peoniflorin and Diabetic-Neuropathies

peoniflorin has been researched along with Diabetic-Neuropathies* in 2 studies

Other Studies

2 other study(ies) available for peoniflorin and Diabetic-Neuropathies

Article	Year
Paeoniflorin Upregulates Mitochondrial Thioredoxin of Schwann Cells to Improve Diabetic Peripheral Neuropathy Indicated by 4D Label-Free Quantitative Proteomics. Oxidative medicine and cellular longevity, 2022, Volume: 2022 Diabetic peripheral neuropathy (DPN) is a diabetic complication characterized by demyelination. The pathogenesis of DPN has not been fully elucidated, thus lacking therapies. In the current study, we aimed to confirm whether paeoniflorin (PF) could improve DPN by upregulating mitochondrial thioredoxin (Trx2) based on 4D Label-free proteomic experiments of Schwann cells (SCs) mitochondria. Firstly, PF increased the expression of mitochondrial processing peptidase Topics: Animals; Diabetes Mellitus; Diabetic Neuropathies; Glucosides; Monoterpenes; Proteomics; Rats; Schwann Cells; Thioredoxins	2022
Antinociceptive effect of paeoniflorin via spinal α₂-adrenoceptor activation in diabetic mice. European journal of pain (London, England), 2011, Volume: 15, Issue:10 Shakuyakukanzoto (SKT) has been shown to modulate nociception in streptozotocin-induced diabetic mice via selective activation of the descending noradrenergic systems. However, the active components of SKT that exert the analgesic effect remain unknown. Here, we administered Glycyrrhizae radix (G. radix), Paeoniae radix (P. radix), and the two active constituents of P. radix, paeoniflorin and albiflorin, to determine the components that stimulate spinal α₂-adrenoceptors by promoting noradrenaline release.. The two SKT components were separately administered to diabetic and non-diabetic mice. A tail-pressure test was used to determine the nociceptive threshold between 0 and 3h after oral dosing. The time-course profiles of the nociceptive threshold (g) and the area under the time response curve (AUC) were evaluated. Yohimbine, an α₂-adrenoceptor antagonist, was intrathecally injected 15 min after paeoniflorin administration.. P. radix and G. radix did not induce significant antinociception in non-diabetic mice. However, P. radix (250, 500 mg/kg) dose-dependently and significantly increased the nociceptive threshold in diabetic mice between 0.5 and 2 h after administration, whereas all the tested doses of G. radix did not increase the nociceptive threshold. Both paeoniflorin (30 mg/kg) and albiflorin (10 mg/kg) significantly elevated the nociceptive threshold between 0.5 and 3h and between 0.5 and 1h after administration, respectively. The antinociceptive effect of paeoniflorin (30 mg/kg) was completely abolished by yohimbine.. Our findings suggest that paeoniflorin is the key antinociceptive component in SKT that increases noradrenaline release and activates α₂-adrenoceptors to modulate spinal nociceptive transmission in diabetic neuropathy. Topics: Analgesics; Animals; Animals, Outbred Strains; Benzoates; Bridged-Ring Compounds; Diabetes Mellitus, Experimental; Diabetic Neuropathies; Disease Models, Animal; Glucosides; Male; Mice; Monoterpenes; Nociception; Norepinephrine; Receptors, Adrenergic, alpha-2	2011

Article

Year

Paeoniflorin Upregulates Mitochondrial Thioredoxin of Schwann Cells to Improve Diabetic Peripheral Neuropathy Indicated by 4D Label-Free Quantitative Proteomics.

Oxidative medicine and cellular longevity, 2022, Volume: 2022

Diabetic peripheral neuropathy (DPN) is a diabetic complication characterized by demyelination. The pathogenesis of DPN has not been fully elucidated, thus lacking therapies. In the current study, we aimed to confirm whether paeoniflorin (PF) could improve DPN by upregulating mitochondrial thioredoxin (Trx2) based on 4D Label-free proteomic experiments of Schwann cells (SCs) mitochondria. Firstly, PF increased the expression of mitochondrial processing peptidase

Topics: Animals; Diabetes Mellitus; Diabetic Neuropathies; Glucosides; Monoterpenes; Proteomics; Rats; Schwann Cells; Thioredoxins

2022

Antinociceptive effect of paeoniflorin via spinal α₂-adrenoceptor activation in diabetic mice.

European journal of pain (London, England), 2011, Volume: 15, Issue:10

Shakuyakukanzoto (SKT) has been shown to modulate nociception in streptozotocin-induced diabetic mice via selective activation of the descending noradrenergic systems. However, the active components of SKT that exert the analgesic effect remain unknown. Here, we administered Glycyrrhizae radix (G. radix), Paeoniae radix (P. radix), and the two active constituents of P. radix, paeoniflorin and albiflorin, to determine the components that stimulate spinal α₂-adrenoceptors by promoting noradrenaline release.. The two SKT components were separately administered to diabetic and non-diabetic mice. A tail-pressure test was used to determine the nociceptive threshold between 0 and 3h after oral dosing. The time-course profiles of the nociceptive threshold (g) and the area under the time response curve (AUC) were evaluated. Yohimbine, an α₂-adrenoceptor antagonist, was intrathecally injected 15 min after paeoniflorin administration.. P. radix and G. radix did not induce significant antinociception in non-diabetic mice. However, P. radix (250, 500 mg/kg) dose-dependently and significantly increased the nociceptive threshold in diabetic mice between 0.5 and 2 h after administration, whereas all the tested doses of G. radix did not increase the nociceptive threshold. Both paeoniflorin (30 mg/kg) and albiflorin (10 mg/kg) significantly elevated the nociceptive threshold between 0.5 and 3h and between 0.5 and 1h after administration, respectively. The antinociceptive effect of paeoniflorin (30 mg/kg) was completely abolished by yohimbine.. Our findings suggest that paeoniflorin is the key antinociceptive component in SKT that increases noradrenaline release and activates α₂-adrenoceptors to modulate spinal nociceptive transmission in diabetic neuropathy.

Topics: Analgesics; Animals; Animals, Outbred Strains; Benzoates; Bridged-Ring Compounds; Diabetes Mellitus, Experimental; Diabetic Neuropathies; Disease Models, Animal; Glucosides; Male; Mice; Monoterpenes; Nociception; Norepinephrine; Receptors, Adrenergic, alpha-2

2011