Saunders W S, Shuster M, Huang X, Gharaibeh B, Enyenihi A H, Petersen I, Gollin S M
Department of Biological Sciences, University of Pittsburgh, Pittsburgh, PA 15260, USA. wsaund+@pitt.edu
Proc Natl Acad Sci U S A. 2000 Jan 4;97(1):303-8. doi: 10.1073/pnas.97.1.303.
Oral squamous cell carcinomas are characterized by complex, often near-triploid karyotypes with structural and numerical variations superimposed on the initial clonal chromosomal alterations. We used immunohistochemistry combined with classical cytogenetic analysis and spectral karyotyping to investigate the chromosomal segregation defects in cultured oral squamous cell carcinoma cells. During division, these cells frequently exhibit lagging chromosomes at both metaphase and anaphase, suggesting defects in the mitotic apparatus or kinetochore. Dicentric anaphase chromatin bridges and structurally altered chromosomes with consistent long arms and variable short arms, as well as the presence of gene amplification, suggested the occurrence of breakage-fusion-bridge cycles. Some anaphase bridges were observed to persist into telophase, resulting in chromosomal exclusion from the reforming nucleus and micronucleus formation. Multipolar spindles were found to various degrees in the oral squamous cell carcinoma lines. In the multipolar spindles, the poles demonstrated different levels of chromosomal capture and alignment, indicating functional differences between the poles. Some spindle poles showed premature splitting of centrosomal material, a precursor to full separation of the microtubule organizing centers. These results indicate that some of the chromosomal instability observed within these cancer cells might be the result of cytoskeletal defects and breakage-fusion-bridge cycles.
口腔鳞状细胞癌的特征是具有复杂的、通常接近三倍体的核型,其结构和数量变异叠加在初始的克隆染色体改变之上。我们使用免疫组织化学结合经典细胞遗传学分析和光谱核型分析来研究培养的口腔鳞状细胞癌细胞中的染色体分离缺陷。在分裂过程中,这些细胞在中期和后期经常出现滞后染色体,提示有丝分裂装置或动粒存在缺陷。双着丝粒后期染色质桥以及具有一致长臂和可变短臂的结构改变的染色体,以及基因扩增的存在,提示了断裂-融合-桥循环的发生。观察到一些后期桥持续到末期,导致染色体被排除在重新形成的细胞核之外并形成微核。在口腔鳞状细胞癌细胞系中不同程度地发现了多极纺锤体。在多极纺锤体中,纺锤极表现出不同程度的染色体捕获和排列,表明各极之间存在功能差异。一些纺锤极显示中心体物质过早分裂,这是微管组织中心完全分离的前兆。这些结果表明,在这些癌细胞中观察到的一些染色体不稳定性可能是细胞骨架缺陷和断裂-融合-桥循环的结果。