Age‐related changes in afferent pathways and urothelial function in the male mouse bladder

Daly, Donna; Nocchi, Linda; Liaskos, Marina; McKay, Neil G.; Chapple, Christopher R.; Grundy, David

doi:10.1113/jphysiol.2013.262634

Cited by 78 publications

(88 citation statements)

References 31 publications

(36 reference statements)

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“…The response of the bladder to α,β-meATP increased with age [351], but P2X1 and P2X3 receptor mRNA did not change with age. In aged male mice, there was an increase in bladder voiding, augmented P2X3 receptor-mediated afferent nerve firing during bladder filling and an increase in urothelial activation by ATP [352]. The authors speculated that this may reflect the increase in overactive bladder in ageing humans.…”

Section: Ageingmentioning

confidence: 95%

Purinergic signalling during development and ageing

Burnstock

Dale

2015

Purinergic Signalling

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Extracellular purines and pyrimidines play major roles during embryogenesis, organogenesis, postnatal development and ageing in vertebrates, including humans. Pluripotent stem cells can differentiate into three primary germ layers of the embryo but may also be involved in plasticity and repair of the adult brain. These cells express the molecular components necessary for purinergic signalling, and their developmental fates can be manipulated via this signalling pathway. Functional P1, P2Y and P2X receptor subtypes and ectonucleotidases are involved in the development of different organ systems, including heart, blood vessels, skeletal muscle, urinary bladder, central and peripheral neurons, retina, inner ear, gut, lung and vas deferens. The importance of purinergic signalling in the ageing process is suggested by changes in expression of A1 and A2 receptors in old rat brains and reduction of P2X receptor expression in ageing mouse brain. By contrast, in the periphery, increases in expression of P2X3 and P2X4 receptors are seen in bladder and pancreas.

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Section: Ageingmentioning

confidence: 95%

Purinergic signalling during development and ageing

Burnstock

Dale

2015

Purinergic Signalling

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“…In the mouse bladder, Daly et al (2014) found altered ATP and ACh bioavailability, increased purinergic receptor sensitivity and raised P2X 3 receptor expression in the urothelium. Sui et al (2014a,b) measured intrinsic ATP release in mucosal preparations from aged guinea pigs.…”

Section: Urothelial Atp Releasementioning

confidence: 97%

Purinergic signalling in the urinary bladder

Andersson¹

2015

Autonomic Neuroscience

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“…P2X3 receptor knockout mice had marked urinary bladder hyporeflexia with reduced voiding frequency and increased voiding volume, suggesting that these receptors are involved in mechanosensory transduction underlying activation of afferent fibers that control voiding reflexes during bladder filling (Cockayne et al, 2000). Age-related changes in afferent pathways were demonstrated in male mouse bladder (Daly et al, 2014): bladders from aged mice showed increased voiding frequency and enhanced low-threshold afferent nerve activity concurrent with increased purinergic receptor sensitivity and raised P2X3 receptor expression in the urothelium and increased levels ATP, but decreased levels of acetylcholine in the bladder lumen. Increased stretch-activated ATP release from bladder urothelium was demonstrated in patients with interstitial cystitis (Sun et al, 2001), painful bladder syndrome (Kumar et al, 2007), and idiopathic detrusor overactivity (Kumar et al, 2010).…”

Section: Evidence For Release Of Purine Neurotransmittersmentioning

confidence: 99%

The purinergic neurotransmitter revisited: A single substance or multiple players?

Mutafova‐Yambolieva

Durnin

2014

Pharmacology & Therapeutics

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The past half century has witnessed tremendous advances in our understanding of extracellular purinergic signaling pathways. Purinergic neurotransmission, in particular, has emerged as a key contributor in the efficient control mechanisms in the nervous system. The identity of the purine neurotransmitter, however, remains controversial. Identifying it is difficult because purines are present in all cell types, have a large variety of cell sources, and are released via numerous pathways. Moreover, studies on purinergic neurotransmission have relied heavily on indirect measurements of integrated postjunctional responses that do not provide direct information for neurotransmitter identity. This paper discusses experimental support for adenosine 5′-triphosphate (ATP) as a neurotransmitter and recent evidence for possible contribution of other purines, in addition to or instead of ATP, in chemical neurotransmission in the peripheral, enteric and central nervous systems. Sites of release and action of purines in model systems such as vas deferens, blood vessels, urinary bladder and chromaffin cells are discussed. This is preceded by a brief discussion of studies demonstrating storage of purines in synaptic vesicles. We examine recent evidence for cell type targets (e.g., smooth muscle cells, interstitial cells, neurons and glia) for purine neurotransmitters in different systems. This is followed by brief discussion of mechanisms of terminating the action of purine neurotransmitters, including extracellular nucleotide hydrolysis and possible salvage and reuptake in the cell. The significance of direct neurotransmitter release measurements is highlighted. Possibilities for involvement of multiple purines (e.g., ATP, ADP, NAD+, ADP-ribose, adenosine, and diadenosine polyphosphates) in neurotransmission are considered throughout.

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Age‐related changes in afferent pathways and urothelial function in the male mouse bladder

Cited by 78 publications

References 31 publications

Purinergic signalling during development and ageing

Purinergic signalling during development and ageing

Purinergic signalling in the urinary bladder

The purinergic neurotransmitter revisited: A single substance or multiple players?

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