Lossi Laura, Cocito Carolina, Alasia Silvia, Merighi Adalberto
University of Turin, Department of Veterinary Sciences, Largo Paolo Braccini 2, I-10095, Grugliasco, TO, Italy.
Mol Neurodegener. 2016 Apr 28;11:34. doi: 10.1186/s13024-016-0101-8.
Apoptosis takes place in naturally occurring neuronal death, but also in aging, neurodegenerative disorders, and traumatic brain injuries. Caspase 3 (Casp3) is the most important effector protease in apoptosis: being inactive inside the cell, it undergoes enzymatic cleavage and - hence - activation once the apoptotic cascade is triggered. Immunological techniques with antibodies against cleaved Casp3 (cCasp3) or assays with colorimetric/fluorogenic substrates are commonly in use, but they do not allow to directly follow the dynamics of activation in alive neurons that may be committed to die.
By combined biolistic transfection, confocal microscopy, and fluorescence resonance energy transfer (FRET), we have implemented a methodology to dynamically monitor Casp3 activation in organotypic cerebellar slices from postnatal mice. After transfection with pSCAT3 FRET probes, we measured the ratio of the emissions of the donor/acceptor pair (ECFPem/Venusem) in fixed or alive cultures. In so doing, we i. discriminated the cellular compartment(s) of enzyme activation (nucleus, perikaryon, neurites); ii. demonstrated that Casp3 was constitutively active in the granule cells; iii. followed the fluctuations of ECFPem/Venusem, and its response to 25 mM KCl depolarization, or to increased intracellular Ca(++) after NMDA (1 mM), kainic acid (1 mM), or A23187 (100-200 μM). The specificity of the active pSCAT3-DEVD probe was confirmed with RNA interference and after inhibition of Casp3 with Ac-DEVD-CMK (100 μM), as both sets of experiments brought ECFPem/Venusem to the values recorded with the control probe pSCAT3-DEVG. After double-transfection with pSCAT3-DEVD + pHcRed1-C1-survivin, we also showed a 44-56% reduction of basal Casp3 activity in cells overexpressing survivin, a protein-member of the family of apoptosis inhibitors, with augmented survival (2.82 folds). Survivin-rescued cells were sensitive to 5 mM H2O2 oxidative stress but died without intervention of Casp3.
This ex vivo FRET-based methodology provides quantitative information on the functional and histological dynamics of Casp3 activation in individual neurons at a cell level resolution. Not only it can be combined with experimental manipulation of the apoptotic machinery inside the cell, but offers several advantages over existing protocols for monitoring apoptosis in live mammalian neurons, and has potential to be transferred in vivo. Due to the pivotal role of Casp3 in apoptosis, our approach is relevant for a better comprehension of molecular neurodegeneration in the normal and pathological brain.
凋亡不仅发生在自然发生的神经元死亡过程中,也出现在衰老、神经退行性疾病和创伤性脑损伤中。半胱天冬酶3(Casp3)是凋亡过程中最重要的效应蛋白酶:它在细胞内处于无活性状态,一旦凋亡级联反应被触发,就会经历酶切作用并因此被激活。常用的针对切割后的Casp3(cCasp3)的抗体免疫技术或比色/荧光底物检测方法,但它们无法直接追踪可能走向死亡的活神经元中激活的动态过程。
通过结合生物弹道转染、共聚焦显微镜和荧光共振能量转移(FRET),我们实现了一种方法来动态监测出生后小鼠小脑器官型切片中Casp3的激活情况。用pSCAT3 FRET探针转染后,我们测量了固定或活细胞培养物中供体/受体对(ECFPem/Venusem)的发射比率。通过这样做,我们:i. 区分了酶激活的细胞区室(细胞核、胞体、神经突);ii. 证明Casp3在颗粒细胞中组成性激活;iii. 追踪了ECFPem/Venusem的波动及其对25 mM KCl去极化或NMDA(1 mM)、 kainic acid(1 mM)或A23187(100 - 200 μM)后细胞内Ca(++)增加的反应。活性pSCAT3 - DEVD探针的特异性通过RNA干扰以及用Ac - DEVD - CMK(100 μM)抑制Casp3后得到证实,因为这两组实验都使ECFPem/Venusem达到了用对照探针pSCAT3 - DEVG记录的值。在用pSCAT3 - DEVD + pHcRed1 - C1 - survivin进行双重转染后,我们还显示在过表达存活素(凋亡抑制蛋白家族的一个成员)的细胞中,基础Casp3活性降低了44 - 56%,存活率增加(2.82倍)。存活素挽救的细胞对5 mM H2O2氧化应激敏感,但在没有Casp3干预的情况下死亡。
这种基于FRET的离体方法在细胞水平分辨率上提供了关于单个神经元中Casp3激活的功能和组织学动态的定量信息。它不仅可以与细胞内凋亡机制的实验操作相结合,而且相对于现有的监测活哺乳动物神经元凋亡的方案具有几个优点,并且有可能在体内应用。由于Casp3在凋亡中的关键作用,我们的方法对于更好地理解正常和病理脑内的分子神经退行性变具有重要意义。
