Beijing Advanced Innovation Center for Genomics, Department of General Surgery, College of Life Sciences, Third Hospital, Peking University, Beijing, China.
Biomedical Pioneering Innovation Center & Ministry of Education Key Laboratory of Cell Proliferation and Differentiation, Beijing, China.
Gut. 2020 Jul;69(7):1283-1293. doi: 10.1136/gutjnl-2019-319438. Epub 2019 Nov 19.
Familial adenomatous polyposis (FAP) is characterised by the development of hundreds to thousands of adenomas at different evolutionary stages in the colon and rectum that will inevitably progress to adenocarcinomas if left untreated. Here, we investigated the genetic alterations and transcriptomic transitions from precancerous adenoma to carcinoma.
Whole-exome sequencing, whole-genome sequencing and single-cell RNA sequencing were performed on matched adjacent normal tissues, multiregionally sampled adenomas at different stages and carcinomas from six patients with FAP and one patient with -associated polyposis (n=56 exomes, n=56 genomes and n=8,757 single cells). Genomic alterations (including copy number alterations and somatic mutations), clonal architectures and transcriptome dynamics during adenocarcinoma carcinogenesis were comprehensively investigated.
Genomic evolutionary analysis showed that adjacent lesions from the same patient with FAP can originate from the same cancer-primed cell. In addition, the tricarboxylic acid cycle pathway was strongly repressed in adenomas and was then slightly alleviated in carcinomas. Cells from the 'normal' colon epithelium of patients with FAP already showed metabolic reprogramming compared with cells from the normal colon epithelium of patients with sporadic colorectal cancer.
The process described in the previously reported field cancerisation model also occurs in patients with FAP and can contribute to the formation of adjacent lesions in patients with FAP. Reprogramming of carbohydrate metabolism has already occurred at the precancerous adenoma stage. Our study provides an accurate picture of the genomic and transcriptomic landscapes during the initiation and progression of carcinogenesis, especially during the transition from adenoma to carcinoma.
家族性腺瘤性息肉病(FAP)的特征是在结肠和直肠的不同进化阶段发展出数百到数千个腺瘤,如果不治疗,这些腺瘤将不可避免地进展为腺癌。在这里,我们研究了从癌前腺瘤到癌的遗传改变和转录组转变。
对 6 名 FAP 患者和 1 名相关息肉病患者的匹配相邻正常组织、多区域取样的不同阶段腺瘤和癌组织进行了全外显子组测序、全基因组测序和单细胞 RNA 测序(n=56 个外显子组、n=56 个基因组和 n=8757 个单细胞)。全面研究了腺癌发生过程中的基因组改变(包括拷贝数改变和体细胞突变)、克隆结构和转录组动态。
基因组进化分析表明,来自同一 FAP 患者的相邻病变可能起源于同一癌前细胞。此外,三羧酸循环途径在腺瘤中受到强烈抑制,然后在癌中略有缓解。与散发性结直肠癌患者的正常结肠上皮细胞相比,FAP 患者的“正常”结肠上皮细胞已经表现出代谢重编程。
以前报道的局灶癌变模型中描述的过程也发生在 FAP 患者中,并可能导致 FAP 患者相邻病变的形成。糖代谢的重编程已经发生在癌前腺瘤阶段。我们的研究提供了在致癌发生的起始和进展过程中,特别是在从腺瘤到癌的转变过程中,基因组和转录组景观的准确图像。
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