Litcius/Paper detail

Gastrointestinal cancer organoids—applications in basic and translational cancer research

Therese Seidlitz, Daniel E. Stange

2021Experimental & Molecular Medicine48 citationsDOIOpen Access PDF

Abstract

Cancer is a major health problem and a leading cause of death worldwide. Early cancer detection and continuous changes in treatment strategies have improved overall patient survival. The recent development of targeted drugs offers new opportunities for personalized cancer treatment. Nevertheless, individualized treatment is accompanied by the need for biomarkers predicting the response of a patient to a certain drug. One of the most promising breakthroughs in recent years that might help to overcome this problem is the organoid technology. Organoid cultures exhibit self-renewal capacity, self-organization, and long-term proliferation, while recapitulating many aspects of their primary tissue. Generated patient-derived organoid (PDO) libraries constitute "living" biobanks, allowing the in-depth analysis of tissue function, development, tumor initiation, and cancer pathobiology. Organoids can be derived from all gastrointestinal tissues, including esophageal, gastric, liver, pancreatic, small intestinal and colorectal tissues, and cancers of these tissues. PDOs are amenable to various techniques, including sequencing analyses, drug screening, targeted therapy testing, tumor microenvironment studies, and genetic engineering capabilities. In this review, we discuss the different applications of gastrointestinal organoids in basic cancer biology and clinical translation.

Topics & Concepts

OrganoidBiobankCancerColorectal cancerTranslational researchGastrointestinal cancerMedicineDrug developmentPersonalized medicineDrug discoveryTumor microenvironmentTargeted therapyBioinformaticsCancer researchComputational biologyBiologyPathologyDrugInternal medicineNeurosciencePharmacologyCancer Cells and Metastasis3D Printing in Biomedical ResearchCancer Genomics and Diagnostics
Gastrointestinal cancer organoids—applications in basic and translational cancer research | Litcius