From the Centre for Haematology, Imperial College London, Du Cane Road, W12 0NN, London, UK.
Institute of Ageing and Chronic Disease, William Henry Duncan Building, University of Liverpool, Liverpool, UK.
Sci Rep. 2019 Jul 29;9(1):10914. doi: 10.1038/s41598-019-47494-w.
ADAMTS (A Disintegrin-like and Metalloproteinase domain with Thrombospondin type 1 Motif)-1, -4 and -5 share the abilities to cleave large aggregating proteoglycans including versican and aggrecan. These activities are highly relevant to cardiovascular disease and osteoarthritis and during development. Here, using purified recombinant ADAMTS-1, -4 and -5, we quantify, compare, and define the molecular basis of their versicanase activity. A novel sandwich-ELISA detecting the major versican cleavage fragment was used to determine, for the first time, kinetic constants for versican proteolysis. ADAMTS-5 (k/K 35 × 10 M s) is a more potent (~18-fold) versicanase than ADAMTS-4 (k/K 1.86 × 10 M sec), whereas ADAMTS-1 versicanase activity is comparatively low. Deletion of the spacer domain reduced versicanase activity of ADAMTS-5 19-fold and that of ADAMTS-4 167-fold. Co-deletion of the ADAMTS-5 cysteine-rich domain further reduced versicanase activity to a total 153-fold reduction. Substitution of two hypervariable loops in the spacer domain of ADAMTS-5 (residues 739-744 and 837-844) and ADAMTS-4 (residues 717-724 and 788-795) with those of ADAMTS-13, which does not cleave proteoglycans, caused spacer-dependent reductions in versicanase activities. Our results demonstrate that these loops contain exosites critical for interaction with and processing of versican. The hypervariable loops of ADAMTS-5 are shown to be important also for its aggrecanase activity. Together with previous work on ADAMTS-13 our results suggest that the spacer domain hypervariable loops may exercise significant control of ADAMTS proteolytic activity as a general principle. Identification of specific exosites also provides targets for selective inhibitors.
ADAMTS(解整合素和金属蛋白酶与血小板反应蛋白 1 型基序)-1、-4 和-5 具有切割包括 versican 和聚集蛋白聚糖在内的大型聚集蛋白聚糖的能力。这些活性与心血管疾病和骨关节炎以及发育过程高度相关。在这里,我们使用纯化的重组 ADAMTS-1、-4 和-5 定量、比较和定义了它们的 versicanase 活性的分子基础。一种新的夹心 ELISA 检测主要 versican 切割片段,首次用于确定 versican 蛋白水解的动力学常数。ADAMTS-5(k/K 35×10 M s)是一种比 ADAMTS-4(k/K 1.86×10 M sec)更有效的 versicanase(~18 倍),而 ADAMTS-1 的 versicanase 活性相对较低。删除间隔区使 ADAMTS-5 的 versicanase 活性降低 19 倍,使 ADAMTS-4 的 versicanase 活性降低 167 倍。进一步删除 ADAMTS-5 的富含半胱氨酸的结构域使 versicanase 活性总共降低 153 倍。ADAMTS-5(残基 739-744 和 837-844)和 ADAMTS-4(残基 717-724 和 788-795)间隔区中的两个高变环的取代与不切割蛋白聚糖的 ADAMTS-13 的取代导致 spacer 依赖性 versicanase 活性降低。我们的结果表明,这些环包含与 versican 相互作用和加工至关重要的外显子。ADAMTS-5 的高变环也被证明对其 aggrecanase 活性很重要。与之前关于 ADAMTS-13 的工作一起,我们的结果表明间隔区高变环可能是 ADAMTS 蛋白水解活性的一般原则的重要控制因素。外显子的鉴定也为选择性抑制剂提供了靶标。
