Abstract
Maternal fructose exposure (MFE) programs the development of metabolic syndrome (MetS) in young adult offspring. Epidemiological data indicate that MetS may increase the risks of overactive bladder (OAB) symptoms. However, it remains unknown whether MFE programs MetS-associated bladder dysfunction in adult offspring. Using Sprague-Dawley rats, we investigated the effects of MFE during pregnancy and lactation on developmental programming of MetS-associated bladder dysfunction. In addition, next generation sequencing technology was used to identify potential transcripts involved in the programmed bladder dysfunction in adult male offspring to MFE. We found that MFE programmed the MetS-associated OAB symptoms (i.e., an increase in micturition frequency and a shortened mean inter-contractile interval) in young adult male offspring, alongside significant alterations in bladder transcripts, including Chrm2, Chrm3, P2rx1, Trpv4, and Vipr2 gene expression. At protein level, the expressions of M2-, M3-muscarinic and P2X1 receptor proteins were upregulated in the MFE bladder. Functionally, the carbachol-induced detrusor contractility was reduced in the MFE offspring. These data suggest that alterations in the bladder transcripts and impairment of the bladder cholinergic pathways may underlie the pathophysiology of programmed bladder dysfunction in adult offspring to MFE.
Highlights
Whether Maternal fructose exposure (MFE) programs overactive bladder (OAB) in adult offspring in association with metabolic syndrome (MetS) is currently unknown
We conducted the present study to investigate the effect of MFE during pregnancy and lactation on the development of MetS-associated bladder dysfunctions in young adult male offspring, and performed the generation sequencing (NGS) analysis to identify potential transcripts associated with the programmed bladder dysfunction in the MFE offspring
Among the 20 target gene families involved in bladder physiological functions, we identified significant increases in Chrm[2], Chrm[3], P2rx[1], Vipr[2], and a significant decrease in Trpv[4] mRNA levels; among them the expressions of M2- and M3-muscarinic acetylcholine receptor (mAChR) and P2X1 receptor proteins were increased in the bladder of the MFE offspring
Summary
Whether MFE programs OAB in adult offspring in association with MetS is currently unknown. Mechanism underlying the programmed OAB remains unclear. We conducted the present study to investigate the effect of MFE during pregnancy and lactation on the development of MetS-associated bladder dysfunctions in young adult male offspring, and performed the generation sequencing (NGS) analysis to identify potential transcripts associated with the programmed bladder dysfunction in the MFE offspring
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