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In resting platelets, the 17 th domain of filamin a (FLNa17) constitutively binds to the platelet membrane glycoprotein Ibα (GPIbα) at its cytoplasmic tail (GPIbα-CT) and inhibits the downstream signal activation, while the binding of ligand and blood shear force can activate platelets. To imitate the pull force transmitted from the extracellular ligand of GPIbα and the lateral tension from platelet cytoskeleton deformation, two pulling modes were applied on the GPIbα-CT/FLNa17 complex, and the molecular dynamics simulation method was used to explore the mechanical regulation on the affinity and mechanical stability of the complex. In this study, at first, nine pairs of key hydrogen bonds on the interface between GPIbα-CT and FLNa17 were identified, which was the basis for maintaining the complex structural stability. Secondly, it was found that these hydrogen bonding networks would be broken down and lead to the dissociation of FLNa17 from GPIbα-CT only under the axial pull force; but, under the lateral tension, the secondary structures at both terminals of FLNa17 would unfold to protect the interface of the GPIbα-CT/FLNa17 complex from mechanical damage. In the range of 0~40 pN, the increase of pull force promoted outward-rotation of the nitrogen atom of the 563 rd phenylalanine (PHE 563 -N) at GPIbα-CT and the dissociation of the complex. This study for the first time revealed that the extracellular ligand-transmitted axial force could more effectively relieve the inhibition of FLNa17 on the downstream signal of GPIbα than pure mechanical tension at the atomic level, and would be useful for further understanding the platelet intracellular force-regulated signal pathway.

Titel:	[Molecular dynamics simulation of force-regulated interaction between glycoprotein Ib α and filamin].
Autor/in / Beteiligte Person:	Tao, R ; Xie, X ; Wu, J ; Fang, Y
Zeitschrift:	Sheng wu yi xue gong cheng xue za zhi = Journal of biomedical engineering = Shengwu yixue gongchengxue zazhi, Jg. 40 (2023-10-25), Heft 5, S. 876-885
Veröffentlichung:	Chengdu : Sichuan Sheng sheng wu yi xue gong cheng xue hui ; <i>Original Publication</i>: Chengdu : Sichuan Sheng sheng wu yi xue gong cheng xue hui : Hua xi yi ke da xue : Chengdu ke ji da xue,, 2023
Medientyp:	academicJournal
ISSN:	1001-5515 (print)
DOI:	10.7507/1001-5515.202302043
Schlagwort:	Filamins analysis Filamins metabolism Ligands Protein Binding Blood Platelets chemistry Blood Platelets metabolism von Willebrand Factor analysis von Willebrand Factor chemistry von Willebrand Factor metabolism Platelet Glycoprotein GPIb-IX Complex analysis Platelet Glycoprotein GPIb-IX Complex chemistry Platelet Glycoprotein GPIb-IX Complex metabolism Molecular Dynamics Simulation
Sonstiges:	Nachgewiesen in: MEDLINE Sprachen: Chinese Publication Type: English Abstract; Journal Article Language: Chinese [Sheng Wu Yi Xue Gong Cheng Xue Za Zhi] 2023 Oct 25; Vol. 40 (5), pp. 876-885. MeSH Terms: Platelet Glycoprotein GPIb-IX Complex* / analysis ; Platelet Glycoprotein GPIb-IX Complex* / chemistry ; Platelet Glycoprotein GPIb-IX Complex* / metabolism ; Molecular Dynamics Simulation* ; Filamins / analysis ; Filamins / metabolism ; Ligands ; Protein Binding ; Blood Platelets / chemistry ; Blood Platelets / metabolism ; von Willebrand Factor / analysis ; von Willebrand Factor / chemistry ; von Willebrand Factor / metabolism References: J Cell Biol. 2007 Dec 3;179(5):1011-25. (PMID: 18056414) ; J Mol Graph. 1996 Feb;14(1):33-8, 27-8. (PMID: 8744570) ; J Cell Biol. 1985 Jan;100(1):317-21. (PMID: 3155520) ; Circulation. 2000 Oct 24;102(17):2045-50. (PMID: 11044418) ; J Biol Chem. 2002 Jan 18;277(3):2151-9. (PMID: 11700320) ; Nat Commun. 2017 Aug 23;8(1):324. (PMID: 28831047) ; Blood. 2020 Aug 20;136(8):974-988. (PMID: 32584951) ; Trends Cell Biol. 2010 Feb;20(2):113-23. (PMID: 20061151) ; Matrix Biol. 2017 Dec;64:6-16. (PMID: 28389162) ; Mol Cell Biochem. 2015 Nov;409(1-2):93-101. (PMID: 26160282) ; Blood. 2016 Feb 4;127(5):626-36. (PMID: 26585954) ; Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2018 Apr 1;35(4):501-508. (PMID: 30124011) ; Nature. 2017 Dec 14;552(7684):219-224. (PMID: 29211717) ; J Biol Chem. 2013 Sep 13;288(37):26658-67. (PMID: 23902764) ; Blood. 2007 Jan 15;109(2):603-9. (PMID: 17008541) ; Nat Mater. 2019 Jul;18(7):760-769. (PMID: 30911119) ; J Chem Inf Model. 2022 Nov 28;62(22):5688-5698. (PMID: 36269690) ; Elife. 2016 Jul 19;5:. (PMID: 27434669) ; Blood Rev. 2015 Nov;29(6):377-86. (PMID: 26005062) ; J Thromb Haemost. 2012 Sep;10(9):1875-86. (PMID: 22759073) ; Mol Cell. 2006 Feb 3;21(3):337-47. (PMID: 16455489) ; Cell Adh Migr. 2011 Mar-Apr;5(2):160-9. (PMID: 21169733) ; J Biol Chem. 1996 Mar 29;271(13):7362-7. (PMID: 8631758) ; Thromb Res. 2015 Sep;136(3):606-12. (PMID: 26213126) ; Blood. 2019 Oct 17;134(16):1279-1288. (PMID: 31471375) ; Nat Commun. 2021 Apr 21;12(1):2360. (PMID: 33883551) ; Proteins. 2009 Apr;75(1):258-63. (PMID: 19137608) ; Structure. 2005 Jan;13(1):111-9. (PMID: 15642266) ; Blood. 2006 Mar 1;107(5):1925-32. (PMID: 16293600) ; Blood. 2014 Aug 28;124(9):1412-25. (PMID: 24928861) ; Blood. 2003 Sep 15;102(6):2122-9. (PMID: 12791664) ; Sci Rep. 2022 Mar 17;12(1):4605. (PMID: 35301368) ; Cell Signal. 2004 Dec;16(12):1329-44. (PMID: 15381249) Contributed Indexing: Keywords: Filamin a; Force signal; Glycoprotein Ibα; Molecular dynamic simulation; Platelet ; Local Abstract: [Publisher, Chinese] 静息血小板中细丝蛋白a的17号结构域（FLNa17）可组成型结合到血小板膜糖蛋白Ibα（GPIbα）的胞质尾部（GPIbα-CT），抑制下游信号活化，而配体的结合和血流剪切力可激活血小板。为模拟来自GPIbα胞外配体向胞内传递的正向拉力及血小板细胞骨架形变传递的侧向张力，本文在GPIbα-CT/FLNa17复合物上施加两种受力模式，采用分子动力学模拟方法探究机械力对该复合物亲和力及力学稳定性的调控。本研究首先识别出GPIbα-CT与FLNa17接触面上的9对关键氢键是维持复合物结构稳定的基础。其次，发现仅正向拉力作用下，这些氢键作用网络才会发生断裂，并导致复合物的最终解离；而侧向张力下，FLNa17两端的二级结构会解折叠以保护复合物接触面不受机械力破坏。在0～40 pN范围内，正向拉力的增加促使GPIbα-CT氨基酸序列中第563位的苯丙氨酸的氮原子（PHE 563 -N）的外旋和复合物解离概率的提高。本研究首次在原子层面揭示胞外配体传递的正向拉力可更有效解除FLNa17对GPIbα下游信号的抑制，为深入理解力调控的血小板胞内信号通路提供参考。. Substance Nomenclature: 0 (Filamins) ; 0 (Platelet Glycoprotein GPIb-IX Complex) ; 0 (Ligands) ; 0 (von Willebrand Factor) Entry Date(s): Date Created: 20231025 Date Completed: 20231027 Latest Revision: 20231028 Update Code: 20231215 PubMed Central ID: PMC10600417

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[Molecular dynamics simulation of force-regulated interaction between glycoprotein Ib α and filamin].