AI Article Synopsis
- Ebola virus disease (EVD) has high mortality rates (20-90%) and is characterized by intense virus replication and host immune response, leading researchers to explore immune responses through transcriptomics.
- In a study with cynomolgus macaques, different exposure routes to the Ebola virus Makona were analyzed using RNA-Seq and a NanoString nCounter targeting 769 genes, finding similar overall transcriptional responses and correlated gene expression patterns.
- Both methods effectively predicted immune cell populations and demonstrated that developing a NanoString codeset specific to non-human primates can enhance research on filoviruses while circumventing the logistical challenges of RNA-Seq.
Article Abstract
Ebola virus disease (EVD) is a serious illness with mortality rates of 20-90% in various outbreaks. EVD is characterized by robust virus replication and strong host inflammatory response. Analyzing host immune responses has increasingly involved multimodal approaches including transcriptomics to profile gene expression. We studied cynomolgus macaques exposed to Ebola virus Makona via different routes with the intent of comparing RNA-Seq to a NanoString nCounter codeset targeting 769 non-human primate (NHP) genes. RNA-Seq analysis of serial blood samples showed different routes led to the same overall transcriptional response seen in previously reported EBOV-exposed NHP studies. Both platforms displayed a strong correlation in gene expression patterns, including a strong induction of innate immune response genes at early times post-exposure, and neutrophil-associated genes at later time points. A 41-gene classifier was tested in both platforms for ability to cluster samples by infection status. Both NanoString and RNA-Seq could be used to predict relative abundances of circulating immune cell populations that matched traditional hematology. This demonstrates the complementarity of RNA-Seq and NanoString. Moreover, the development of an NHP-specific NanoString codeset should augment studies of filoviruses and other high containment infectious diseases without the infrastructure requirements of RNA-Seq technology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5676990 | PMC |
| http://dx.doi.org/10.1038/s41598-017-15145-7 | DOI Listing |
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