Neonatal Bladder Inflammation Induces Long-term Visceral Pain and Altered Responses of Spinal Neurons in Adult Rats

Overview

Journal Neuroscience

Specialty Neurology

Date 2017 Jan 28

PMID 28126369

Citations 13

Authors

Pradeep Kannampalli

Reji Babygirija

Jiang Zhang

Michael M Poe

Guanguan Li

James M Cook

Reza Shaker

Banani Banerjee

Jyoti N Sengupta

Affiliations

Soon will be listed here.

Abstract

Painful events early in life have been shown to increase the incidence of interstitial cystitis/painful bladder syndrome in adulthood. However, the intrinsic mechanism is not well studied. We previously reported that neonatal bladder inflammation causes chronic visceral hypersensitivity along with molecular disruption of spinal GABAergic system in rats. The present study investigates whether these molecular changes affect the integrative function and responses of bladder-sensitive primary afferent and spinal neurons. Neonatal bladder inflammation was induced by intravesicular injection of zymosan during postnatal (P) days 14-16. In adulthood (P60), the viscero-motor response (VMR) to visceral stimuli was significantly inhibited by intrathecal (i.t) HZ166 (GABA agonist) only in neonatally saline-treated, but not in neonatally zymosan-treated rats. HZ166 significantly inhibited the responses of bladder-responsive lumbosacral (LS) spinal neurons to urinary bladder distension (UBD) and slow infusion (SI) in neonatally saline-treated rats. Similar results were also observed in naïve adult rats where HZ166 produced significant inhibition of bladder-responsive spinal neurons. However, HZ166 did not inhibit responses of UBD-responsive spinal neurons from neonatally zymosan-treated rats. The drug did not attenuate the responses of UBD-sensitive pelvic nerve afferent (PNA) fibers to UBD and SI in either group of rats tested. Immunohistochemical studies showed a significantly lower level of GABA receptor expression in the LS spinal cord of neonatally zymosan-treated rats compared to saline-treated rats. These findings indicate that neonatal bladder inflammation leads to functional and molecular alteration of spinal GABA receptor subtypes, which may result in chronic visceral hyperalgesia in adulthood.

Citing Articles

Latent bladder hypersensitivity induced by neonatal cystitis in rats unmasked by segmental but not hetero-segmental inflammation.

Ness T, DeWitte C Neurosci Lett. 2024; 846:138090.

PMID: 39701177 PMC: 11700770. DOI: 10.1016/j.neulet.2024.138090.

The Double Insult of Neonatal Cystitis Plus Adult Somatic Inflammation Results in Corticotropin Releasing Factor Type II Receptor-Dependent Bladder Hypersensitivity in Female Rats.

Ness T, DeWitte C, Randich A J Pain. 2022; 23(12):2167-2178.

PMID: 36089237 PMC: 9729390. DOI: 10.1016/j.jpain.2022.08.005.

Neonatal cystitis leads to alterations in spinal corticotropin releasing factor receptor-type 2 content and function in adult rats following bladder re-inflammation.

Ness T, DeWitte C, Randich A Brain Res. 2022; 1788:147927.

PMID: 35477003 PMC: 11062479. DOI: 10.1016/j.brainres.2022.147927.

Neonatal Bladder Inflammation Results in Adult Female Mouse Phenotype With Increased Frequency and Nociceptive Responses to Bladder Filling.

Clodfelder-Miller B, Ness T, Deberry J Front Syst Neurosci. 2022; 16:858220.

PMID: 35359621 PMC: 8963710. DOI: 10.3389/fnsys.2022.858220.

A Model in Female Rats With Phenotypic Features Similar to Interstitial Cystitis/Bladder Pain Syndrome.

Ness T, DeWitte C, Deberry J, Hart M, Clodfelder-Miller B, Gu J Front Pain Res (Lausanne). 2022; 2:791045.

PMID: 35295535 PMC: 8915626. DOI: 10.3389/fpain.2021.791045.

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