- 作者:Jinsheng Yu1 ; &lowast ; ; M. Isabel Ordiz2 ; &lowast ; ; Jennifer Stauber2 ; &lowast ; ; Nurmohammad Shaikh2 ; &lowast ; ; Indi Trehan2 ; Erica Barnell2 ; Richard D. Head1 ; Ken Maleta3 ; Phillip I. Tarr2 ; Mark J. Manary2 ; 3 ; 4 ; manary@kids.wustl.edu" class="auth_mail" title="E-mail the corresponding author
- 关键词:Environmental Enteropathy ; Fecal Transcriptome ; Stunting ; Intestinal Inflammation
- 刊名:CMGH Cellular and Molecular Gastroenterology and Hepatology
- 出版年:2016
- 出版时间:February 2016
- 年:2016
- 卷:2
- 期:2
- 页码:158-174.e1
- 全文大小:4123 K
Methods
In 259 children, EED was measured by lactulose permeability (%L). After isolating low copy numbers of host messenger RNA, the transcriptome was reliably and reproducibly profiled, validated by polymerase chain reaction. Messenger RNA copy number then was correlated with %L and differential expression in EED. The transcripts identified were mapped to biological pathways and processes. The children studied had a range of %L values, consistent with a spectrum of EED from none to severe.
Results
We identified 12 transcripts associated with the severity of EED, including chemokines that stimulate T-cell proliferation, Fc fragments of multiple immunoglobulin families, interferon-induced proteins, activators of neutrophils and B cells, and mediators that dampen cellular responses to hormones. EED-associated transcripts mapped to pathways related to cell adhesion, and responses to a broad spectrum of viral, bacterial, and parasitic microbes. Several mucins, regulatory factors, and protein kinases associated with the maintenance of the mucous layer were expressed less in children with EED than in normal children.
Conclusions
EED represents the activation of diverse elements of the immune system and is associated with widespread intestinal barrier disruption. Differentially expressed transcripts, appropriately enumerated, should be explored as potential biomarkers.