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dc.contributor.authorOnyango, Clinton O
dc.contributor.authorAnyona, Samuel B
dc.contributor.authorHurwitz, Ivy
dc.contributor.authorEvans, Raballah
dc.contributor.authorWasena, Sharely A
dc.contributor.authorOsata, Shamim W
dc.contributor.authorSeidenberg, Philip
dc.contributor.authorMcMahon, Benjamin H
dc.contributor.authorLambert, Christophe G
dc.contributor.authorSchneider, Kristan A
dc.contributor.authorOuma, Collins
dc.contributor.authorCheng, Qiuying
dc.contributor.authorPerkins, Douglas J
dc.date.accessioned2024-11-05T14:41:27Z
dc.date.available2024-11-05T14:41:27Z
dc.date.issued2024-09-03
dc.identifier.urihttps://doi.org/10.3390/pathogens13100867
dc.identifier.urihttps://www.mdpi.com/2076-0817/13/10/867
dc.identifier.urihttp://ir-library.mmust.ac.ke:8080/xmlui/handle/123456789/3041
dc.description.abstractSevere malarial anemia (SMA, Hb < 6.0 g/dL) is a leading cause of childhood morbidity and mortality in holoendemic Plasmodium falciparum transmission zones. This study explored the entire expressed human transcriptome in whole blood from 66 Kenyan children with non-SMA (Hb ≥ 6.0 g/dL, n = 41) and SMA (n = 25), focusing on host immune response networks. RNA-seq analysis revealed 6862 differentially expressed genes, with equally distributed up-and down-regulated genes, indicating a complex host immune response. Deconvolution analyses uncovered leukocytic immune profiles indicative of a diminished antigenic response, reduced immune priming, and polarization toward cellular repair in SMA. Weighted gene co-expression network analysis revealed that immune-regulated processes are central molecular distinctions between non-SMA and SMA. A top dysregulated immune response signaling network in SMA was the HSP60-HSP70-TLR2/4 signaling pathway, indicating altered pathogen recognition, innate immune activation, stress responses, and antigen recognition. Validation with high-throughput gene expression from a separate cohort of Kenyan children (n = 50) with varying severities of malarial anemia (n = 38 non-SMA and n = 12 SMA) confirmed the RNA-seq findings. Proteomic analyses in 35 children with matched transcript and protein abundance (n = 19 non-SMA and n = 16 SMA) confirmed dysregulation in the HSP60-HSP70-TLR2/4 signaling pathway. Additionally, glutamine transporter and glutamine synthetase genes were differentially expressed, indicating altered glutamine metabolism in SMA. This comprehensive analysis underscores complex immune dysregulation and novel pathogenic features in SMA.en_US
dc.language.isoenen_US
dc.publisherPathogensen_US
dc.subjectRanscriptomic, Proteomic, Insights, Host Immune, Responses, Pediatric, Severe, Malarial, Anemia, Dysregulation, HSP60-70-TLR2/4 Signaling, Altered, Glutamine, Metabolismen_US
dc.titleTranscriptomic and Proteomic Insights into Host Immune Responses in Pediatric Severe Malarial Anemia: Dysregulation in HSP60-70-TLR2/4 Signaling and Altered Glutamine Metabolismen_US
dc.typeArticleen_US


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