Department of Molecular and Cellular Medicine, Texas A&M College of Medicine, College Station, TX, USA.
Brain Res. 2012 Feb 15;1438:65-74. doi: 10.1016/j.brainres.2011.12.027. Epub 2011 Dec 20.
Brain extracellular matrix (ECM) is highly degraded after cerebral ischemia. The perlecan c-terminal fragment LG3 is generated at increased levels by proteolytic processing as long as 3 days after ischemia. It has previously been shown that oxygen-glucose deprivation (OGD), reperfusion and interleukin-1 α (IL-1α) stimulate brain cells to yield increased levels of LG3. This LG3, in turn, is neuroprotective against OGD, and may therefore represent one of the brain's defenses against ischemic injury. Here, we investigate whether, in neurons, this increased LG3 is the result of increased perlecan generation and cellular release, increased protease release (to generate LG3 from previous extracellularly deposited perlecan) or both. We found that pre-synthesized perlecan may be exocytosed by neurons during OGD and de novo synthesis of perlecan is increased during reperfusion, even 24 h after OGD. Furthermore, while cathepsin L activity was seen to be marginally important to generate LG3 during normoxic conditions, cathepsin B activity was found to be important to generate increased levels of LG3 following OGD and reperfusion. On the other hand, IL-1α treatment raised levels of cathepsin L in neuronal media, and both cathepsin L and cathepsin B were demonstrated to be important for increasing LG3 levels after IL-1α treatment.
脑细胞外基质(ECM)在脑缺血后高度降解。作为蛋白酶处理的结果,LG3 片段在缺血后长达 3 天的时间内以增加的水平产生。先前已经表明,氧葡萄糖剥夺(OGD)、再灌注和白细胞介素-1α(IL-1α)刺激脑细胞产生增加水平的 LG3。反过来,这种 LG3 对 OGD 具有神经保护作用,因此可能代表大脑对缺血性损伤的防御机制之一。在这里,我们研究了在神经元中,这种增加的 LG3 是否是由于增加的蛋白聚糖生成和细胞释放、增加的蛋白酶释放(从先前细胞外沉积的蛋白聚糖中生成 LG3)或两者共同作用的结果。我们发现,在 OGD 期间神经元可能通过胞吐作用释放预先合成的蛋白聚糖,并且在再灌注期间甚至在 OGD 24 小时后,新合成的蛋白聚糖增加。此外,虽然在正常氧条件下,组织蛋白酶 L 活性对生成 LG3 具有重要意义,但在 OGD 和再灌注后,组织蛋白酶 B 活性对于生成增加水平的 LG3 非常重要。另一方面,IL-1α 处理会提高神经元培养基中的组织蛋白酶 L 水平,并且在 IL-1α 处理后,组织蛋白酶 L 和组织蛋白酶 B 都被证明对增加 LG3 水平很重要。