Sun D Y, Jiang S, Zheng L M, Ojcius D M, Young J D
Laboratory of Molecular Immunology and Cell Biology, Rockefeller University, New York 10021-6399.
J Exp Med. 1994 Feb 1;179(2):559-68. doi: 10.1084/jem.179.2.559.
Apoptosis is the predominant form of cell death observed in a variety of physiological and pathological conditions such as cancer involution, insect metamorphosis, the development of the immune and nervous systems, and embryogenesis. The typical nuclear changes taking place in apoptotic cells include extensive condensation of chromatin and internucleosomal DNA fragmentation into units of 200 base pairs. However, the mechanisms responsible for both chromatin condensation and DNA fragmentation have yet to be elucidated. In this study, micrococcal nuclease and the divalent cations, Ca2+ and Mg2+, were applied to isolated nuclei in an attempt to reconstitute in vitro the digestion of genomic DNA associated with apoptosis. Micrococcal nuclease was found to induce a typical pattern of DNA fragmentation, but did not give rise to chromatin condensation, whereas Ca2+/Mg2+ induced both chromatin condensation and DNA fragmentation in isolated mouse liver nuclei. When the endonuclease inhibitor ZnCl2 was used, the DNA fragmentation induced by Ca2+/Mg2+ in nuclei could be completely inhibited, but chromatin condensation still occurred. For comparison, intact liver cells were treated with valinomycin, a potassium ionophore, which gave rise to an atypical cell death, with chromatin condensation appearing without DNA fragmentation. Our results suggest that endonuclease activation in apoptosis is neither necessary nor sufficient to induce chromatin condensation, and that DNA fragmentation and chromatin condensation may be triggered through separate pathways during apoptosis.
细胞凋亡是在多种生理和病理条件下观察到的主要细胞死亡形式,如癌症消退、昆虫变态、免疫和神经系统发育以及胚胎发生。凋亡细胞中发生的典型核变化包括染色质广泛凝聚和核小体间DNA断裂成200个碱基对的单位。然而,负责染色质凝聚和DNA断裂的机制尚未阐明。在本研究中,将微球菌核酸酶以及二价阳离子Ca2+和Mg2+应用于分离的细胞核,试图在体外重建与细胞凋亡相关的基因组DNA消化过程。发现微球菌核酸酶可诱导典型的DNA断裂模式,但不会引起染色质凝聚,而Ca2+/Mg2+可诱导分离的小鼠肝细胞核中的染色质凝聚和DNA断裂。当使用核酸内切酶抑制剂ZnCl2时,Ca2+/Mg2+在细胞核中诱导的DNA断裂可被完全抑制,但染色质凝聚仍然发生。作为比较,用缬氨霉素(一种钾离子载体)处理完整的肝细胞,其会导致非典型细胞死亡,出现染色质凝聚但无DNA断裂。我们的结果表明,细胞凋亡中核酸内切酶的激活对于诱导染色质凝聚既非必要也不充分,并且DNA断裂和染色质凝聚可能在细胞凋亡过程中通过不同途径触发。