Division of Basic Biomedical Sciences, Sanford School of Medicine, University of South Dakota, 414 E Clark St, Lee Medical Bldg, Vermillion, SD 57069, USA.
Circ Res. 2012 Aug 17;111(5):532-42. doi: 10.1161/CIRCRESAHA.112.270983. Epub 2012 Jun 26.
Both cardiomyocyte-restricted proteasome functional enhancement and pharmacological proteasome inhibition (PSMI) were shown to attenuate myocardial ischemia/reperfusion (I/R) injury. The role of cardiac proteasome dysfunction during I/R and the perspective to diminish I/R injury by manipulating proteasome function remain unclear.
We sought to determine proteasome adequacy in I/R hearts, create a mouse model of cardiomyocyte-restricted PSMI (CR-PSMI), and test CR-PSMI impact on I/R injury.
Myocardial I/R were modeled by ligation (30 minutes) and subsequent release of the left anterior descending artery in mice overexpressing GFPdgn, a validated surrogate proteasome substrate. At 24 hours of reperfusion, myocardial proteasome activities were significantly lower whereas total ubiquitin conjugates and GFPdgn protein levels were markedly higher in all regions of the I/R hearts than the sham controls, indicative of proteasome functional insufficiency. CR-PSMI in intact mice was achieved by transgenic (tg) overexpression of a peptidase-disabled mouse β5 subunit (T60A-β5) driven by an attenuated mouse mhc6 promoter. Overexpressed T60A-β5 can replace endogenous β5 and inhibits proteasome chymotrypsin-like activities in the heart. Mice with moderate CR-PSMI showed no abnormalities at the baseline but displayed markedly more pronounced structural and functional damage during I/R, compared with non-tg littermates. The exacerbation of I/R injury by moderate CR-PSMI was associated with significant increases in the protein level of PTEN and protein kinase Cδ (PKCδ), decreased Akt activation, and reduced PKCε.
Myocardial I/R causes proteasome functional insufficiency in cardiomyocytes and moderate CR-PSMI augments PTEN and PKCδ, suppresses Akt and PKCε, increases cardiomyocyte apoptosis, and aggravates I/R injury in mice.
已有研究表明,心肌细胞特异性蛋白酶体功能增强和蛋白酶体抑制(PSMI)均可减轻心肌缺血/再灌注(I/R)损伤。在 I/R 期间心脏蛋白酶体功能障碍的作用以及通过操纵蛋白酶体功能来减轻 I/R 损伤的观点尚不清楚。
本研究旨在确定 I/R 心脏中的蛋白酶体充足性,创建心肌细胞特异性 PSMI(CR-PSMI)的小鼠模型,并测试 CR-PSMI 对 I/R 损伤的影响。
通过 GFPdgn 的过表达在结扎(30 分钟)并随后释放左前降支的小鼠中模拟心肌 I/R,GFPdgn 是一种经过验证的蛋白酶体替代底物。在再灌注 24 小时时,与假手术对照相比,I/R 心脏的所有区域中的心肌蛋白酶体活性明显降低,而总泛素缀合物和 GFPdgn 蛋白水平明显升高,表明蛋白酶体功能不足。通过弱启动子驱动的转基因(tg)过表达一种酶失活的小鼠β5 亚基(T60A-β5)在完整小鼠中实现 CR-PSMI。过表达的 T60A-β5 可以替代内源性β5,并抑制心脏中的蛋白酶体糜蛋白酶样活性。与非 tg 同窝仔鼠相比,具有中度 CR-PSMI 的小鼠在基线时没有异常,但在 I/R 期间表现出更明显的结构和功能损伤。中度 CR-PSMI 加重 I/R 损伤与 PTEN 和蛋白激酶 Cδ(PKCδ)的蛋白水平显著增加、Akt 激活减少和 PKCε减少有关。
心肌 I/R 导致心肌细胞中的蛋白酶体功能不足,中度 CR-PSMI 增加了 PTEN 和 PKCδ,抑制了 Akt 和 PKCε,增加了心肌细胞凋亡,并加重了小鼠的 I/R 损伤。
