Dipartimento di Biologia Cellulare e dello Sviluppo, Palermo, Italy.
Mol Cancer. 2009 Dec 10;8:119. doi: 10.1186/1476-4598-8-119.
Aneuploidy is a hallmark of most human cancers that arises as a consequence of chromosomal instability and it is frequently associated with centrosome amplification. Functional inactivation of the Retinoblastoma protein (pRb) has been indicated as a cause promoting chromosomal instability as well centrosome amplification. However, the underlying molecular mechanism still remains to be clarified.
Here we show that pRb depletion both in wild type and p53 knockout HCT116 cells was associated with the presence of multipolar spindles, anaphase bridges, lagging chromosomes and micronuclei harbouring whole chromosomes. In addition aneuploidy caused by pRb acute loss was not affected by p53 loss.Quantitative real-time RT-PCR showed that pRB depletion altered expression of genes involved in centrosome duplication, kinetochore assembly and in the Spindle Assembly Checkpoint (SAC). However, despite MAD2 up-regulation pRb-depleted cells seemed to have a functional SAC since they arrested in mitosis after treatments with mitotic poisons. Moreover pRb-depleted HCT116 cells showed BRCA1 overexpression that seemed responsible for MAD2 up-regulation.Post-transcriptional silencing of CENPA by RNA interference, resulting in CENP-A protein levels similar to those present in control cells greatly reduced aneuploid cell numbers in pRb-depleted cells.
Altogether our findings indicate a novel aspect of pRb acute loss that promotes aneuploidy mainly by inducing CENPA overexpression that in turn might induce micronuclei by affecting the correct attachment of spindle microtubules to kinetochores.
非整倍性是大多数人类癌症的标志,它是染色体不稳定性的结果,通常与中心体扩增有关。视网膜母细胞瘤蛋白(pRb)的功能失活已被表明是促进染色体不稳定性和中心体扩增的原因。然而,其潜在的分子机制仍有待阐明。
在这里,我们表明 pRb 在野生型和 p53 敲除 HCT116 细胞中的耗竭与多极纺锤体、后期桥、滞后染色体和含有整条染色体的微核的存在有关。此外,pRb 急性缺失引起的非整倍体不受 p53 缺失的影响。实时定量 RT-PCR 显示,pRB 耗竭改变了参与中心体复制、动粒装配和纺锤体装配检查点(SAC)的基因的表达。然而,尽管 MAD2 上调,pRb 耗竭细胞似乎具有功能性 SAC,因为它们在用有丝分裂毒物处理后在有丝分裂中停滞。此外,pRb 耗竭的 HCT116 细胞表现出 BRCA1 的过表达,这似乎是 MAD2 上调的原因。通过 RNA 干扰对 CENPA 的转录后沉默,导致 CENP-A 蛋白水平与对照细胞相似,大大减少了 pRb 耗竭细胞中非整倍体细胞的数量。
总之,我们的研究结果表明了 pRb 急性缺失的一个新方面,主要通过诱导 CENPA 的过表达来促进非整倍体,这反过来又可能通过影响纺锤体微管与动粒的正确连接而导致微核的形成。
