Aggregation of platelets, proliferation of endothelial cells and motility of cancer cells are mediated by the B?1(15)-42 residue of fibrin(ogen)

Q4 Biochemistry, Genetics and Molecular Biology Ukrainian Biochemical Journal Pub Date : 2020-04-17 DOI:10.15407/ubj92.02.072
Y. Stohnii, M. Ryzhykova, A. Rebriev, M. Kuchma, R. Marunych, V. Chernyshenko, V. A. Shablii, N. M. Lypova, O. Slominskyi, L. Garmanchuk, T. Platonova, S. Komisarenko
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引用次数: 0

Abstract

The fibrinogen molecule contains multiple binding motifs for different types of cellular receptors, acting as a molecular link between coagulation and cell adhesion. In this study we generated a truncated form of the fibrinogen molecule lacking the Bβ1-42 sequence by site-specific proteolysis and evaluated the role of the fragment in adhesive capabilities of platelets, endothelial and cancer cells. Fibrinogen with the removed Bβ1-42 sequence and fibrin without the Bβ15-42 fragment (desβ1-42 fibrinogen and desABβ15-42 fibrin) were obtained by proteolysis using the specific protease from the venom of Echis multisquamatis. The cleaved fragment was purified by HPLC and was identified using MALDI-TOF. ADPand collagen-induced aggregation of washed platelets in the presence of fibrinogen desBβ1-42 was studied using an aggregometer. Proliferation of mice aortic endothelial cells (MAEC) and human umbilical vein endothelial cells (HUVEC) was studied using the fibrin desABβ15-42 as the scaffold. Cell viability was quantified by the MTT test (MAEC). Generation time was calculated for the estimation of proliferative activity of HUVEC. Lung cancer cell line Н1299 was used to evaluate cancer cell motility in vitro using the scratch assay. Direct comparison of cellular behavior in the presence of truncated vs native forms demonstrated attenuated cell adhesion in the presence of fibrinogen desBβ1-42 and fibrin desBβ15-42. The platelet aggregation rate was only slightly decreased in the presence of fibrinogen desBβ1-42 but resulted in 15-20% disaggregation of adhered platelets. We also observed the substantial decrease of generation time of HUVEC and inhibition of viability of MAEC cells grown on scaffolds of a desABβ15-42 matrix. Finally, desBβ1-42 modulated the motility of H1299 cells in vitro and suppressed the wound healing by 20% compared to the full-length fibrinogen. We postulate that fragment 1-42 of the BβN-domain of fibrinogen is not sufficient for platelet aggregation, however it may contribute to platelet clot formation in later stages. at the same time, this fragment may be important for establishing proper cell-to-cell contacts and cell viability of endothelial cells. Also, 1-42 amino acid fragment of the BβN-domain supported the migration of cancer cells suggesting that interactions of fibrinogen with cancer cells could be a target for anticancer therapy. The Bβ1-42 fragment of fibrinogen contributes to efficient intracellular interactions of different types of cells, including platelets, endothelial cells and cancer cells.
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血小板的聚集、内皮细胞的增殖和癌症细胞的运动是由B?介导的?1(15)-42纤维蛋白(原)残留物
纤维蛋白原分子包含不同类型细胞受体的多个结合基序,作为凝血和细胞粘附之间的分子联系。在这项研究中,我们通过位点特异性蛋白水解产生了缺乏Bβ1-42序列的纤维蛋白原分子的截短形式,并评估了该片段在血小板、内皮细胞和癌症细胞粘附能力中的作用。使用来自棘皮蛇毒液的特异性蛋白酶通过蛋白水解获得具有去除的Bβ1-42序列的纤维蛋白原和没有Bβ15-42片段的纤维蛋白(desβ1-42纤维蛋白原)和desABβ15-42纤维蛋白。通过HPLC纯化裂解的片段,并使用MALDI-TOF进行鉴定。在纤维蛋白原desBβ1-42存在下,ADPand胶原诱导的洗涤血小板的聚集使用聚集仪进行了研究。以纤维蛋白desABβ15-42为支架,研究了小鼠主动脉内皮细胞(MAEC)和人脐静脉内皮细胞(HUVEC)的增殖。细胞活力通过MTT试验(MAEC)进行定量。计算生成时间以估计HUVEC的增殖活性。采用刮除法对癌症细胞株Н1299进行了体外癌症细胞运动性评价。在截短形式与天然形式存在下的细胞行为的直接比较表明,在纤维蛋白原desBβ1-42和纤维蛋白desBβ15-42存在下,细胞粘附减弱。在纤维蛋白原desBβ1-42存在的情况下,血小板聚集率仅略有下降,但导致粘附的血小板分解15-20%。我们还观察到HUVEC的生成时间显著缩短,生长在desABβ15-42基质支架上的MAEC细胞的活力受到抑制。最后,与全长纤维蛋白原相比,desBβ1-42在体外调节H1299细胞的运动,并抑制伤口愈合20%。我们推测纤维蛋白原BβN-结构域的1-42片段不足以引起血小板聚集,但它可能有助于后期血小板凝块的形成。同时,该片段对于建立适当的细胞间接触和内皮细胞的细胞活力可能是重要的。此外,BβN结构域的1-42氨基酸片段支持癌症细胞的迁移,这表明纤维蛋白原与癌症细胞的相互作用可能是抗癌治疗的靶点。纤维蛋白原的Bβ1-42片段有助于不同类型细胞的有效细胞内相互作用,包括血小板、内皮细胞和癌症细胞。
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来源期刊
Ukrainian Biochemical Journal
Ukrainian Biochemical Journal Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
1.20
自引率
0.00%
发文量
37
审稿时长
16 weeks
期刊介绍: The Ukrainian Biochemical Journal publishes original research papers, reviews and brief notes; papers on research methods and techniques; articles on the history of biochemistry, its development and prominent figures; discussion articles; book reviews; chronicles; etc. The journal scope includes not only biochemistry but also related sciences, such as cellular and molecular biology, bioorganic chemistry, biophysics, pharmacology, genetics, and medicine (medical biochemistry et al.) – insofar as the studies use biochemical methods and discuss biochemical findings.
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