Abstract
Few therapeutic methods exist for preventing preterm birth (PTB), or delivery before completing 37 weeks of gestation. In the US, progesterone (P4) supplementation is the only FDA-approved drug for use in preventing recurrent spontaneous PTB. However, P4 has limited effectiveness, working in only approximately one-third of cases. Computational drug repositioning leverages data on existing drugs to discover novel therapeutic uses. We used a rank-based pattern-matching strategy to compare the differential gene expression signature for PTB to differential gene expression drug profiles in the Connectivity Map database and assigned a reversal score to each PTB-drug pair. Eighty-three drugs, including P4, had significantly reversed differential gene expression compared with that found for PTB. Many of these compounds have been evaluated in the context of pregnancy, with 13 belonging to pregnancy category A or B - indicating no known risk in human pregnancy. We focused our validation efforts on lansoprazole, a proton-pump inhibitor, which has a strong reversal score and a good safety profile. We tested lansoprazole in an animal inflammation model using LPS, which showed a significant increase in fetal viability compared with LPS treatment alone. These promising results demonstrate the effectiveness of the computational drug repositioning pipeline to identify compounds that could be effective in preventing PTB.
Highlights
Preterm birth (PTB), or birth before 37 weeks of gestation, is the leading cause of infant mortality worldwide
By comparing the drug signatures from Connectivity Map (CMap) with the differential gene expression for spontaneous PTBs (sPTBs), we identified 83 potential candidate drugs, including P4, which significantly reversed the disease gene expression signature
By comparing the differential gene expression signature for sPTB with the differential gene expression profiles of drug experiments, we found 83 drugs whose profiles were significantly (FDR < 0.05) reversed compared with sPTB
Summary
Preterm birth (PTB), or birth before 37 weeks of gestation, is the leading cause of infant mortality worldwide. Prematurely born children are at a higher risk for life-long neurodevelopmental sequelae, such as motor and cognitive impairments [3, 4]. Two-thirds of PTB cases are spontaneous PTBs (sPTBs), an umbrella term for both spontaneous preterm labor (early onset of regular contractions and cervical changes) and preterm premature rupture of the membranes (early water breaking) [5]. Some studies have suggested that sPTB may be caused by changes in the maternal immune system or in the interplay between the fetal and maternal immune systems [6,7,8]
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