缺乏明胶亲和力的血浆因子对纤维连接蛋白的拮抗活性的扩增。

F A Blumenstock, T M Saba, P M Cardarelli, E Cho
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引用次数: 0

摘要

血浆纤维连接蛋白的拮抗活性在调节网状内皮系统(RES)吞噬细胞从血管室清除各种内源性和外源性颗粒物质方面是重要的。用明胶- sepharose亲和层析纯化血浆偶联蛋白表明,尽管体外肝库普弗细胞的吞噬完全依赖于纤维连接蛋白的存在,但纯化后的纤维连接蛋白在与血浆相似的浓度(350-450微克/毫升)下支持的吞噬水平比在全血浆中观察到的水平低2 - 3倍。相比之下,经肝切片生物测定,纯化的纤维连接蛋白与少量无纤维连接蛋白的无纤连蛋白血浆结合可恢复正常的纤连蛋白活性,并增强了纤维连接蛋白介导的凝胶化颗粒在体外离体库普弗细胞上的附着。本研究的证据表明,血浆中存在一种大分子物质,以剂量相关的方式放大纤维连接蛋白的声速活性。这种扩增或辅因子活性是不可透析的,分子量大于12,000。通过在60℃下加热无纤维连接蛋白的血浆20分钟,可以使亲和吸收的血浆中存在的扩增活性失活,从而支持辅因子是蛋白质的假设。放大反应与剂量有关,表明其作用机制是化学计量而不是催化作用。有证据表明,辅助因子的部分纯化可以通过4℃(NH4)2SO4沉淀来实现。该辅助因子的纯化将提供一个机会来评估其在创伤、烧伤和败血症后已知存在的神经状态改变中的作用。
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Amplification of the opsonic activity of fibronectin by a plasma factor lacking gelatin affinity.

The opsonic activity of plasma fibronectin is important in modulating the reticuloendothelial system (RES) phagocytic removal of a variety of endogenous and exogenous particulate material from the vascular compartment. Purification of plasma-opsonic fibronectin by affinity chromatography with gelatin-Sepharose revealed that although in vitro hepatic Kupffer cell phagocytosis was absolutely dependent upon the presence of fibronectin, the purified fibronectin evaluated in concentrations similar to that found in plasma (350-450 micrograms/ml) supported phagocytosis at a level two- to threefold less than that observed in whole plasma. In contrast, the combination of purified fibronectin with small aliquots of opsonically inactive fibronectin-free plasma restored normal opsonic activity as assessed by liver slice bioassay and enhanced fibronectin-mediated attachment of gelatinized particulate to isolated Kupffer cells in vitro. Evidence is presented in this study that there exists in plasma a macromolecular species that amplifies the opsonic activity of fibronectin in a dose-related manner. This amplification or cofactor activity is nondialysable and has a molecular weight greater than 12,000. Inactivation of the amplification activity present in affinity-absorbed plasma can be achieved by heating the fibronectin-free plasma at 60 degrees C for 20 min, supporting the hypothesis that the cofactor is a protein. The amplification response is dose related, suggesting that the mechanism of its action is stoichiometric rather than catalytic. Evidence is presented that partial purification of the cofactor can be achieved by (NH4)2SO4 precipitation at 4 degrees C. Purification of this cofactor will provide an opportunity to evaluate its role in the altered opsonic states known to exist after trauma, burn, and sepsis.

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