Zheng B, Clarke J B, Busby W H, Duan C, Clemmons D R
Department of Medicine, University of North Carolina School of Medicine, Chapel Hill 27599, USA.
Endocrinology. 1998 Apr;139(4):1708-14. doi: 10.1210/endo.139.4.5945.
Insulin-like growth factor (IGF)-binding protein-5 (IGFBP-5) is cleaved by a serine protease that is secreted by fibroblasts and porcine smooth muscle cells (pSMC) in culture. To investigate whether other serine proteases could cleave this substrate at physiologically relevant concentrations, we determined the proteolytic effects of thrombin on IGFBP-5. Human alpha-thrombin (0.0008 NIH U/ml) cleaved IGFBP-5 into 24-, 23-, and 20-kDa non-IGF-I-binding fragments. Cleavage occurred at a physiologically relevant thrombin concentration. The effect was specific for IGFBP-5, as other forms of IGFBPs, e.g. IGFBP-1, IGFBP-2, and IGFBP-4 were not cleaved by thrombin. Although IGFBP-3 was cleaved by thrombin, this effect required a 50-fold greater thrombin concentration. [35S]Methionine labeling followed by immunoprecipitation confirmed that IGFBP-5 that was constitutively synthesized by pSMC cultures was also degraded by thrombin into 24-, 23-, and 20-kDa fragments. The binding of IGF-I to IGFBP-5 partially inhibited IGFBP-5 degradation by thrombin, and an IGF analog that does not bind to IGFBP-5 had no effect. Thrombin did not account for the serine protease activity that had been shown previously to be present in pSMC-conditioned medium. This was proven by showing that 1) no immunoreactive thrombin could be detected in the pSMC-conditioned medium; 2) the IGFBP-5 fragments that were generated by thrombin showed three cleavage sites (Arg192-Ala193, Arg156-Ile157, and Lys120-His121), whereas the serine protease in conditioned medium cleaves IGFBP-5 at a different site; and 3) hirudin had no effect on IGFBP-5 cleavage by the protease in pSMC medium; however, it inhibited IGFBP-5 degradation by thrombin. To determine the physiological significance of IGFBP-5 cleavage, the effect of an IGFBP-5 mutant that is resistant to cleavage by the pSMC protease and has been shown to inhibit IGF-I actions in pSMC was determined. This mutant inhibited IGF-I-stimulated DNA synthesis, but if thrombin was added simultaneously, IGF-I was fully active. In summary, physiological concentrations of thrombin degrade IGFBP-5. Degradation can be blocked by hirudin and is partially inhibited by IGF-I binding. Generation of active thrombin in vessel walls may be a physiologically relevant mechanism for controlling IGF-I bioactivity.
胰岛素样生长因子(IGF)结合蛋白-5(IGFBP-5)可被成纤维细胞和培养的猪平滑肌细胞(pSMC)分泌的一种丝氨酸蛋白酶切割。为了研究其他丝氨酸蛋白酶在生理相关浓度下是否能切割该底物,我们测定了凝血酶对IGFBP-5的蛋白水解作用。人α-凝血酶(0.0008 NIH U/ml)将IGFBP-5切割成24 kDa、23 kDa和20 kDa的非IGF-I结合片段。切割发生在生理相关的凝血酶浓度下。这种作用对IGFBP-5具有特异性,因为其他形式的IGFBPs,如IGFBP-1、IGFBP-2和IGFBP-4不会被凝血酶切割。虽然IGFBP-3可被凝血酶切割,但这种作用需要高50倍的凝血酶浓度。[35S]甲硫氨酸标记后进行免疫沉淀证实,pSMC培养物组成性合成的IGFBP-5也会被凝血酶降解为24 kDa、23 kDa和20 kDa的片段。IGF-I与IGFBP-5的结合部分抑制了凝血酶对IGFBP-5的降解,而一种不与IGFBP-5结合的IGF类似物则没有作用。凝血酶并不能解释先前已证明存在于pSMC条件培养基中的丝氨酸蛋白酶活性。这通过以下几点得到证明:1)在pSMC条件培养基中检测不到免疫反应性凝血酶;2)凝血酶产生的IGFBP-5片段显示出三个切割位点(Arg192-Ala193、Arg156-Ile157和Lys120-His121),而条件培养基中的丝氨酸蛋白酶在不同位点切割IGFBP-5;3)水蛭素对pSMC培养基中的蛋白酶切割IGFBP-5没有作用;然而,它抑制了凝血酶对IGFBP-5的降解。为了确定IGFBP-5切割的生理意义,我们测定了一种对pSMC蛋白酶切割具有抗性且已被证明能抑制pSMC中IGF-I作用的IGFBP-5突变体的作用。该突变体抑制了IGF-I刺激的DNA合成,但如果同时加入凝血酶,IGF-I则完全具有活性。总之,生理浓度的凝血酶可降解IGFBP-5。降解可被水蛭素阻断,并部分受到IGF-I结合的抑制。血管壁中活性凝血酶的产生可能是控制IGF-I生物活性的一种生理相关机制。
