African Journal of Malaria and Tropical Diseases ISSN 4123-0981 Vol. 8 (3), pp. 001-005, March, 2020. © International Scholars Journals

Full Length Research paper

Mouse mortality from a high Plasmodium berghei inoculum density may be due to immune suppression in the host

Chika K. Onwuamah¹*, Phillip U. Agomo² and Peter G. C. Odeigah³

¹Microbiology division, Nigerian Institute of Medical Research, 6 Edmund Crescent, P. M. B. 2013, Yaba 101212, Lagos, Nigeria.

²Biochemistry division, Nigerian Institute of Medical Research, 6 Edmund Crescent, P. M. B. 2013, Yaba 101212, Lagos, Nigeria.

³Department of Cell Biology and Genetics, Faculty of Science, University of Lagos, Akoka, Lagos.

Accepted 12 October, 2019

Abstract

Patients’ malaria parasite burden on hospital presentation has been implicated in human artemisinin monotherapy failure rather than any drug resistance- conferring genetic mutation in the infecting Plasmodium species. We investigated this observation using a mouse-Plasmodium berghei model at varying inocula abundance and monitored the pathogenesis without intervention. Three inoculums abundance levels were used: 10⁷, 10⁵ and 10³ highly parasitized blood ( 4000 parasites/µl). All 10⁷ inoculum mice died within 12.7 days. The 10³ inoculum and the 10⁵ inoculum mice cleared their malaria parasitaemia between days 12 - 14 and between days 34 - 36 post-inoculation respectively. The 10³ inoculum and 10⁵ inoculum mice had changes in baseline value of 1.71 and 2.02 in total white blood cells count between days 6 - 10 respectively, compared to 1.33 for the 10⁷ inoculum mice. Monocytes counts (cells/mm³) on day 6 was 223.3, 1254 and 40.7 for the 10³ inoculum, 10⁵ inoculum and 10⁷ inoculum mice, while 152.5, 1073 and 477.5, respectively on day 10. Immunosuppression by the parasite might be the cause of the in appropriate immune response by 10⁷ inoculum mice.

Key words: Malaria, mice, parasite density, immune response, immune suppression.