Vespakinin-M, a natural peptide from Vespa magnifica, promotes functional recovery in stroke mice.
Hai-Rong ZhaoMei WangYuan GaoXiumei WuHuai XiaoDasong YangFurong HeJiaming LvDe XieQiang WangWeidong LiuJingang LuoZizhong YangCheng-Gui ZhangJidong ChengYu ZhaoPublished in: Communications biology (2022)
Acute ischemic stroke triggers complex systemic pathological responses for which the exploration of drug resources remains a challenge. Wasp venom extracted from Vespa magnifica (Smith, 1852) is most commonly used to treat rheumatoid arthritis as well as neurological disorders. Vespakinin-M (VK), a natural peptide from wasp venom, has remained largely unexplored for stroke. Herein, we first confirmed the structure, stability, toxicity and distribution of VK as well as its penetration into the blood-brain barrier. VK (150 and 300 µg/kg, i.p.) was administered to improve stroke constructed by middle cerebral artery occlusion in mice. Our results indicate that VK promote functional recovery in mice after ischemia stroke, including an improvement of neurological impairment, reduction of infarct volume, maintenance of blood-brain barrier integrity, and an obstruction of the inflammatory response and oxidative stress. In addition, VK treatment led to reduced neuroinflammation and apoptosis associated with the activation of PI3K-AKT and inhibition of IκBα-NF-κB signaling pathways. Simultaneously, we confirmed that VK can combine with bradykinin receptor 2 (B2R) as detected by molecular docking, the B2R antagonist HOE140 could counteract the neuro-protective effects of VK on stroke in mice. Overall, targeting the VK-B2R interaction can be considered as a practical strategy for stroke therapy.
Keyphrases
- atrial fibrillation
- oxidative stress
- pi k akt
- cerebral ischemia
- blood brain barrier
- signaling pathway
- molecular docking
- inflammatory response
- rheumatoid arthritis
- acute ischemic stroke
- middle cerebral artery
- high fat diet induced
- cell cycle arrest
- lps induced
- cell proliferation
- stem cells
- dna damage
- heart failure
- emergency department
- drug delivery
- type diabetes
- metabolic syndrome
- acute myocardial infarction
- skeletal muscle
- molecular dynamics simulations
- cancer therapy
- induced apoptosis
- epithelial mesenchymal transition
- systemic lupus erythematosus
- smoking cessation
- disease activity
- cognitive impairment
- systemic sclerosis
- nuclear factor
- insulin resistance
- oxide nanoparticles
- heat stress
- heat shock protein
- electronic health record