Zhaocun Zhang scite author profile

Diabetes Mellitus (DM)-induced bladder dysfunction is predominantly due to the long-term oxidative stress caused by hyperglycemia. Grape seed proanthocyanidin extract (GSPE) has been reported to possess a broad spectrum of pharmacological and therapeutic properties against oxidative stress. However, its protective effects against diabetic bladder dysfunction have not been clarified. This study focuses on the effects of GSPE on bladder dysfunction in diabetic rats induced by streptozotocin. After 8 weeks of GSPE administration, the bladder function of the diabetic rats was improved significantly, as indicated by both urodynamics analysis and histopathological manifestation. Moreover, the disordered activities of antioxidant enzymes (SOD and GSH-Px) and abnormal oxidative stress levels were partly reversed by treatment with GSPE. Furthermore, the level of apoptosis in the bladder caused by DM was decreased following the administration of GSPE according to the Terminal Deoxynucleotidyl Transferase (TdT)-mediated dUTP Nick-End Labeling (TUNEL) assay. Additionally, GSPE affected the expression of apoptosis-related proteins such as Bax, Bcl-2 and cleaved caspase-3. Furthermore, GSPE showed neuroprotective effects on the bladder of diabetic rats, as shown by the increased expression of nerve growth factor (NGF) and decreased expression of the precursor of nerve growth factor (proNGF). GSPE also activated nuclear erythroid2-related factor2 (Nrf2), which is a key antioxidative transcription factor, with the concomitant elevation of downstream hemeoxygenase-1 (HO-1). These findings suggested that GSPE could ameliorate diabetic bladder dysfunction and decrease the apoptosis of the bladder in diabetic rats, a finding that may be associated with its antioxidant activity and ability to activate the Nrf2 defense pathway.

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Sympathetic β-adrenergic mechanism in pudendal inhibition of nociceptive and non-nociceptive reflex bladder activity

Kadow

Lyon

Zhang

et al. 2016

American Journal of Physiology-Renal Physiology

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This study investigated the role of the hypogastric nerve and β-adrenergic mechanisms in the inhibition of nociceptive and non-nociceptive reflex bladder activity induced by pudendal nerve stimulation (PNS). In α-chloralose-anesthetized cats, non-nociceptive reflex bladder activity was induced by slowly infusing saline into the bladder, whereas nociceptive reflex bladder activity was induced by replacing saline with 0.25% acetic acid (AA) to irritate the bladder. PNS was applied at multiple threshold (T) intensities for inducing anal sphincter twitching. During saline infusion, PNS at 2T and 4T significantly (P < 0.01) increased bladder capacity to 184.7 ± 12.6% and 214.5 ± 10.4% of the control capacity. Propranolol (3 mg/kg iv) had no effect on PNS inhibition, but 3-[(2-methyl-4-thiazolyl)ethynyl]pyridine (MTEP; 1-3 mg/kg iv) significantly (P < 0.05) reduced the inhibition. During AA irritation, the control bladder capacity was significantly (P < 0.05) reduced to ∼22% of the saline control capacity. PNS at 2T and 4T significantly (P < 0.01) increased bladder capacity to 406.8 ± 47% and 415.8 ± 46% of the AA control capacity. Propranolol significantly (P < 0.05) reduced the bladder capacity to 276.3% ± 53.2% (at 2T PNS) and 266.5 ± 72.4% (at 4T PNS) of the AA control capacity, whereas MTEP (a metabotropic glutamate 5 receptor antagonist) removed the residual PNS inhibition. Bilateral transection of the hypogastric nerves produced an effect similar to that produced by propranolol. This study indicates that hypogastric nerves and a β-adrenergic mechanism in the detrusor play an important role in PNS inhibition of nociceptive but not non-nociceptive reflex bladder activity. In addition to this peripheral mechanism, a central nervous system mechanism involving metabotropic glutamate 5 receptors also has a role in PNS inhibition.

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Role of µ, κ, and δ Opioid Receptors in Tibial Inhibition of Bladder Overactivity in Cats

Zhang

Slater

Ferroni

et al. 2015

J Pharmacol Exp Ther

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In a-chloralose anesthetized cats, we examined the role of opioid receptor (OR) subtypes (m, k, and d) in tibial nerve stimulation (TNS)-induced inhibition of bladder overactivity elicited by intravesical infusion of 0.25% acetic acid (AA). The sensitivity of TNS inhibition to cumulative i.v. doses of selective OR antagonists (cyprodime for m, nor-binaltorphimine for k, or naltrindole for d ORs) was tested. Naloxone (1 mg/kg, i.v., an antagonist for m, k, and d ORs) was administered at the end of each experiment. AA caused bladder overactivity and significantly (P , 0.01) reduced bladder capacity to 21.1% 6 2.6% of the saline control. TNS at 2 or 4 times threshold (T) intensity for inducing toe movement significantly (P , 0.01) restored bladder capacity to 52.9% 6 3.6% or 57.4% 6 4.6% of control, respectively. Cyprodime (0.3-1.0 mg/kg) completely removed TNS inhibition without changing AA control capacity. Nor-binaltorphimine (3-10 mg/kg) also completely reversed TNS inhibition and significantly (P , 0.05) increased AA control capacity. Naltrindole (1-10 mg/kg) reduced (P , 0.05) TNS inhibition but significantly (P , 0.05) increased AA control capacity. Naloxone (1 mg/kg) had no effect in cyprodime pretreated cats, but it reversed the nor-binaltorphimine-induced increase in bladder capacity and eliminated the TNS inhibition remaining in naltrindole pretreated cats. These results indicate a major role of m and k ORs in TNS inhibition, whereas d ORs play a minor role. Meanwhile, k and d ORs also have an excitatory role in irritation-induced bladder overactivity.

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Zhaocun Zhang

Grape Seed Proanthocyanidin Extract Ameliorates Diabetic Bladder Dysfunction via the Activation of the Nrf2 Pathway

Sympathetic β-adrenergic mechanism in pudendal inhibition of nociceptive and non-nociceptive reflex bladder activity

Role of µ, κ, and δ Opioid Receptors in Tibial Inhibition of Bladder Overactivity in Cats

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