Ohnishi Tomokazu, Kakimoto Kyoko, Bandow Kenjiro, Lowenstein Charles J, Daikuhara Yasushi, Matsuguchi Tetsuya
Division of Biochemistry and Molecular Dentistry, Department of Developmental Medicine, Kagoshima University Graduate School of Medical and Dental Sciences, Sakuragaoka, Kagoshima, Japan.
J Immunol. 2006 Jun 1;176(11):6945-53. doi: 10.4049/jimmunol.176.11.6945.
Serum hepatocyte growth factor (HGF) is rapidly increased in patients suffering from various tissue injuries including arterial occlusive diseases. However, the cellular sources of the HGF increase remain largely unknown. In the present study, we showed that bioactive mature HGF is constitutively present on the surface of granulocytes in human peripheral blood. Exogenously added 125I-labeled iodo-HGF efficiently bound to granulocyte surface, whereas only a scarce amount of HGF mRNA was detected in granulocytes, indicating that the mature HGF on granulocytes is likely to be derived from other cell types. Interestingly, treatment of granulocytes with human serum rapidly induced the release of the cell surface-associated HGF. In vivo, thromboplastin injection into mice increased HGF release from transplanted human granulocytes, which was inhibited by the pretreatment with DX9065a, a specific inhibitor of factor Xa. Furthermore, DX9065a also inhibited the serum-induced HGF release from human granulocytes in vitro, suggesting that the HGF-releasing factor(s) in serum is associated with factor Xa activation. Thus, human granulocytes may function as a transporter of HGF in the peripheral blood, releasing HGF at the injured sites caused by blood coagulation, where HGF may promote tissue repair.
血清肝细胞生长因子(HGF)在患有包括动脉闭塞性疾病在内的各种组织损伤的患者中迅速升高。然而,HGF升高的细胞来源在很大程度上仍不清楚。在本研究中,我们发现生物活性成熟HGF在人外周血粒细胞表面组成性存在。外源性添加的125I标记的碘代HGF有效地结合到粒细胞表面,而在粒细胞中仅检测到少量HGF mRNA,这表明粒细胞上的成熟HGF可能来源于其他细胞类型。有趣的是,用人血清处理粒细胞可迅速诱导细胞表面相关HGF的释放。在体内,向小鼠注射凝血活酶可增加移植的人粒细胞中HGF的释放,而用因子Xa的特异性抑制剂DX9065a预处理可抑制这种释放。此外,DX9065a在体外也抑制人粒细胞中血清诱导的HGF释放,这表明血清中的HGF释放因子与因子Xa激活有关。因此,人粒细胞可能在外周血中作为HGF的转运体,在凝血引起的损伤部位释放HGF,在那里HGF可能促进组织修复。
