Complementary mechanisms of modulation of spontaneous phasic contractions by the gaseous signalling molecules NO, H2S, HNO and the polysulfide Na2S3 in the rat colon

Author:

Pouokam Ervice1ORCID,Vallejo Adriana2,Martínez Emma2,Traserra Sara2,Jimenez Marcel2

Affiliation:

1. Institute of Veterinary Physiology and Biochemistry, Justus–Liebig-University Giessen , Giessen , Germany

2. Department of Cell Biology , Physiology and Immunology and Neurosciences Institute, Universitat Autònoma de Barcelona , Barcelona , Spain

Abstract

Abstract Objectives Reactive oxygen and nitrogen species may be produced during inflammation leading to the formation of NO, H2S or HNO. Enzymes such as iNOS, CSE and CBS might also be responsible for polysulfide production. Since these signalling molecules might have an impact on colonic motility, the aim of this study was to compare their effect on rat colonic slow phasic contractions (SPC). Methods Organ bath measurements with strips obtained from rat proximal colon were performed using the polysulfide Na2S3, sodium nitroprusside (NaNP), sodium hydrogen sulfide (NaHS), Angeli’s salt as NO, H2S, and HNO donors, respectively. TTX (1 µM) was used to block neuronal activity. Results All four molecules, concentration-dependently, inhibited the amplitude and frequency of SPC both in the circular and longitudinal muscle layer. The relative potency was NaNP>Angeli’s salt>NaHS>Na2S3. The inhibitory response induced by NaNP (1 µM) and Angeli’s salt (50 µM) was reversed by ODQ (10 µM) whereas the inhibitory effect of NaHS (1 mM) was reversed by apamin (1 µM) and glibenclamide (10 µM). Na2S3 (1 mM) response was partially reversed by apamin (1 µM) and glibenclamide (10 µM). High concentrations of Na2S3 caused an increase in tone. Low concentrations of NaHS or Na2S3 did not potentiate NaNP responses. Conclusions All signalling molecules inhibit SPC in both muscle layers. The effect is independent of neural activity and involves guanylyl cyclase (NO and HNO) and SKCa and KATP channels (NaHS or Na2S3). Other pathways might also be involved in Na2S3 responses. Accordingly, complementary mechanisms of inhibition might be attributable to these signalling molecules.

Publisher

Walter de Gruyter GmbH

Subject

Drug Discovery,Pharmacology,General Medicine,Physiology

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