Host Blood Gene Signatures Can Detect the Progression to Severe and Cerebral Malaria

Omar, Mohamed; Marchionni, Luigi; Häcker, Georg; Badr, Mohamed Tarek

doi:10.3389/fcimb.2021.743616

Cited by 2 publications

(3 citation statements)

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“…Many whole-blood transcriptomic malaria studies have also identified differences in gene expression between UM and the various SM syndromes [ 3 , 4 ], as well as between malaria and other acute febrile illnesses [ 20 , 21 ]. Such differences in gene expression may form the basis for future diagnostic tests that distinguish between UM and SM, and between malaria and other causes of febrile illness.…”

Section: Diagnosticsmentioning

confidence: 99%

“…Many studies using transcriptomics to classify subjects based on current disease severity have claimed prognostic value and mention how genes are associated with disease ‘progression’ but have not formally evaluated prediction of future outcomes [ 3 , 34 , 35 ]. This has led to some confusion in the literature about the prognostic potential of transcriptomics, although classifying subjects as severe or non-severe does have intrinsic prognostic value because SM, by definition, carries an increased risk of death or disability [ 34 , 36 ].…”

Section: Prognosticsmentioning

confidence: 99%

“…Transcriptomic studies have been used extensively in malaria to examine host response to infection, parasite pathogenic mechanisms, and the complex interactions between the two [ 3–5 ]. These studies have focused on single cells [ 6 ] and bulk tissues during natural infections [ 7 ] and also in controlled human malaria infection studies, where healthy volunteers are intentionally infected with malaria parasites and monitored under careful clinical supervision [ 8 ].…”

Section: Introductionmentioning

confidence: 99%

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The malarial blood transcriptome: translational applications

Dunican,

Andradi-Brown,

Ebmeier

et al. 2024

Biochemical Society Transactions

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The blood transcriptome of malaria patients has been used extensively to elucidate the pathophysiological mechanisms and host immune responses to disease, identify candidate diagnostic and prognostic biomarkers, and reveal new therapeutic targets for drug discovery. This review gives a high-level overview of the three main translational applications of these studies (diagnostics, prognostics, and therapeutics) by summarising recent literature and outlining the main limitations and future directions of each application. It highlights the need for consistent and accurate definitions of disease states and subject groups and discusses how prognostic studies must distinguish clearly between analyses that attempt to predict future disease states and those which attempt to discriminate between current disease states (classification). Lastly it examines how many promising therapeutics fail due to the choice of imperfect animal models for pre-clinical testing and lack of appropriate validation studies in humans, and how future transcriptional studies may be utilised to overcome some of these limitations.

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Section: Diagnosticsmentioning

confidence: 99%

Section: Prognosticsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The malarial blood transcriptome: translational applications

Dunican,

Andradi-Brown,

Ebmeier

et al. 2024

Biochemical Society Transactions

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Diagnosis of Multisystem Inflammatory Syndrome in Children by a Whole-Blood Transcriptional Signature

Jackson

Miglietta

Habgood-Coote

et al. 2023

Journal of the Pediatric Infectious Diseases Society

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Objective To identify a diagnostic blood transcriptomic signature that distinguishes multisystem inflammatory syndrome in children (MIS-C) from Kawasaki Disease (KD), bacterial infections and viral infections. Study design Children presenting with MIS-C to participating hospitals in the United Kingdom and the European Union between April 2020-April 2021 were prospectively recruited. Whole blood RNA Sequencing was performed, contrasting the transcriptomes of children with MIS-C (n=38) to those from children with KD (n=136), definite bacterial (DB; n=188) and viral infections (DV; n=138). Genes significantly differentially expressed (SDE) between MIS-C and comparator groups were identified. Feature selection was used to identify genes that optimally distinguish MIS-C from other diseases, which were subsequently translated into RT-qPCR assays and evaluated in an independent validation set comprising MIS-C (n=37), KD (n=19), DB (n=56), DV (n=43), and COVID-19 (n=39). Results In the discovery set, 5,696 genes were SDE between MIS-C and combined comparator disease groups. Five genes were identified as potential MIS-C diagnostic biomarkers (HSPBAP1, VPS37C, TGFB1, MX2, TRBV11-2), achieving an AUC of 96.8% (95% CI: 94.6%-98.9%) in the discovery set, and were translated into RT-qPCR assays. The RT-qPCR 5-gene signature achieved an AUC of 93.2% (95% CI: 88.3%-97.7%) in the independent validation set when distinguishing MIS-C from KD, DB, and DV. Conclusion MIS-C can be distinguished from KD, DB, and DV groups using a 5-gene blood RNA expression signature. The small number of genes in the signature, and good performance in both discovery and validation sets should enable the development of a diagnostic test for MIS-C.

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Host Blood Gene Signatures Can Detect the Progression to Severe and Cerebral Malaria

Cited by 2 publications

References 59 publications

The malarial blood transcriptome: translational applications

The malarial blood transcriptome: translational applications

Diagnosis of Multisystem Inflammatory Syndrome in Children by a Whole-Blood Transcriptional Signature

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