Mummenberg A G, Kulichkova V A, Medvedeva N D, Penniiaĭnen V A, Gauze L N, Konstantinova I M
Institute of Cytology RAS, St. Petersburg.
Tsitologiia. 2002;44(2):181-7.
Proteosomes from human proerythroleukaemic cell line K562 are found to degrade high molecular weight cytoplasmic RNAs, particularly ribosomal and specific messenger RNA. This activity was observed to be endoribonucleotylic. The induction of differentiation by erythroid pathway in K562 cells invokes augmentation of endonuclease activity in proteasomes. The number of characteristics of this enzymatic activity was investigated. Specificity of endonuclease of these RNPs is shown to be Ca- and Mg-dependent. Dephosphorylation of protein subunits suppresses RNase activity of proteasomes. Endonuclease of proteasomes is thermolabile. The examined activity depends on the secondary structure of substrate RNA. Protein subunits are responsible for ribonuclease activity of proteasomes rather than for low molecular weight RNAs associated with the complex.
研究发现,来自人类红白血病细胞系K562的蛋白酶体可降解高分子量的细胞质RNA,尤其是核糖体RNA和特定的信使RNA。观察到这种活性是核糖核酸内切酶活性。K562细胞中通过红系途径诱导分化会引起蛋白酶体中核酸内切酶活性增强。对这种酶活性的多个特性进行了研究。这些核糖核蛋白的核酸内切酶特异性显示为钙和镁依赖性。蛋白质亚基的去磷酸化会抑制蛋白酶体的核糖核酸酶活性。蛋白酶体的核酸内切酶对热不稳定。所检测的活性取决于底物RNA的二级结构。蛋白酶体的核糖核酸酶活性由蛋白质亚基负责,而非与该复合物相关的低分子量RNA。