Abstract
The mechanisms underlying bladder contractile disorders such as overactive bladder are not fully understood, and there is limited understanding of the receptor systems modulating spontaneous bladder contractions. We investigated the potential for histamine to have a role in mediating contractility of the urothelium with lamina propria (U&LP) or detrusor via the H1-H4 histamine receptor subtypes. Isolated strips of porcine U&LP or detrusor smooth muscle were mounted in gassed Krebs-bicarbonate solution and responses to histamine obtained in the absence and presence of selective receptor antagonists. The presence of histamine increases the frequency of U&LP spontaneous phasic contractions and baseline tensions. In response to histamine, H1-antagonists pyrilamine, fexofenadine and cyproheptadine were effective at inhibiting contractile responses. Cimetidine (H2-antagonist) enhanced increases in baseline tension in response histamine, whereas amthamine (H2-agonist) induced relaxation. Although thioperamide (H3/H4-antagonist) increased baseline tension responses to histamine, selective H1/H2-receptor antagonism revealed no influence of these receptors. In detrusor preparations, pyrilamine, fexofenadine and cyproheptadine were effective at inhibiting baseline tension increases in response to histamine. Our findings provide evidence that histamine produces contractile responses both in the U&LP and detrusor via the H1-receptor, and this response is significantly inhibited by activation of the H2-receptor in the U&LP but not the detrusor.
Highlights
The underlying mechanisms of bladder contractile disorders such as overactive bladder (OAB) are unclear
This study aims to investigate the effect of histamine on the contractility of urothelium with lamina propria (U&LP) and detrusor smooth muscle and identify the histamine receptor subtypes responsible for mediating contractile responses
U&LP is comprised of several layers of epithelial cells that line the lumen of the bladder and the underlying connective tissue layer, whereas detrusor is made of smooth muscle cells
Summary
The underlying mechanisms of bladder contractile disorders such as overactive bladder (OAB) are unclear. U&LP is capable of releasing various mediators when activated by chemical or mechanical stimuli such as acetylcholine which can influence detrusor contractions[1]. Bladder contractions are mainly controlled by the parasympathetic nerves[5] which release acetylcholine to activate M3 muscarinic receptors on the detrusor smooth muscle[6]. One alternative target involved in the pathogenesis of contractile dysfunctions, such as OAB may be the inflammatory mediators released from mast cells at sites of inflammation. Mast cells play an important role in immediate allergic reactions and during inflammation[9] Upon activation, they release and synthesise potent inflammatory mediators including histamine, prostaglandins, proteases, cytokines that act on smooth muscle, connective tissue, mucous glands and other inflammatory cells[10]. This study aims to investigate the effect of histamine on the contractility of U&LP and detrusor smooth muscle and identify the histamine receptor subtypes responsible for mediating contractile responses
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