Exploiting a living biobank to delineate mechanisms underlying disease-specific chromosome instability.

IF 2.4 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Chromosome Research Pub Date : 2023-08-17 DOI:10.1007/s10577-023-09731-x
Louisa Nelson, Bethany M Barnes, Anthony Tighe, Samantha Littler, Camilla Coulson-Gilmer, Anya Golder, Sudha Desai, Robert D Morgan, Joanne C McGrail, Stephen S Taylor
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Abstract

Chromosome instability (CIN) is a cancer hallmark that drives tumour heterogeneity, phenotypic adaptation, drug resistance and poor prognosis. High-grade serous ovarian cancer (HGSOC), one of the most chromosomally unstable tumour types, has a 5-year survival rate of only ~30% - largely due to late diagnosis and rapid development of drug resistance, e.g., via CIN-driven ABCB1 translocations. However, CIN is also a cell cycle vulnerability that can be exploited to specifically target tumour cells, illustrated by the success of PARP inhibitors to target homologous recombination deficiency (HRD). However, a lack of appropriate models with ongoing CIN has been a barrier to fully exploiting disease-specific CIN mechanisms. This barrier is now being overcome with the development of patient-derived cell cultures and organoids. In this review, we describe our progress building a Living Biobank of over 120 patient-derived ovarian cancer models (OCMs), predominantly from HGSOC. OCMs are highly purified tumour fractions with extensive proliferative potential that can be analysed at early passage. OCMs have diverse karyotypes, display intra- and inter-patient heterogeneity and mitotic abnormality rates far higher than established cell lines. OCMs encompass a broad-spectrum of HGSOC hallmarks, including a range of p53 alterations and BRCA1/2 mutations, and display drug resistance mechanisms seen in the clinic, e.g., ABCB1 translocations and BRCA2 reversion. OCMs are amenable to functional analysis, drug-sensitivity profiling, and multi-omics, including single-cell next-generation sequencing, and thus represent a platform for delineating HGSOC-specific CIN mechanisms. In turn, our vision is that this understanding will inform the design of new therapeutic strategies.

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利用活体生物库来描述疾病特异性染色体不稳定的潜在机制。
染色体不稳定性(CIN)是癌症的一个标志,它导致肿瘤异质性、表型适应、耐药性和预后不良。高粒径浆液性癌症(HGSOC)是染色体最不稳定的肿瘤类型之一,其5年生存率仅为约30%,这主要是由于诊断较晚和耐药性迅速发展,例如通过CIN驱动的ABCB1易位。然而,CIN也是一种细胞周期脆弱性,可以用来特异性靶向肿瘤细胞,PARP抑制剂成功靶向同源重组缺陷(HRD)就说明了这一点。然而,缺乏合适的持续CIN模型一直是充分利用疾病特异性CIN机制的障碍。随着患者来源的细胞培养物和类器官的发展,这一障碍正在被克服。在这篇综述中,我们描述了我们建立一个由120多个患者衍生的癌症模型(OCM)组成的活体生物库的进展,这些模型主要来自HGSOC。OCMs是高度纯化的肿瘤组分,具有广泛的增殖潜力,可以在早期传代时进行分析。OCMs具有不同的核型,显示出患者内和患者间的异质性,有丝分裂异常率远高于已建立的细胞系。OCMs包含广泛的HGSOC特征,包括一系列p53改变和BRCA1/2突变,并显示出临床上可见的耐药性机制,例如ABCB1易位和BRCA2逆转。OCM适用于功能分析、药物敏感性分析和多组学,包括单细胞下一代测序,因此代表了描述HGSOC特异性CIN机制的平台。反过来,我们的愿景是,这种理解将为新的治疗策略的设计提供信息。
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来源期刊
Chromosome Research
Chromosome Research 生物-生化与分子生物学
CiteScore
4.70
自引率
3.80%
发文量
31
审稿时长
1 months
期刊介绍: Chromosome Research publishes manuscripts from work based on all organisms and encourages submissions in the following areas including, but not limited, to: · Chromosomes and their linkage to diseases; · Chromosome organization within the nucleus; · Chromatin biology (transcription, non-coding RNA, etc); · Chromosome structure, function and mechanics; · Chromosome and DNA repair; · Epigenetic chromosomal functions (centromeres, telomeres, replication, imprinting, dosage compensation, sex determination, chromosome remodeling); · Architectural/epigenomic organization of the genome; · Functional annotation of the genome; · Functional and comparative genomics in plants and animals; · Karyology studies that help resolve difficult taxonomic problems or that provide clues to fundamental mechanisms of genome and karyotype evolution in plants and animals; · Mitosis and Meiosis; · Cancer cytogenomics.
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