Stachydrine exhibits a novel antiplatelet property and ameliorates platelet-mediated thrombo-inflammation - 18/06/22
, Ting Wang a, ⁎ Abstract |
Background |
Platelets are versatile anucleate cells involved in thrombosis as well as inflammation. Stachydrine (STA), a major bioactive compound extracted from Motherwort, has multiple pharmacological properties. Nevertheless, the significance of STA in platelet regulation and whether STA could ameliorate platelet-mediated thrombo-inflammation still remain elusive.
Methods |
Human platelets were used to assess the regulatory effects of STA on platelet activation and interactions with neutrophils in vitro. FeCl3 injury-induced carotid/mesenteric thrombosis and collagen/epinephrine-induced pulmonary thromboembolism model were used to explore whether STA could regulate thrombosis in vivo. Furthermore, a cecal ligation and puncture-induced sepsis model was employed to investigate the role of STA in thrombo-inflammatory diseases.
Results |
STA markedly suppressed platelet activation represented by aggregation, secretion, αIIbβ3-mediated signaling events and calcium mobilization, etc. by inhibiting agonists-induced activation signaling and potentiating cGMP-dependent inhibitory signaling. Mice receiving STA-treated platelets were less susceptible to thrombosis in vivo. In addition, decreased platelet-neutrophil interactions including platelet-neutrophil aggregates and neutrophil extracellular traps, and alleviative sepsis-induced multiorgan damage were observed due to STA-mediated platelet inhibition.
Conclusion |
This study suggested the potential therapeutic role of STA in thrombotic and thrombo-inflammatory disorders.
Le texte complet de cet article est disponible en PDF.Graphical Abstract |
Highlights |
• | A novel anti-inflammatory property of STA by reducing platelet activation is discovered. |
• | STA regulates platelet activation and inhibits thrombus formation without affecting coagulation. |
• | Activation of cGMP signaling and inhibition of agonists-induced signaling are involved in the underlying mechanism. |
• | STA exhibits the potential of protecting against inflammatory conditions and multiorgan damage caused by sepsis. |
Abbreviation : Akt, ATP, BALF, cAMP, cGMP, CLP, COX-1, DMSO, EDTA, ERK, FCM, Fg, JNK, LDH, LPS, MAPK, MFI, MPO, NETs, NETosis, NS, PGI2, PLCγ2, PNAs, PPP, PRP, STA, TXA2, VASP, WT
Keywords : Stachydrine, Platelet activation, Thrombosis, Sepsis, Thromboinflammation
Plan
Vol 152
Article 113184- août 2022 Retour au numéro
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