Takeya Otsuki scite author profile

Objectives Diabetic cystopathy (DC) is recognized as one of the major etiologies of underactive bladder (UAB)/detrusor underactivity (DU). Although DC was first reported about three decades ago, there is a distinct lack of effective pharmacological management methods for UAB/DU due to DC with a robust certainty of evidence. In this study, we investigated whether EP2 and EP3 receptors are promising targets of pharmacological management of UAB/DU due to DC. Methods We used streptozotocin (STZ)‐induced diabetic Sprague‐Dawley rats with postvoid residual urine (PVR) greater than 0.1 mL. Sixteen weeks after induction of diabetes, we performed awake single cystometry after oral administration of the vehicle, an α‐blocker (tamsulosin [TAM], 0.1 and 0.3 mg/kg), a cholinesterase inhibitor (distigmine [DIS], 0.3 and 1.0 mg/kg), or an EP2/3 dual agonist (ONO‐8055, 0.01 and 0.03 mg/kg). We compared cystometric parameters after administration of the vehicle and drugs using a paired t test. P < .05 was considered to be statistically significant. Results Compared with the vehicle, TAM significantly decreased maximum intravesical pressure during voiding (Pmax), while DIS significantly increased it. However, neither drug significantly affected PVR or the residual urine rate (RUR). On the other hand, ONO‐8055 significantly decreased PVR and tended to decrease RUR, although it did not significantly affect Pmax. Conclusion The present study was unable to demonstrate that stimulation of EP2 and EP3 receptors caused major improvements in UAB/DU due to DC. However, this equivocal result could arise from inherent limitations of the STZ‐induced diabetic rat as a UAB/DU model.

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Pd7-01 Ono-8055, a Novel and Potent Prostanoid Ep2 and Ep3 Receptor Dual Agonist, Improves Voiding Dysfunction in a Monkey Underactive Bladder Model

Matsuya¹,

Otsuki²,

Kida³

et al. 2015

Journal of Urology

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Further characterization of a novel EP2 and EP3 receptor dual agonist, ONO‐8055, on lower urinary tract function in normal and lumbar canal stenosis rats

Sekido

Kida

Otsuki

et al. 2019

LUTS

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AimsTo further explore the effects of a novel EP2 and EP3 dual agonist, ONO‐8055, on detrusor contractility, we investigated the responses of bladder strips from sham and lumbar canal stenosis (LCS) rats to this agonist, its effects on lower urinary tract function in normal rats, and mRNA expression of EP2 and EP3 receptors in the sham and LCS rats.MethodsThe responses of bladder strips from sham and LCS rats to ONO‐8055 were measured. The effects of ONO‐8055 on LUT function of normal rats were investigated with awake cystometry and intraurethral perfusion pressure (Pura) measurements. The relative mRNA of bladder and urethral tissue of the sham and LCS rats was quantified using specific probes for EP1, EP2, EP3, and EP4 genes.ResultsCompared with the vehicle, the muscle tensions of both the sham and LCS rats were significantly increased after adding this agonist. On awake cystometry of normal rats, bladder capacity and Pura were decreased in the ONO‐8055 groups, but a statistically significant difference in mean changes was demonstrated only between the vehicle group and the group receiving the highest dose. Compared with the sham rats, mRNA expressions of the four EP receptors in the lower urinary tract of the LCS rats did not show a statistically significant difference.ConclusionsThis agonist did not augment bladder contractility or urethral relaxation in normal rats.

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Takeya Otsuki

Inhibitory effects of retigabine, a Kv7 channel activator, on mechanosensitive primary bladder afferent activities and nociceptive behaviors in rats

EP2 and EP3 receptors as therapeutic targets for underactive bladder/detrusor underactivity due to diabetic cystopathy in a type 1 diabetic rat model

Pd7-01 Ono-8055, a Novel and Potent Prostanoid Ep2 and Ep3 Receptor Dual Agonist, Improves Voiding Dysfunction in a Monkey Underactive Bladder Model

Further characterization of a novel EP2 and EP3 receptor dual agonist, ONO‐8055, on lower urinary tract function in normal and lumbar canal stenosis rats

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