Zou Jianqiu, Zhang Deli, Qin Guang, Chen Xiangming, Wang Hongmin, Zhang Dong
a Basic Biomedical Science Division; Sanford School of Medicine ; University of South Dakota ; Vermillion , SD USA.
Cell Cycle. 2014;13(23):3685-97. doi: 10.4161/15384101.2014.964973.
DNA damage response (DDR) and the centrosome cycle are 2 of the most critical cellular processes affecting the genome stability in animal cells. Yet the cross-talks between DDR and the centrosome are poorly understood. Here we showed that deficiency of the breast cancer 1, early onset gene (BRCA1) induces centrosome amplification in non-stressed cells as previously reported while attenuating DNA damage-induced centrosome amplification (DDICA) in cells experiencing prolonged genotoxic stress. Mechanistically, the function of BRCA1 in promoting DDICA is through binding and recruiting polo-like kinase 1 (PLK1) to the centrosome. In a recent study, we showed that FancJ also suppresses centrosome amplification in non-stressed cells while promoting DDICA in both hydroxyurea and mitomycin C treated cells. FancJ is a key component of the BRCA1 B-complex. Here, we further demonstrated that, in coordination with BRCA1, FancJ promotes DDICA by recruiting both BRCA1 and PLK1 to the centrosome in the DNA damaged cells. Thus, we have uncovered a novel role of BRCA1 and FancJ in the regulation of DDICA. Dysregulation of DDR or centrosome cycle leads to aneuploidy, which is frequently seen in both solid and hematological cancers. BRCA1 and FancJ are known tumor suppressors and have well-recognized functions in DNA damage checkpoint and DNA repair. Together with our recent findings, we demonstrated here that BRCA1 and FancJ also play an important role in centrosome cycle especially in DDICA. DDICA is thought to be an alternative fail-safe mechanism to prevent cells experiencing severe DNA damage from becoming carcinogenic. Therefore, BRCA1 and FancJ are potential liaisons linking early DDR with the DDICA. We propose that together with their functions in DDR, the role of BRCA1 and FancJ in the activation of DDICA is also crucial for their tumor suppression functions in vivo.
DNA损伤反应(DDR)和中心体周期是影响动物细胞基因组稳定性的两个最关键的细胞过程。然而,DDR与中心体之间的相互作用却鲜为人知。在此我们表明,乳腺癌1号早发基因(BRCA1)的缺陷如先前报道的那样在未受应激的细胞中诱导中心体扩增,而在经历长时间基因毒性应激的细胞中减弱DNA损伤诱导的中心体扩增(DDICA)。从机制上来说,BRCA1促进DDICA的功能是通过将polo样激酶1(PLK1)结合并招募到中心体。在最近的一项研究中,我们表明FancJ在未受应激的细胞中也抑制中心体扩增,而在羟基脲和丝裂霉素C处理的细胞中促进DDICA。FancJ是BRCA1 B复合物的关键组分。在此,我们进一步证明,与BRCA1协同作用时,FancJ通过在DNA损伤的细胞中将BRCA1和PLK1都招募到中心体来促进DDICA。因此,我们揭示了BRCA1和FancJ在DDICA调控中的新作用。DDR或中心体周期的失调会导致非整倍体,这在实体癌和血液系统癌症中都很常见。BRCA1和FancJ是已知的肿瘤抑制因子,在DNA损伤检查点和DNA修复中具有公认的功能。连同我们最近的发现,我们在此证明BRCA1和FancJ在中心体周期中也发挥重要作用,尤其是在DDICA中。DDICA被认为是一种替代性的故障安全机制,可防止经历严重DNA损伤的细胞发生癌变。因此,BRCA1和FancJ是将早期DDR与DDICA联系起来的潜在纽带。我们提出,连同它们在DDR中的功能,BRCA1和FancJ在激活DDICA中的作用对于它们在体内的肿瘤抑制功能也至关重要。