Abstract
Urothelial cells, myofibroblasts, and smooth muscle cells are important cell types contributing to bladder function. Multiple receptors including muscarinic (M3/M5), tachykinin (NK1/NK2), and purinergic (P2X1/P2Y6) receptors are involved in bladder motor and sensory actions. Using female pig bladder, our aim was to differentiate between various cell types in bladder by genetic markers. We compared the molecular expression pattern between the fresh tissue layers and their cultured cell counterparts. We also examined responses to agonists for these receptors in cultured cells. Urothelial, suburothelial (myofibroblasts), and smooth muscle cells isolated from pig bladder were cultured (10–14 days) and identified by marker antibodies. Gene (mRNA) expression level was demonstrated by real-time PCR. The receptor expression pattern was very similar between suburothelium and detrusor, and higher than urothelium. The gene expression of all receptors decreased in culture compared with the fresh tissue, although the reduction in cultured urothelial cells appeared less significant compared to suburothelial and detrusor cells. Cultured myofibroblasts and detrusor cells did not contract in response to the agonists acetylcholine, neurokinin A, and β,γ-MeATP, up to concentrations of 0.1 and 1 mM. The significant reduction of M3, NK2, and P2X1 receptors under culture conditions may be associated with the unresponsiveness of cultured suburothelial and detrusor cells to their respective agonists. These results suggest that under culture conditions, bladder cells lose the receptors that are involved in contraction, as this function is no longer required. The study provides further evidence that cultured cells do not necessarily mimic the actions exerted by intact tissues.
Highlights
Interactions between various neurochemicals and receptors are essential for normal sensory and motor function in the urinary bladder (Birder, 2013; Burnstock, 2013)
This study showed that the expression of muscarinic M3, tachykinin NK2, and purinergic P2X1 receptors was high in fresh detrusor and suburothelium, and lower in fresh urothelial cells
We were not able to detect the NK1 transcript in the porcine bladder, despite using primers derived from sequences conserved across a broad range of mammalian species, which showed a positive NK1 product in human colon
Summary
Interactions between various neurochemicals and receptors are essential for normal sensory and motor function in the urinary bladder (Birder, 2013; Burnstock, 2013). The main neurotransmitters involved in detrusor muscle contraction and relaxation are acetylcholine (ACh) and noradrenaline (NA), respectively, (Ochodnicky et al, 2013) Other mediators such as adenosine triphosphate (ATP), nitric oxide (NO), and tachykinins are involved in bladder function, and are of importance in stimulating afferent signaling pathways (Ishizuka et al, 1995; Otomo et al, 1999; Whitbeck et al, 2007). The mucosa contains various cell types, of major interest being spindle shaped cells known as myofibroblasts, mainly located in the suburothelium (Cheng et al, 2011). Our group has shown the potent contractility of bladder suburothelium in response to the tachykinin and muscarinic receptor agonists; it was suggested that myofibroblasts might be the cell type responsible for suburothelial contraction (Sadananda et al, 2008, 2012)
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