Gene expression profiling coupled with Connectivity Map database mining reveals potential therapeutic drugs for Hirschsprung disease

Space: StayCurrentMD Author: Shang-jie Xiao, Xiao-chun Zhu, Hua Deng, Wei-ping Zhou, Wen-yi Yang, Li-ke Yuan, Jiang-yu Zhang, Song Tian, Lu Xu, Liang Zhang, Hui-min Xia Published: 2018-03-28

Author / Expert

Shang-jie Xiao, Xiao-chun Zhu, Hua Deng, Wei-ping Zhou, Wen-yi Yang, Li-ke Yuan, Jiang-yu Zhang, Song Tian, Lu Xu, Liang Zhang, Hui-min Xia

Topic overview

Abstract

Background

Hirschsprung disease (HD) is a congenital intestinal anomaly resulting from a failure to form enteric ganglia in the lower bowel. Surgery is the main therapeutic strategy, although neural stem cell transplantation has recently shown promise. However, HD remains a challenging disorder to treat. Our aim was to identify drugs that could counteract the dysregulated pathways in HD and could thus be potential novel therapies.

Methods

We used microarray analysis to identify genes differentially expressed in ganglionic and aganglionic bowel samples from eight children with HD. The signature of differentially expressed genes was then used as a search query to explore the Connectivity Map (cMAP), a transcriptional expression database that catalogs gene signatures elicited by chemical perturbagens.

Results

We uncovered several dysregulated signaling pathways, and in particular regulation of neuron development, in HD. The cMAP search identified some compounds with the potential to counteract the effects of the dysregulated molecular signature in this disease. One of these, pepstatin A, was recently shown to rescue the migration defects observed in a mouse model of HD, providing strong support for our findings.

Conclusions

This study advances our understanding of the molecular changes in HD and identifies several potential pharmacological interventions. Further testing of the identified compounds is warranted.