Publication

An integrative genomics approach identifies novel pathways that influence candidaemia susceptibility

Matzaraki, V., Gresnigt, M. S., Jaeger, M., Ricano-Ponce, I., Johnson, M. D., Oosting, M., Franke, L., Withoff, S., Perfect, J. R., Joosten, L. A. B., Kullberg, B. J., van de Veerdonk, F. L., Jonkers, I., Li, Y., Wijmenga, C., Netea, M. G. & Kumar, V. 20-Jul-2017 In : Plos one. 12, 7, 18 p., 0180824

Research output: Scientific - peer-reviewArticle

Candidaemia is a bloodstream infection caused by Candida species that primarily affects specific groups of at-risk patients. Because only small candidaemia patient cohorts are available, classical genome wide association cannot be used to identify Candida susceptibility genes. Therefore, we have applied an integrative genomics approach to identify novel susceptibility genes and pathways for candidaemia. Candida-induced transcriptome changes in human primary leukocytes were assessed by RNA sequencing. Genetic susceptibility to candidaemia was assessed using the Illumina immunochip platform for genotyping of a cohort of 217 patients. We then integrated genetics data with gene-expression profiles, Candidainduced cytokine production capacity, and circulating concentrations of cytokines. Based on the intersection of transcriptome pathways and genomic data, we prioritized 31 candidate genes for candidaemia susceptibility. This group of genes was enriched with genes involved in inflammation, innate immunity, complement, and hemostasis. We then validated the role of MAP3K8 in cytokine regulation in response to Candida stimulation. Here, we present a new framework for the identification of susceptibility genes for infectious diseases that uses an unbiased, hypothesis-free, systems genetics approach. By applying this approach to candidaemia, we identified novel susceptibility genes and pathways for candidaemia, and future studies should assess their potential as therapeutic targets.

Original languageEnglish
Article number0180824
Number of pages18
JournalPlos one
Volume12
Issue number7
StatePublished - 20-Jul-2017

    Keywords

  • BLOOD-STREAM INFECTIONS, FUNGAL-INFECTIONS, HOST RESPONSE, ALBICANS, COAGULATION, SEPSIS, DEFENSE, HYPHAE, INFLAMMATION, RECOGNITION

View graph of relations

Download statistics

No data available

ID: 48442712