Ayesha A. Qureshi , Chase J. Wehrle , Sofia Ferreira-Gonzalez , Chunbao Jiao , Hanna Hong , Neda Dadgar , Jorge Arpi-Palacios , Yee Phoon Phong , Jaekeun Kim , Keyue Sun , Koji Hashimoto , David CH. Kwon , Charles Miller , Nic Leipzig , Wen Wee Ma , Jos Melenhorst , Federico Aucejo , Andrea Schlegel
{"title":"原发性肝癌的肿瘤组织实体:当前诊断、疾病建模和药物筛选应用的系统回顾","authors":"Ayesha A. Qureshi , Chase J. Wehrle , Sofia Ferreira-Gonzalez , Chunbao Jiao , Hanna Hong , Neda Dadgar , Jorge Arpi-Palacios , Yee Phoon Phong , Jaekeun Kim , Keyue Sun , Koji Hashimoto , David CH. Kwon , Charles Miller , Nic Leipzig , Wen Wee Ma , Jos Melenhorst , Federico Aucejo , Andrea Schlegel","doi":"10.1016/j.jhepr.2024.101164","DOIUrl":null,"url":null,"abstract":"<div><h3>Background & Aims</h3><div>Liver cancer-related deaths are projected to exceed one million annually by 2030. Existing therapies have significant limitations, including severe side effects and inconsistent efficacy. Innovative therapeutic approaches to address primary liver cancer (PLC) have led to the ongoing development of tumor-derived organoids. These are sophisticated three-dimensional structures capable of mimicking native tissue architecture and function <em>in vitro</em>, improving our ability to model <em>in vivo</em> homeostasis and disease.</div></div><div><h3>Methods</h3><div>This systematic review consolidates known literature on human and mouse liver organoids across all PLC subtypes, emphasizing diagnostic precision, disease modeling, and drug screening capabilities.</div></div><div><h3>Results</h3><div>Across all 39 included studies, organoids were most frequently patient-derived, closely followed by cancer cell line-derived. The literature concentrated on hepatocellular carcinoma and intrahepatic cholangiocarcinoma, while exploration of other subtypes was limited. These studies demonstrate a valuable role for PLC organoid cultures in biomarker discovery, disease modeling, and therapeutic exploration.</div></div><div><h3>Conclusions</h3><div>Encouraging advances such as organoid-on-a-chip and co-culturing systems hold promise for advancing treatment regimens for PLC. Standardizing <em>in vitro</em> protocols is crucial to integrate research breakthroughs into practical treatment strategies for PLC.</div></div><div><h3>Impact and implications:</h3><div>This study provides an overview of the current understanding of tumor-derived organoids in primary liver cancers, emphasizing their potential in diagnostics, disease modeling, and drug screening. The scientific foundation rests on the organoids' ability to replicate the tumor microenvironment and genetic landscape, opening new avenues for personalized therapies. These insights are crucial for both researchers and clinicians, as patient-derived organoids can help identify biomarkers and therapeutic targets. Physicians and policymakers can harness these advances to drive progress in precision medicine, while recognizing the challenges involved in standardizing organoid models for clinical implementation.</div></div>","PeriodicalId":14764,"journal":{"name":"JHEP Reports","volume":"6 12","pages":"Article 101164"},"PeriodicalIF":9.5000,"publicationDate":"2024-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Tumor organoids for primary liver cancers: A systematic review of current applications in diagnostics, disease modeling, and drug screening\",\"authors\":\"Ayesha A. Qureshi , Chase J. 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These are sophisticated three-dimensional structures capable of mimicking native tissue architecture and function <em>in vitro</em>, improving our ability to model <em>in vivo</em> homeostasis and disease.</div></div><div><h3>Methods</h3><div>This systematic review consolidates known literature on human and mouse liver organoids across all PLC subtypes, emphasizing diagnostic precision, disease modeling, and drug screening capabilities.</div></div><div><h3>Results</h3><div>Across all 39 included studies, organoids were most frequently patient-derived, closely followed by cancer cell line-derived. The literature concentrated on hepatocellular carcinoma and intrahepatic cholangiocarcinoma, while exploration of other subtypes was limited. These studies demonstrate a valuable role for PLC organoid cultures in biomarker discovery, disease modeling, and therapeutic exploration.</div></div><div><h3>Conclusions</h3><div>Encouraging advances such as organoid-on-a-chip and co-culturing systems hold promise for advancing treatment regimens for PLC. Standardizing <em>in vitro</em> protocols is crucial to integrate research breakthroughs into practical treatment strategies for PLC.</div></div><div><h3>Impact and implications:</h3><div>This study provides an overview of the current understanding of tumor-derived organoids in primary liver cancers, emphasizing their potential in diagnostics, disease modeling, and drug screening. The scientific foundation rests on the organoids' ability to replicate the tumor microenvironment and genetic landscape, opening new avenues for personalized therapies. 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Tumor organoids for primary liver cancers: A systematic review of current applications in diagnostics, disease modeling, and drug screening
Background & Aims
Liver cancer-related deaths are projected to exceed one million annually by 2030. Existing therapies have significant limitations, including severe side effects and inconsistent efficacy. Innovative therapeutic approaches to address primary liver cancer (PLC) have led to the ongoing development of tumor-derived organoids. These are sophisticated three-dimensional structures capable of mimicking native tissue architecture and function in vitro, improving our ability to model in vivo homeostasis and disease.
Methods
This systematic review consolidates known literature on human and mouse liver organoids across all PLC subtypes, emphasizing diagnostic precision, disease modeling, and drug screening capabilities.
Results
Across all 39 included studies, organoids were most frequently patient-derived, closely followed by cancer cell line-derived. The literature concentrated on hepatocellular carcinoma and intrahepatic cholangiocarcinoma, while exploration of other subtypes was limited. These studies demonstrate a valuable role for PLC organoid cultures in biomarker discovery, disease modeling, and therapeutic exploration.
Conclusions
Encouraging advances such as organoid-on-a-chip and co-culturing systems hold promise for advancing treatment regimens for PLC. Standardizing in vitro protocols is crucial to integrate research breakthroughs into practical treatment strategies for PLC.
Impact and implications:
This study provides an overview of the current understanding of tumor-derived organoids in primary liver cancers, emphasizing their potential in diagnostics, disease modeling, and drug screening. The scientific foundation rests on the organoids' ability to replicate the tumor microenvironment and genetic landscape, opening new avenues for personalized therapies. These insights are crucial for both researchers and clinicians, as patient-derived organoids can help identify biomarkers and therapeutic targets. Physicians and policymakers can harness these advances to drive progress in precision medicine, while recognizing the challenges involved in standardizing organoid models for clinical implementation.
期刊介绍:
JHEP Reports is an open access journal that is affiliated with the European Association for the Study of the Liver (EASL). It serves as a companion journal to the highly respected Journal of Hepatology.
The primary objective of JHEP Reports is to publish original papers and reviews that contribute to the advancement of knowledge in the field of liver diseases. The journal covers a wide range of topics, including basic, translational, and clinical research. It also focuses on global issues in hepatology, with particular emphasis on areas such as clinical trials, novel diagnostics, precision medicine and therapeutics, cancer research, cellular and molecular studies, artificial intelligence, microbiome research, epidemiology, and cutting-edge technologies.
In summary, JHEP Reports is dedicated to promoting scientific discoveries and innovations in liver diseases through the publication of high-quality research papers and reviews covering various aspects of hepatology.