Molecular markers of anti-malarial drug resistance in Central, West and East African children with severe malaria

Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1), a diverse family of multi-domain proteins expressed on the surface of malaria-infected erythrocytes, is an important target of protective immunity against malaria. Our group recently studied transcription of the var genes encoding PfEMP1 in individuals from Papua, Indonesia with severe or uncomplicated malaria. We cloned and expressed domains from 32 PfEMP1s including 22 that were upregulated in severe malaria and 10 that were upregulated in uncomplicated malaria, using a wheat germ cell-free expression system. We used Luminex technology to measure IgG antibodies to these 32 domains and control proteins in 63 individuals (11 children). At presentation to hospital, levels of antibodies to PfEMP1 domains were either higher in uncomplicated malaria or were not significantly different between groups. Using principal components analysis, antibodies to three of 32 domains were highly discriminatory between groups. These included two domains upregulated in severe malaria, a DBLβ13 domain and a CIDRα1.6 domain (which has been previously implicated in severe malaria pathogenesis), and a DBLδ domain that was upregulated in uncomplicated malaria. Antibody to control non-PfEMP1 antigens did not differ with disease severity. Antibodies to PfEMP1 domains differ with malaria severity. Lack of antibodies to locally expressed PfEMP1 types, including both domains previously associated with severe malaria and newly identified targets, may in part explain malaria severity in Papuan adults. Importance Severe Plasmodium falciparum malaria kills many African children, and lack of antibody immunity predisposes to severe disease. A critical antibody target is the P. falciparum erythrocyte membrane 1 (PfEMP1) family of multidomain proteins, which are expressed on the infected erythrocyte surface and mediate parasite sequestration in deep organs. We previously identified var genes encoding PfEMP1 that were differentially expressed between severe and uncomplicated malaria in Papua, Indonesia. Here, we have expressed domains from 32 of these PfEMP1s and measured IgG antibody responses to them in Papuan adults and children. Using Principal Component Analysis, IgG antibodies to three domains distinguished between severe and uncomplicated malaria and were higher in uncomplicated malaria. Domains included CIDRα1.6, implicated in severe malaria; a DBLβ13 domain; and a DBLδ domain of unknown function. Immunity to locally relevant PfEMP1 domains may protect from severe malaria. Targets of immunity show important overlap between Asian adults and African children.

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Mortality Patterns and Site Heterogeneity of Severe Malaria in African Children

PLoS ONE ◽

10.1371/journal.pone.0058686 ◽

2013 ◽

Vol 8 (3) ◽

pp. e58686 ◽

Cited By ~ 20

Author(s):

Eric Kendjo ◽

Tsiri Agbenyega ◽

Kalifa Bojang ◽

Charles R. J. C. Newton ◽

Marielle Bouyou-Akotet ◽

...

Keyword(s):

Severe Malaria ◽

African Children ◽

Site Heterogeneity

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Machine-learning reveals that Mycobacterium tuberculosis genotypes and anatomic disease site impacts drug resistance and disease transmission among patients with proven extra-pulmonary tuberculosis

10.21203/rs.2.14049/v4 ◽

2020 ◽

Author(s):

Doctor Busizwe Sibandze ◽

Beki Themba Magazi ◽

Lesibana Anthony Malinga ◽

Nontuthuko Excellent Maningi ◽

Bong Akee Shey ◽

...

Keyword(s):

Machine Learning ◽

Drug Resistance ◽

Mycobacterium Tuberculosis ◽

Disease Transmission ◽

East Asian ◽

Extrapulmonary Tuberculosis ◽

Machine Learning Algorithms ◽

East African ◽

Development Of Resistance ◽

Asian Lineage

Abstract Background: There is a general dearth of information on extrapulmonary tuberculosis (EPTB). Here, we investigated Mycobacterium tuberculosis (Mtb) drug resistance and transmission patterns in EPTB patients treated in the Tshwane metropolitan area, in South Africa.Methods: Consecutive Mtb culture-positive non-pulmonary samples from unique EPTB patients underwent mycobacterial genotyping and were assigned to phylogenetic lineages and transmission clusters based on spoligotypes. MTBDRplus assay was used to search mutations for isoniazid and rifampin resistance. Machine learning algorithms were used to identify clinically meaningful patterns in data. We computed odds ratio (OR), attributable risk (AR) and corresponding 95% confidence intervals (CI). Results: Of the 70 isolates examined, the largest cluster comprised 25 (36%) Mtb strains that belonged to the East Asian lineage. East Asian lineage was significantly more likely to occur within chains of transmission when compared to the Euro-American and East-African Indian lineages: OR= 10.11 (95% CI: 1.56-116). Lymphadenitis, meningitis and cutaneous TB, were significantly more likely to be associated with drug resistance: OR=12.69 (95% CI: 1.82-141.60) and AR = 0.25 (95% CI: 0.06-0.43) when compared with other EPTB sites, which suggests that poor rifampin penetration might be a contributing factor.Conclusions: The majority of Mtb strains circulating in the Tshwane metropolis belongs to East Asian, Euro-American and East-African Indian lineages. Each of these are likely to be clustered, suggesting on-going EPTB transmission. Since 25% of the drug resistance was attributable to sanctuary EPTB sites notorious for poor rifampin penetration, we hypothesize that poor anti-tuberculosis drug dosing might have a role in the development of resistance.

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Prevalence of Molecular Markers of Antimalarial Drug Resistance across Altitudinal Transmission Zones in Highland Western Uganda

American Journal of Tropical Medicine and Hygiene ◽

10.4269/ajtmh.19-0081 ◽

2019 ◽

Vol 101 (4) ◽

pp. 799-802 ◽

Cited By ~ 1

Author(s):

Ross M. Boyce ◽

Nicholas Brazeau ◽

Travis Fulton ◽

Nick Hathaway ◽

Michael Matte ◽

...

Keyword(s):

Drug Resistance ◽

Molecular Markers ◽

Antimalarial Drug ◽

Antimalarial Drug Resistance ◽

Western Uganda

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Characterization of Mutations Conferring Extensive Drug Resistance to Mycobacterium tuberculosis Isolates in Pakistan

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.05101-11 ◽

2011 ◽

Vol 55 (12) ◽

pp. 5654-5659 ◽

Cited By ~ 31

Author(s):

Asho Ali ◽

Rumina Hasan ◽

Kauser Jabeen ◽

Nusrat Jabeen ◽

Ejaz Qadeer ◽

...

Keyword(s):

Drug Resistance ◽

Mycobacterium Tuberculosis ◽

Hot Spot ◽

East African ◽

Content Type ◽

Diagnostic Assays ◽

Asian Strain ◽

Central Asian ◽

Extensive Drug Resistance ◽

Detection Of Mutations

ABSTRACTThe increasing incidence of extensively drug-resistant (XDR)Mycobacterium tuberculosisin high-tuberculosis-burden countries further highlights the need for improved rapid diagnostic assays. An increasing incidence of XDRM. tuberculosisstrains in Pakistan has been reported, but drug resistance-associated mutations in these strains have not been evaluated previously. We sequenced the “hot-spot” regions ofrpoB,katG,inhA,ahpC,gyrA,gyrB, andrrsgenes in 50 XDRM. tuberculosisstrains. It was observed that 2% of rifampin, 6% of isoniazid, 24% of fluoroquinolone, and 32% of aminoglycoside/capreomycin resistance in XDRM. tuberculosisstrains would be undetected if only these common hot-spot regions were tested. The frequencies of resistance-conferring mutations were found to be comparable among all XDRM. tuberculosisstrain families present, including the Central Asian Strain, Beijing, and East African Indian genogroups and the Unique isolates. Additional genetic loci need to be tested for detection of mutations conferring fluoroquinolone, aminoglycoside, and capreomycin resistance in order to improve molecular diagnosis of regional XDRM. tuberculosisstrains.

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