Excess adenosine in murine penile erectile tissues contributes to priapism via A2B adenosine receptor signaling

Mi, Tiejuan; Abbasi, Shahrzad; Zhang, Hong; Uray, Karen; Chunn, Janci L.; Ling, Xinsheng; Molina, Jose G.; Weisbrodt, Norman W.; Kellems, Rodney E.; Blackburn, Michael R.; Xia, Yang

doi:10.1172/jci33467

Cited by 132 publications

(238 citation statements)

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“…It has been demonstrated that endogenous adenosine through A2B adenosine receptor play important role in the physiological process of penile erection (Wen et al 2011a, b) and excess adenosine, also via ADORA2B, leads to priapism in ADA deficient mice and sickle cell disease Tg mice (Mi et al 2008;Wen et al 2010a, b). In additional, Faria et al (2006) reported that vasculogenic erectile dysfunction is resistant to adenosine relaxation due to endothelial dysfunction caused by decreased activation of ADORA2B.…”

Section: Discussionmentioning

confidence: 99%

“…It is reported by our early work that endogenous adenosine through ADORA2B plays important role in the physiological process of penile erection in smooth muscle cells by two mechanisms: direct induction of cAMP production and indirect induction of cGMP production following the activation of eNOS in endothelial cells via the PI3K/AKT signaling cascade (Wen et al 2011a, b). Additionally, excess adenosine lead to priapism in adenosine deaminase (ADA) deficient mice and sickle cell disease transgenic (Tg) mice, also via ADORA2B (Mi et al 2008;Wen et al 2010a, b). Moreover, Faria et al (2006) reported that adenosine regulates smooth muscle tone of human corpus cavernosum through the activation of A2A and A2B adenosine receptors, which are located on smooth muscle fibers and on endothelial cells, respectively.…”

Section: Introductionmentioning

confidence: 99%

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A2B Adenosine Receptor Agonist Improves Erectile Function in Diabetic Rats

Wen

Wang

et al. 2015

Tohoku J. Exp. Med.

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Diabetes is an important risk factor for erectile dysfunction (ED). Recent studies have indicated that A2B adenosine receptor (ADORA2B) signaling is essential for penile erection. Thus, we hypothesize that diabetic ED may be attributed to impaired A2B adenosine signaling. To test this hypothesis, we generated diabetic rats by injecting streptozocin as animal model. After 12 weeks, immunohistochemistry staining was used to localize the expression of ADORA2B. Western Blot and quantitative PCR were employed to determine ADORA2B expression level. Intracavernosal pressure (ICP) measurement was used to evaluate erectile function. Diabetic rats received a single intravenous injection of BAY 60-6583, an ADORA2B agonist, or vehicle solution, at 60 min before the ICP measurement. The results showed that ADORA2B expressed in the nerve bundle, smooth muscle, and endothelium in penile tissue of control mice. Western Blot and quantitative PCR results indicated that the expression levels of ADORA2B protein and mRNA were significantly reduced in penile tissues of diabetic rats. Functional studies showed that the erectile response induced by electrical stimulation was remarkably decreased in diabetic rats, compared with age-matched control rats. However, at 60 min after BAY 60-6583 treatment, the erectile function was improved in diabetic rats, suggesting that enhancement of ADORA2B signaling may improve erectile function in diabetic ED. This preclinical study has revealed a previously unrecognized therapeutic possibility of BAY 60-6583 as an effective and mechanism-based drug to treat diabetic ED. In conclusion, we propose that impaired A2B adenosine signaling is one of the pathological mechanisms of diabetic ED.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A2B Adenosine Receptor Agonist Improves Erectile Function in Diabetic Rats

Wen

Wang

et al. 2015

Tohoku J. Exp. Med.

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“…The possibility has been raised that elevated adenosine signalling contributes to priapism, a condition of persistent penile erection lasting at least 4 h in the absence of sexual excitation [86,305]. Excess adenosine in penile erectile tissue in mice lacking adenosine deaminase contributes to priapism via A 2B receptor signalling [272]. A recent review highlights adenosine signalling pathways operating in penile tissue as significant therapeutic targets for the treatment of erectile disorders [430].…”

Section: Penis and Penile Erectionmentioning

confidence: 99%

Purinergic signalling in the reproductive system in health and disease

Burnstock

2013

Purinergic Signalling

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There are multiple roles for purinergic signalling in both male and female reproductive organs. ATP, released as a cotransmitter with noradrenaline from sympathetic nerves, contracts smooth muscle via P2X1 receptors in vas deferens, seminal vesicles, prostate and uterus, as well as in blood vessels. Male infertility occurs in P2X1 receptor knockout mice. Both short-and long-term trophic purinergic signalling occurs in reproductive organs. Purinergic signalling is involved in hormone secretion, penile erection, sperm motility and capacitation, and mucous production. Changes in purinoceptor expression occur in pathophysiological conditions, including pre-eclampsia, cancer and pain.

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“…80 Adenosine actions on ED have been explored in obese and type 2 diabetic db/db mouse 81 as well as in A2B receptor-knockout mice. 82 Mouse models of NO pathway disruption have been critical in defining the role of vasodilators as targets for the treatment of ED. 83 --86 The cGMP kinase I-deficient mouse has also been used to better understand the role of smooth muscle cells in the pathogenesis of ED.…”

Section: Animal Modelsmentioning

confidence: 99%

Animal models of erectile dysfunction (ED): potential utility of non-human primates as a model of atherosclerosis-induced vascular ED

Christ

2011

Int J Impot Res

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Erectile dysfunction (ED) is a prevalent medical condition affecting 18 million men and their sexual partners in the United States alone. In the majority of patients, ED is related to alterations in the flow of blood to or from the penis. Undeniably, significant progress has been made in understanding the multifactorial mechanisms that modulate erectile capacity and predispose one to ED, and this, in turn, has led to the availability of more effective treatment options. Nonetheless, all current therapies have untoward side effects, and moreover, there are still no satisfactory treatments for many patients with ED. Further enhancements in the treatment of ED would logically result from both early intervention and more detailed mechanistic insight into the characteristics of the disease process per se. This fact underscores the importance of improved understanding of the initiation, development and progression of ED. However, to do so requires longitudinal studies on animal models that more closely approximate the corresponding clinical features and time course of human disease. The goal of this report is twofold. First, to provide a brief general overview of the applicability of commonly used animal models for the study of ED. The second and primary goal is to highlight the scientific rationale for using non-human primates to evaluate the impact of atherosclerosis-induced vascular disease on the penile and systemic circulatory systems. This latter goal seems especially relevant in light of the recent literature documenting a link between ED and systemic vascular disease, a finding that has major implications in an aging US male population consuming a high fat diet. Keywords: animal models; atherosclerosis; non-human primates; vascular disease INTRODUCTION Erectile dysfunction (ED) is defined as the inability to achieve or maintain an erection sufficient for satisfactory sexual performance.1 --4 ED often has profound effects on intimate relationships, quality of life and overall self-esteem, causing serious distress and prompting men to seek medical attention. The economic impact of ED is multifaceted, with direct costs that include physician evaluation, pharmacotherapy and diagnostic testing, and indirect costs that include lost time at work, lost productivity and effects on the man's partner, family and coworkers. The Massachusetts Male Aging Study indicates that the prevalence of ED increases sharply with age. ED of some degree of severity is observed in 39% of men aged 40 years and in 67% of men aged 70 years.

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Excess adenosine in murine penile erectile tissues contributes to priapism via A2B adenosine receptor signaling

Cited by 132 publications

References 50 publications

A2B Adenosine Receptor Agonist Improves Erectile Function in Diabetic Rats

A2B Adenosine Receptor Agonist Improves Erectile Function in Diabetic Rats

Purinergic signalling in the reproductive system in health and disease

Animal models of erectile dysfunction (ED): potential utility of non-human primates as a model of atherosclerosis-induced vascular ED

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