Some commonly used caspase substrates and inhibitors lack the specificity required to monitor individual caspase activity.

Pereira NA; Song Z

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Some commonly used caspase substrates and inhibitors lack the specificity required to monitor individual caspase activity.

机译：一些常用的胱天蛋白酶底物和抑制剂缺乏监测单个胱天蛋白酶活性所需的特异性。

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Many designated substrates and inhibitors have been widely used to investigate the roles of caspases in apoptotic death during mammalian cell culture. However, the specificities of these substrates and inhibitors have not been systematically evaluated. As a result, conclusions on the roles of specific caspases in apoptotic cells have been published inaccurately. In this study, the interaction between seven commercially available human caspases and their designated substrates and inhibitors was studied. Ac-YVAD-pNA, the designated substrate for caspase-1, is found to be the most specific substrate. All other substrates tested demonstrate cross-reactivity with several caspases. In relation to the enzyme, Caspase-2 is the most specific caspase, followed by caspase-9 and -6. Caspase-3 and -7 cleave three substrates efficiently. The designated substrates for capsase-1 and -8 are not even their best substrates. Fluoromethylketone (fmk) inhibitors exhibit no specificity towards different caspases even at low concentrations. In contrast, aldehyde inhibitor potency shows a distinct relationship to pNA substrate cleavage. These results show that some commonly used caspase substrates and inhibitors lack the specificity required to monitor individual caspase activity.

机译：许多指定的底物和抑制剂已被广泛用于研究胱天蛋白酶在哺乳动物细胞培养过程中凋亡死亡中的作用。但是，尚未系统评估这些底物和抑制剂的特异性。结果，关于特定胱天蛋白酶在凋亡细胞中的作用的结论已被错误地发表。在这项研究中，研究了七个市售人胱天蛋白酶与其指定底物和抑制剂之间的相互作用。发现Ac-YVAD-pNA是caspase-1的指定底物，是最特异性的底物。测试的所有其他底物均表现出与几种胱天蛋白酶的交叉反应性。关于该酶，Caspase-2是最特异的caspase，其次是caspase-9和-6。 Caspase-3和-7可有效裂解三种底物。 Capsase-1和-8的指定底物甚至不是其最佳底物。氟甲基酮（fmk）抑制剂即使在低浓度下也对不同的胱天蛋白酶没有特异性。相比之下，醛类抑制剂的效力与pNA底物的裂解有着明显的关系。这些结果表明，一些常用的caspase底物和抑制剂缺乏监测单个caspase活性所需的特异性。

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来源
《Biochemical and Biophysical Research Communications》 |2008年第3期|共5页
作者
Pereira NA; Song Z;
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正文语种 eng
中图分类生物化学;
关键词
Aldehydes; Caspases; Cysteine Proteinase Inhibitors; Humans; Oligopeptides; 醛类; Caspase类; 半胱氨酸蛋白酶抑制剂; 寡肽类; 重组蛋白质类; 底物特异性;

机译：Aldehydes;Caspases;Cysteine Proteinase Inhibitors;Humans;Oligopeptides;醛类;Caspase类;半胱氨酸蛋白酶抑制剂;寡肽类;重组蛋白质类;底物特异性;

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1. Some commonly used caspase substrates and inhibitors lack the specificity required to monitor individual caspase activity. [J] . Pereira NA, Song Z Biochemical and Biophysical Research Communications . 2008,第3期

机译：一些常用的胱天蛋白酶底物和抑制剂缺乏监测单个胱天蛋白酶活性所需的特异性。
2. CrmA orthologs from diverse poxviruses potently inhibit caspases-1 and-8, yet cleavage site mutagenesis frequently produces caspase-1-specific variants [J] . Bloomer David T., Kitevska-Ilioski Tanja, Pantaki-Eimany Delara, The Biochemical Journal . 2019,第9期

机译：CRMS Orthologs来自不同的痘病毒的效果抑制了Caspases-1和-8，但裂解位点诱变经常产生Caspase-1特异性变体
3. Extensive peptide and natural protein substrate screens reveal that mouse caspase-11 has much narrower substrate specificity than caspase-1 [J] . Monica L. Gonzalez Ramirez, Marcin Poreba, Scott Snipas, The Journal of biological chemistry . 2018,第18期

机译：广泛的肽和天然蛋白底物筛选显示，小鼠caspase-11的底物特异性比caspase-1窄得多
4. Inhibitors of diverse metabolic steps cause increased apoptosis in deoxyadenosine-resistantmouse leukemia L1210 cells that lack p53 expression: convergence at caspase-3 activation [C] . Ann H. Cory, Caroline C. Edwards, Jennifer G. Hall, International Symposium on Regulation of Enzyme Activity and Synthesis in Normal and Neoplastic Tissues . 2003

机译：不同代谢步骤的抑制剂导致缺乏p53表达的脱氧腺苷抵抗疗效中的细胞凋亡增加：Caspase-3活化的收敛性
5. Design, synthesis, and evaluation of novel irreversible inhibitors for caspases. [D] . Dogan Ekici, Ozlem. 2003

机译：设计，合成和评估新型半胱氨酸蛋白酶不可逆抑制剂。
6. Extensive peptide and natural protein substrate screens reveal that mouse caspase-11 has much narrower substrate specificity than caspase-1 [O] . Monica L. Gonzalez Ramirez, Marcin Poreba, Scott J. Snipas, 2018

机译：广泛的肽和天然蛋白底物筛选显示小鼠caspase-11的底物特异性比caspase-1窄得多
7. Metabotropic glutamate receptor 3 neuroprotection A. Berent-Spillson and J. W. Russell Received June 12, 2006; revised manuscript received October 3, 2006; accepted October 5, 2006. Address correspondence and reprint requests to James W. Russell, Department of Neurology, University of Maryland School of Medicine, 22 South Greene Street, Baltimore, MD 21201-1595, USA. E-mail: jruss@umich.edu Abbreviations used : APDC , 2 R ,4 R -4-aminopyrrolidine-2,4-dicarboxylate (specific metabotropic glutamate receptor 3 agonist) ; BSO , buthionine sulfoximine (GSH synthesis inhibitor) ; caspase , cysteine-requiring aspartate protease ; CysGly , cysteinylglycine (GSH degradation product) ; DAPI , 4′-6-diamidino-2-phenylindole ; DCF , dichlorodihydrofluorescein ; DCFDA , 5-(and 6)-chloromethyl-2′,7′-dichlorodihydrofluorescein diacetate, acetyl ester ; DHE , dihydroethidium ; DRG , dorsal root ganglion ; FCCP , carbonyl cyanide 4-(trifluoromethoxy)phenylhydrazone (electron transport uncoupler) ; GCP II/III , glutamate carboxypeptidase II/III ; GSH , glutathione ; GSH-EE , glutathione ethyl ester ; GST , glutathione-s-transferase ; H 2 O 2 , hydrogen peroxide ; HBSS , Hank’s balanced salt solution ; JC-1 , 5,5′,6,6′-tetrachloro-1,1′,3,3′-tetraethylbenzimidazolylcarbocyanine iodide ; MCB , monochlorobimane ; mGluR , metabotropic glutamate receptor ; NAAG , N -acetyl-aspartyl-glutamate ; PBS , phosphate-buffered saline ; PCD , programmed cell death ; Rh123 , rhodamine123 ; ROS , reactive oxygen species ; δψ μ , inner mitochondrial membrane potential . Metabotropic glutamate receptor 3 protects neurons from glucose-induced oxidative injury by increasing intracellular glutathione concentration [O] . Berent-Spillson Alison, Russell James W. 2007

机译：代谢型谷氨酸受体3神经保护a. Berent-spillson和J. W. Russell于2006年6月12日收到;修订稿于2006年10月3日收到; 2006年10月5日接受。美国马里兰州巴尔的摩市南格林街22号，马里兰大学医学院神经病学系James W. Russell的地址通信和重印申请。电子邮件：jruss@umich.edu使用的缩写：apDC，2R，4R-4-氨基吡咯烷-2,4-二羧酸酯（特异性代谢型谷氨酸受体3激动剂）; BsO，丁硫氨酸亚砜亚胺（GsH合成抑制剂）;半胱天冬酶，半胱氨酸需要的天冬氨酸蛋白酶; CysGly，半胱氨酰甘氨酸（GsH降解产物）; DapI，4'-6-二脒基-2-苯基吲哚; DCF，二氯二氢荧光素; DCFDa，5-（和6） - 氯甲基-2'，7'-二氯二氢荧光素二乙酸酯，乙酰酯; DHE，二氢乙锭; DRG，背根神经节; FCCp，羰基氰化物4-（三氟甲氧基）苯腙（电子传输解偶联剂）; GCp II / III，谷氨酸羧肽酶II / III;谷胱甘肽;谷胱甘肽; GsH-EE，谷胱甘肽乙酯; GsT，谷胱甘肽-s-转移酶; H 2 O 2，过氧化氢; HBss，Hank的平衡盐溶液; JC-1,5,5'，6,6'-四氯-1,1'，3,3'-四乙基苯并咪唑基酞菁碘化物; mCB，monochlorobimane; mGluR，代谢型谷氨酸受体; NaaG，N-乙酰基 - 天冬氨酰谷氨酸; pBs，磷酸盐缓冲盐水; pCD，程序性细胞死亡; Rh123，罗丹明123;活性氧，活性氧; δψμ，线粒体内膜电位。代谢型谷氨酸受体3通过增加细胞内谷胱甘肽浓度来保护神经元免受葡萄糖诱导的氧化损伤

Some commonly used caspase substrates and inhibitors lack the specificity required to monitor individual caspase activity.

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