顽固污渍
Cancer: One cell at a time
单细胞基因组测序
英文来源:nature 原文作者:Fox, E. J.和Loeb, L. A.
中文翻译:生命奥妙
作者通讯地址:
Fox, E. J. :Department of Pathology, University of Washington, Seattle, Washington 98195-7750, USA
Loeb, L. A.:[1] Department of Pathology, University of Washington, Seattle, Washington 98195-7750, USA.
[2] Department of Biochemistry, University of Washington.
Single-cell DNA quencing of two breast-cancer types has shown extensive mutation
al variation in individual tumours, confirming that generation of genetic diversity may be inherent in how tumours evolve.
对两种类型乳腺癌细胞进行的单细胞DNA测序结果发现,肿瘤细胞内包含各种类型突变,证实了遗传多样性可能会决定肿瘤进展的方向。
评课从哪几个方面评 Next-generation DNA quencing has revolutionized the field of cancer genomics1. Although this quencing can identify the most frequent mutation in a population of cells, it struggles to resolve the mutational diversity and multiple genomes of the individual cells that compri a tumour. Achieving DNA quencing down to the resolution of a single cell has been a long-held dream for understanding the cellular heterogeneity that is inherent in many complex biological systems and, in particular, for delineating the mixture of genomes in human cancers2. On page 155 of this issue, Wang et al.3 report an innovative quencing method, termed nuc-q, that achieves almost complete quencing of whole genomes in single cells.
个人优点和缺点
新一代DNA测序技术已经给癌症基因组研究领域带来了革命性的进展。尽管新的测序
技术可以检测出大部分经常出现的突变,但是对肿瘤细胞内存在的各类突变及多种基因组类型的分辨率并不高。一直以来,研究者都盼望着DNA测序的分辨率可以达到单个细胞,这对于研究在许多复杂生物系统内存在的细胞异质性非常重要,尤其是对人类肿瘤基因组混合物的研究而言。Wang等人建立了一种新的测序方法,称作nuc-q,基本实现了对单个细胞完整基因组进行完全测序的目标。
含动物名称的四字成语
As a cell prepares to divide, it replicates the DNA in its nucleus. By sorting and quencing only the newly 'doubled' nuclei, nuc-q takes advantage of this duplication to achieve lower rates of quencing errors than most previous techniques4. The authors validated their method using targeted duplex quencing, a protocol that quences both strands of DNA to identify mutations at exceptionally high accuracy5. They suggest that the u of nuc-q to quence single-cell genomes, with validation by targeted deep quencing, will be instrumental in defining the genomic heterogeneity of cancers.
祝福公司
当细胞准备分裂时,细胞核内DNA会进行复制。通过筛选从而仅仅对新生的“双”核进行测序,nuc-q可以利用此类复制,获得比之前大部分的测序技术更低的测序错误率。研究
去湿气的方法者采用靶向双链测序验证了他们的方法,这是一种对DNA双链进行测序,以鉴定突变的方法,具有超高的准确性。他们认为,使用nuc-q对单细胞基因组进行测序,然后采用靶向深入测序进行验证,应该就可以将癌症中的基因组异质性检测出来。
To demonstrate this, Wang et al. ud their technique to quence the genomes of multiple single cells from two types of human breast cancer, and found that no two individual tumour cells were genetically identical. As well as the large numbers of mutations that are common to the majority of cells in a tumour, the authors uncovered an even greater number of subclonal and de novomutations (tho that are unique to individual cells). They also prent estimates, derived from mathematical models, of mutation rates of single cells within tumours. On the basis of the models, they show that distinct types of DNA alteration em to accumulate at different rates in different tumours, and suggest that two parate 'mutational clocks' operate in cancer. Large-scale, structural changes in DNA (such as amplification and deletion of large blocks of DNA) probably occur early in tumour development, in punctuated bursts of evolution, whereas point mutations may accumulate more gradually, generating extensive subclonal
diversity. The authors' findings indicate that slower-growing 'luminal' breast-cancer cells exhibit relatively low mutation rates, whereas cells from clinically more aggressive, 'triple-negative' breast cancers have mutation rates that are 13 times greater than in normal cells.
为了阐明这一点,Wang等人对两种类型的人乳腺癌中的多个单细胞基因组进行了测序,他们并没有发现在遗传学上一模一样的两个肿瘤细胞。除了证实在肿瘤中的大部分细胞都含有大量的突变,研究者还发现肿瘤细胞中含有更大量的亚克隆及从头突变现象(这在个体细胞中是很罕见的)。他们还使用数学方法对肿瘤组织单个细胞内的突变率进行了估算。基于这些模型与方法,他们发现,不同类型的DNA突变在不同肿瘤中以不同的速度累计,而且,在癌细胞内,有两种相互独立的“突变时钟”在运行。DNA内大规模的结构改变(例如大段DNA的扩增和缺失)可能会发生于肿瘤进展的早期,而点突变则是在进程中逐渐积累的。研究结果表明,生长速度更低的luminal亚型乳腺癌细胞的突变率也相对更低,而来自侵袭性更强的三重阴性乳腺癌细胞内的突变速率,则比正常细胞高出13倍。
我生命中的橄榄树
Nuc-q and comparable single-cell quencing methods6, 7, 8, 9 will allow a more
detailed understanding of mutational heterogeneity in individual tumours, and will influence our understanding of how cancers evolve and our approach to their treatment. In particular, mutational diversity within a tumour is likely to be predictive of whether resistance to a particular chemotherapy will emerge during treatment, becau mutations in genes that render cells resistant to specific drugs may exist before initiation of therapy. This has previously been documented for the failure of certain molecularly tailored cancer treatments10. Such findings also reinforce the fact that single, bulk sampling of a tumour — a strategy that is commonly ud to lect targeted therapies — is not reprentative of the tumour as a whole.时间之河
Nuc-q及其它相关测序方法可以帮助我们对个体肿瘤内的突变异质性有更加透彻的了解,也会促进我们探究癌症进展及相应治疗方法。尤其是肿瘤内的突变多样性有可能被用于预测在药物治疗中,是否会出现药物抗性,因为导致药物抗性的基因突变很可能在治疗前就已经存在了。这在一些化疗药物无法有效治疗癌症的实际应用中都有所记录。研究结果再一次说明了,单个大样品量的肿瘤组织检测——这是目前普遍用于选择靶向治疗方法的手段——并不能全面检测肿瘤的遗传学特点。
The total number of mutations that a tumour genome carries, including tho prent in only a small subt of cells, may in fact underlie the aggressiveness of different cancer subtypes. For example, the extent of genetic diversity within a tumour, and its divergence from normal tissue, probably influences the ability of the immune system to distinguish malignant cells from normal cells. Identifying the mechanisms by which cancer cells generate mutational heterogeneity may therefore prent previously unexplored therapeutic targets.
肿瘤基因组内所包含的所有突变数目,包括那些只在少数细胞出现的突变,很有可能决定了不同肿瘤亚型侵袭性的高低。例如,肿瘤内遗传多样性的程度及肿瘤组织和正常组织的区别,可能影响着免疫系统对正常细胞和恶性细胞的区分能力。因此,找出癌细胞产生突变异质性的机制,就有可能寻找到新的治疗靶点。
