错配修复缺陷型结直肠癌的类器官和转移性原位小鼠模型

Organoids and metastatic orthotopic mouse model for mismatch repair-deficient colorectal cancer.

作者信息

Song Yurong, Kerr Travis D, Sanders Chelsea, Dai Lisheng, Baxter Shaneen S, Somerville Brandon, Baugher Ryan N, Mellott Stephanie D, Young Todd B, Lawhorn Heidi E, Plona Teri M, Xu Bingfang, Wei Lei, Hu Qiang, Liu Song, Hutson Alan, Karim Baktiar, Burkett Sandra, Difilippantonio Simone, Pinto Ligia, Gebert Johannes, Kloor Matthias, Lipkin Steven M, Sei Shizuko, Shoemaker Robert H

机构信息

Frederick National Laboratory for Cancer Research, Vaccine, Immunity, and Cancer Directorate, Frederick, MD, United States.

Frederick National Laboratory for Cancer Research, Laboratory Animal Sciences Program, Frederick, MD, United States.

出版信息

Front Oncol. 2023 Sep 8;13:1223915. doi: 10.3389/fonc.2023.1223915. eCollection 2023.

DOI:10.3389/fonc.2023.1223915

PMID:37746286

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10516605/

Abstract

BACKGROUND

Genome integrity is essential for the survival of an organism. DNA mismatch repair (MMR) genes (e.g., , and ) play a critical role in the DNA damage response pathway for genome integrity maintenance. Germline mutations of MMR genes can lead to Lynch syndrome or constitutional mismatch repair deficiency syndrome, resulting in an increased lifetime risk of developing cancer characterized by high microsatellite instability (MSI-H) and high mutation burden. Although immunotherapy has been approved for MMR-deficient (MMRd) cancer patients, the overall response rate needs to be improved and other management options are needed.

METHODS

To better understand the biology of MMRd cancers, elucidate the resistance mechanisms to immune modulation, and develop vaccines and therapeutic testing platforms for this high-risk population, we generated organoids and an orthotopic mouse model from intestine tumors developed in a Msh2-deficient mouse model, and followed with a detailed characterization.

RESULTS

The organoids were shown to be of epithelial origin with stem cell features, to have a high frameshift mutation frequency with MSI-H and chromosome instability, and intra- and inter-tumor heterogeneity. An orthotopic model using intra-cecal implantation of tumor fragments derived from organoids showed progressive tumor growth, resulting in the development of adenocarcinomas mixed with mucinous features and distant metastasis in liver and lymph node.

CONCLUSIONS

The established organoids with characteristics of MSI-H cancers can be used to study MMRd cancer biology. The orthotopic model, with its distant metastasis and expressing frameshift peptides, is suitable for evaluating the efficacy of neoantigen-based vaccines or anticancer drugs in combination with other therapies.

摘要

背景

基因组完整性对于生物体的生存至关重要。DNA错配修复（MMR）基因（例如，、和）在维持基因组完整性的DNA损伤反应途径中起关键作用。MMR基因的种系突变可导致林奇综合征或遗传性错配修复缺陷综合征，从而增加患以高微卫星不稳定性（MSI-H）和高突变负担为特征的癌症的终生风险。尽管免疫疗法已被批准用于MMR缺陷（MMRd）癌症患者，但总体缓解率仍需提高，还需要其他治疗方案。

方法

为了更好地了解MMRd癌症的生物学特性，阐明对免疫调节的耐药机制，并为这一高危人群开发疫苗和治疗测试平台，我们从Msh2缺陷小鼠模型中产生的肠道肿瘤中生成了类器官和原位小鼠模型，并进行了详细的表征。

结果

这些类器官显示为具有干细胞特征的上皮来源，具有高移码突变频率、MSI-H和染色体不稳定性，以及肿瘤内和肿瘤间的异质性。使用源自类器官的肿瘤片段进行盲肠内植入的原位模型显示肿瘤进行性生长，导致腺癌的发展，并伴有黏液样特征以及肝和淋巴结的远处转移。

结论

所建立的具有MSI-H癌症特征的类器官可用于研究MMRd癌症生物学。该原位模型具有远处转移并表达移码肽，适用于评估基于新抗原的疫苗或抗癌药物与其他疗法联合使用的疗效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5a4/10516605/3bc07fceec3d/fonc-13-1223915-g001.jpg

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错配修复缺陷型结直肠癌的类器官和转移性原位小鼠模型

Organoids and metastatic orthotopic mouse model for mismatch repair-deficient colorectal cancer.

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CONCLUSIONS

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方法

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