Mengna Zhang scite author profile

Background and Purpose Considerable effort has recently been directed at developing multifunctional opioid drugs to minimize the unwanted side effects of opioid analgesics. We have developed a novel multifunctional opioid agonist, DN‐9. Here, we studied the analgesic profiles and related side effects of peripheral DN‐9 in various pain models. Experimental Approach Antinociceptive effects of DN‐9 were assessed in nociceptive, inflammatory, and neuropathic pain. Whole‐cell patch‐clamp and calcium imaging assays were used to evaluate the inhibitory effects of DN‐9 to calcium current and high‐K+‐induced intracellular calcium ([Ca2+]i) on dorsal root ganglion (DRG) neurons respectively. Side effects of DN‐9 were evaluated in antinociceptive tolerance, abuse, gastrointestinal transit, and rotarod tests. Key Results DN‐9, given subcutaneously, dose‐dependently produced antinociception via peripheral opioid receptors in different pain models without sex difference. In addition, DN‐9 exhibited more potent ability than morphine to inhibit calcium current and high‐K+‐induced [Ca2+]i in DRG neurons. Repeated treatment with DN‐9 produced equivalent antinociception for 8 days in multiple pain models, and DN‐9 also maintained potent analgesia in morphine‐tolerant mice. Furthermore, chronic DN‐9 administration had no apparent effect on the microglial activation of spinal cord. After subcutaneous injection, DN‐9 exhibited less abuse potential than morphine, as was gastroparesis and effects on motor coordination. Conclusions and Implications DN‐9 produces potent analgesia with minimal side effects, which strengthen the candidacy of peripherally acting opioids with multifunctional agonistic properties to enter human studies to alleviate the current highly problematic misuse of classic opioids on a large scale.

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Synthesis and Biological Characterization of Cyclic Disulfide-Containing Peptide Analogs of the Multifunctional Opioid/Neuropeptide FF Receptor Agonists That Produce Long-Lasting and Nontolerant Antinociception

Zhang

et al. 2020

J. Med. Chem.

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In a previously described chimeric peptide, we reported that the multifunctional opioid/neuropeptide FF (NPFF) receptor agonist 0 (BN-9) produced antinociception for 1.5 h after supraspinal administration. Herein, four cyclic disulfide analogs containing l- and/or d-type cysteine at positions 2 and 5 were synthesized. The cyclized analogs and their linear counterparts behaved as multifunctional agonists at both opioid and NPFF receptors in vitro and produced potent analgesia without tolerance development. In comparison to 0, cyclized peptide 6 exhibited sevenfold more potent μ-opioid receptor agonistic activity in vitro. Interestingly, the cyclized analog 6 possessed an improved stability in the brain and an increased blood–brain barrier permeability compared to the parent peptide 0 and produced more potent analgesia after supraspinal or subcutaneous administration with improved duration of action of 4 h. In addition, antinociceptive tolerance of analog 6 was greatly reduced after subcutaneous injection compared to fentanyl, as was the rewarding effect, withdrawal reaction, and gastrointestinal inhibition.

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Effects of d-Pinitol on Insulin Resistance through the PI3K/Akt Signaling Pathway in Type 2 Diabetes Mellitus Rats

Gao

Zhang

et al. 2015

J. Agric. Food Chem.

149

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D-pinitol, a compound isolated from Pinaceae and Leguminosae plants, has been reported to possess insulin-like properties. Although the hypoglycemic activity of D-pinitol was recognized in recent years, the molecular mechanism of D-pinitol in the treatment of diabetes mellitus remains unclear. In this investigation, a model of type 2 diabetes mellitus (T2DM) with insulin resistance was established by feeding a high-fat diet (HFD) and injecting streptozocin (STZ) to Sprague-Dawley (SD) rats, targeting the exploration of more details of the mechanism in the therapy of T2DM. D-pinitol was administrated to the diabetic rats as two doses [30, 60 mg/(kg·body weight·day)]. The level of fasting blood glucose (FBG) was decreased 12.63% in the high-dosage group, and the ability of oral glucose tolerance was improved in D-pinitol-treated groups. The biochemical indices revealed that D-pinitol had a positive effect on hypoglycemic activity. Western boltting suggested that D-pinitol could promote the expression of the phosphatidylinositol-3-kinase (PI3K) p85, PI3Kp110, as well as the downstream target protein kinase B/Akt (at Ser473). Besides, D-pinitol inhibited the expression of glycogen synthesis kinase-3β (GSK-3β) protein and regulated the expression of glycogen synthesis (GS) protein and then accelerated the glycogen synthesis. Above all, D-pinitol played a positive role in regulating insulin-mediated glucose uptake in the liver through translocation and activation of the PI3K/Akt signaling pathway in T2DM rats.

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Structure-Based Optimization of Multifunctional Agonists for Opioid and Neuropeptide FF Receptors with Potent Nontolerance Forming Analgesic Activities

et al. 2016

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The opioid and neuropeptide FF pharmacophore-containing chimeric peptide 0 (BN-9) was recently developed and produced potent nontolerance forming analgesia. In this study, 11 analogues of 0 were designed and synthesized. An in vitro cAMP assay demonstrated that these analogues behaved as multifunctional agonists at both opioid and NPFF receptors. In mouse tail-flick test, most of the analogues produced potent nontolerance forming antinociception. Notably, 11 (DN-9) was 33-fold more potent than 0 at analgesic effects, which was mediated by μ- and κ-opioid receptors. In addition, 11 also produced powerful analgesic effects in the formalin pain and CFA-induced chronic inflammatory pain models. Strikingly, following its repeated administration for 6 days, 11 did not produce antinociceptive tolerance in the tail-flick test and CFA-induced pain model. The present work indicates that it is reasonable to design multifunctional peptide ligands for opioid and NPFF receptors in a single molecule producing effective nontolerance forming antinociception.

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BN‐9, a chimeric peptide with mixed opioid and neuropeptide FF receptor agonistic properties, produces nontolerance‐forming antinociception in mice

Han

Wang

et al. 2016

British J Pharmacology

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BACKGROUND AND PURPOSENeuropeptide FF (NPFF) behaves as an endogenous opioid-modulating peptide. In the present study, the opioid and NPFF pharmacophore-containing chimeric peptide BN-9 was synthesized and pharmacologically characterized. EXPERIMENTAL APPROACHAgonist activities of BN-9 at opioid and NPFF receptors were characterized in in vitro cAMP assays. Antinociceptive activities of BN-9 were evaluated in the mouse tail-flick and formalin tests. Furthermore, its side effects were investigated in rotarod, antinociceptive tolerance, reward and gastrointestinal transit tests. KEY RESULTSBN-9 acted as a novel multifunctional agonist at μ, δ, κ, NPFF1 and NPFF2 receptors in cAMP assays. In the tail-flick test, BN-9 produced dose-related antinociception and was approximately equipotent to morphine; this antinociception was blocked by μ and κ receptor antagonists, but not by the δ receptor antagonist. In the formalin test, supraspinal administration of BN-9 produced significant analgesia. Notably, repeated administration of BN-9 produced analgesia without loss of potency over 8 days. In contrast, repeated i.c.v. co-administration of BN-9 with the NPFF receptor antagonist RF9 produced significant antinociceptive tolerance. Furthermore, i.c.v. BN-9 induced conditioned place preference. When given by the same routes, BN-9 had a more than eightfold higher ED 50 value for gastrointestinal transit inhibition compared with the ED 50 values for antinociception. CONCLUSIONS AND IMPLICATIONSBN-9 produced a robust, nontolerance-forming analgesia with limited inhibition of gastrointestinal transit. As BN-9 is able to activate both opioid and NPFF systems, this provides an interesting approach for the development of novel analgesics with minimal side effects.

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Mengna Zhang

The multifunctional peptide DN‐9 produced peripherally acting antinociception in inflammatory and neuropathic pain via μ‐ and κ‐opioid receptors

Synthesis and Biological Characterization of Cyclic Disulfide-Containing Peptide Analogs of the Multifunctional Opioid/Neuropeptide FF Receptor Agonists That Produce Long-Lasting and Nontolerant Antinociception

Effects of d-Pinitol on Insulin Resistance through the PI3K/Akt Signaling Pathway in Type 2 Diabetes Mellitus Rats

Structure-Based Optimization of Multifunctional Agonists for Opioid and Neuropeptide FF Receptors with Potent Nontolerance Forming Analgesic Activities

BN‐9, a chimeric peptide with mixed opioid and neuropeptide FF receptor agonistic properties, produces nontolerance‐forming antinociception in mice

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