Biological Mechanisms in Afebrile P. Falciparum Malaria — AsintMal  

Falciparum Malaria Clinical Trial

Official title: Unravelling Disease Tolerance and Host Resistance in Afebrile P. Falciparum Infections: a Prospective Study in Mozambican Adults

Status Completed

Clinical Trial Summary

This project aims to disentangle the role of host immune resistance and disease tolerance in afebrile malaria infections, with the goal of guiding context-adapted tactics to target this hidden reservoir, as well as to develop new approaches to clear malaria infection and reduce its severity through host-directed therapies.

Clinical Trial Description

Asymptomatic Plasmodium falciparum (Pf) infections debilitate the health of affected population while representing a hidden source of parasite transmission that can compromise elimination efforts. The lack of consensus on the best strategy to deal with this asymptomatic reservoir is partly due to the poor knowledge on the biological mechanisms underlying these subclinical infections. Preliminary results in Mozambique show that afebrile adults with a Pf infection detected by rapid diagnostic tests can progress to fever (10%), clear the infection (20%) and stabilize at low-density (50%) or high-density (20%) parasitemias. The study hypothesis is that these four main trajectories are driven by antibodies against Pf variant antigens, codified by the var gene family and expressed on the surface of infected erythrocytes, which would clear the infection unless the parasites develop immune evasion mechanisms, and by tolerance factors that minimize parasite-induced pathology and sustains host homeostasis.With the overarching goal of identifying key biological factors sustaining afebrile malaria infections, this project will establish a cohort of afebrile Mozambican adults followed during one month to identify subjects who can reduce pathogen load and eventually clear the infection, those who maintain infections at high-density and afebrile levels (tolerant), and those who fail to establish disease tolerance and progress to fever. Circulating and overall parasite biomass will be quantified, and new infections will be identified during follow-up using next-generation sequencing. Clinical samples from individuals with low and high parasite densities will be used to test whether parasitological trajectories of afebrile Pf infections correlate with host antibody immunity against erythrocyte surface antigens and the transcription of Pf var genes involved in cytoadhesion and immune evasion. Cytometry by time of flight and global mass spectrometry will be applied on clinical samples from afebrile individuals with high parasite densities (tolerant) and those progressing to fever (non-tolerant) to identify leukocyte populations and metabolic pathways involved in the regulation of inflammation, tissue damage and normoglycemia that support host-parasite relationships at afebrile levels. The expected outcome of this project is the identification of key molecular drivers of afebrile Pf infections for a better understanding of the relevance of these infections in different transmission setting which may require context-specific control approaches, as well as for the development of new tools to achieve sterilizing immunity and enhance disease tolerance. ;

Related Conditions & MeSH terms

• Falciparum Malaria
• Malaria
• Malaria, Falciparum

• NCT number: NCT04422015
• Study type: Observational
• Source: Barcelona Institute for Global Health
• Status: Completed
• Start date: March 1, 2020
• Completion date: March 31, 2021