Cannabinoid 2 Receptor Activation Protects against Diabetic Cardiomyopathy through Inhibition of AGE/RAGE-Induced Oxidative Stress, Fibrosis, and Inflammasome Activation.

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY
Hebaallah Mamdouh Hashiesh, Sheikh Azimullah, Mohamed Fizur Nagoor Meeran, Dhanya Saraswathiamma, Seenipandi Arunachalam, Niraj Kumar Jha, Bassem Sadek, Ernest Adeghate, Gautam Sethi, Alia Albawardi, Saeeda Al Marzooqi, Shreesh Ojha
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引用次数: 0

Abstract

Oxidative stress, fibrosis, and inflammasome activation from advanced glycation end product (AGE)-receptor of advanced glycation end product (RAGE) interaction contribute to diabetic cardiomyopathy (DCM) formation and progression. Our study revealed the impact of β-caryophyllene (BCP) on activating cannabinoid type 2 receptors (CB2Rs) against diabetic complication, mainly cardiomyopathy and investigated the underlying cell signaling pathways in mice. The murine model of DCM was developed by feeding a high-fat diet with streptozotocin injections. After the development of diabetes, the animals received a 12-week oral BCP treatment at a dose of 50 mg/kg/body weight. BCP treatment showed significant improvement in glucose tolerance and insulin resistance and enhanced serum insulin levels in diabetic animals. BCP treatment effectively reversed the heart remodeling and restored the phosphorylated troponin I and sarcoplasmic/endoplasmic reticulum Ca2+ ATPase 2a expression. Ultrastructural examination showed reduced myocardial cell injury in DCM mice treated with BCP. The preserved myocytes were found to be associated with reduced expression of AGE/RAGE in DCM mice hearts. BCP treatment mitigated oxidative stress by inhibiting expression of NADPH oxidase 4 and activating phosphoinositide 3-kinase (PI3K)/protein kinase B (AKT)/nuclear factor erythroid 2-related factor 2 (Nrf2) signaling. Also, BCP suppressed cardiac fibrosis and endothelial-to-mesenchymal transition in DCM mice by inhibiting transforming growth factor β (TGF-β)/suppressor of mothers against decapentaplegic (Smad) signaling. Further, BCP treatment suppressed nucleotide-binding domain, leucine-rich-containing family, pyrin domain-containing-3 (NLRP3) inflammasome activation in DCM mice and alleviated cellular injury to the pancreatic tissues evidenced by significant elevation of the number of insulin-positive cells. To demonstrate a CB2R-dependent mechanism of BCP, another group of DCM mice were pretreated with AM630, a CB2R antagonist. AM630 was observed to abrogate the beneficial effects of BCP in DCM mice. Taken together, BCP demonstrated the potential to protect the myocardium and pancreas of DCM mice mediating CB2R-dependent mechanisms. SIGNIFICANCE STATEMENT: BCP, a CB2R agonist, shows protection against DCM. BCP attenuates oxidative stress, inflammation, and fibrosis in DCM via activating CB2Rs. BCP mediating CB2R activation favorably modulates AGE/RAGE, PI3K/AKT/Nrf2β and TGF-β/Smad and (NLRP3) inflammasome in diabetic cardiomyopathy.

通过抑制 AGE/RAGE 诱导的氧化应激、纤维化和炎性体激活,激活大麻素 2 受体可预防糖尿病心肌病。
氧化应激、纤维化和 AGE-RAGE 相互作用导致的炎性体激活是糖尿病心肌病(DCM)形成和发展的原因。我们的研究揭示了β-茶碱(BCP)激活CB2受体对糖尿病并发症的影响,并研究了小鼠体内潜在的细胞信号通路。小鼠 DCM 模型是通过喂食高脂饮食并注射链脲佐菌素建立的。糖尿病发生后,动物接受为期 12 周的口服 BCP 治疗,剂量为 50 毫克/千克/体重。BCP 治疗明显改善了糖尿病动物的糖耐量、胰岛素抵抗和血清胰岛素水平。BCP 治疗有效逆转了心脏重塑,恢复了磷酸化肌钙蛋白 I 和 SERCA2a 的表达。超微结构检查显示,接受 BCP 治疗的 DCM 小鼠心肌细胞损伤减轻。在 DCM 小鼠心脏中,心肌细胞的保留与 AGE/RAGE 的表达减少有关。BCP 治疗通过抑制 NOX4 的表达和激活 PI3K/AKT/Nrf2 信号转导来减轻氧化应激。BCP 通过抑制 TGF-β/Smad 信号传导,抑制了 DCM 小鼠的心脏纤维化和内皮细胞向间质转化(EndMT)。此外,BCP 治疗还抑制了 DCM 小鼠 NLRP3 炎性体的激活,并减轻了胰腺组织的细胞损伤,表现为胰岛素阳性细胞数量的显著增加。为了证明 BCP 的 CB2 受体依赖性机制,另一组 DCM 小鼠用 CB2 受体拮抗剂 AM630 进行了预处理,结果观察到 AM630 削弱了 BCP 对 DCM 小鼠的有益作用。综上所述,BCP 有可能通过 CB2 受体依赖机制保护 DCM 小鼠的心肌和胰腺。意义声明 1.β-茶碱(BCP)是一种大麻素 2 型受体(CB2R)激动剂。2.BCP 通过激活小鼠的 CB2R 减轻糖尿病心肌病 3.BCP 激活的 CB2R 对纤维化和炎性体激活有很强的保护作用 4.它能调节小鼠 AGE/RAGE 和 PI3K/Nrf2/Akt 信号传导。
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来源期刊
CiteScore
6.90
自引率
0.00%
发文量
115
审稿时长
1 months
期刊介绍: A leading research journal in the field of pharmacology published since 1909, JPET provides broad coverage of all aspects of the interactions of chemicals with biological systems, including autonomic, behavioral, cardiovascular, cellular, clinical, developmental, gastrointestinal, immuno-, neuro-, pulmonary, and renal pharmacology, as well as analgesics, drug abuse, metabolism and disposition, chemotherapy, and toxicology.
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