Metastatic niche in organoid models.
The mortality rate of cancer patients remains high, mainly due to the lack of metastasis-tailored treatments, highlighting the need for alternative experimental approaches that capture metastatic development in a human context.
Human-induced pluripotent stem cell derived organoids cocultured with cancer cells (‘chimeroids’) have the potential to emulate aspects of colonized organ specific microenvironments and offer an alternative platform for target identification and drug discovery, as these models are amenable to scalable genetic and chemical perturbation screens.
Conceptually, organoid models have progressed from epithelial-only organoids to multilineage, niche enriched systems incorporating stromal, vascular, and tissue-resident immune components, thereby bringing in vitro models closer to organ-specific metastatic microenvironments.
Yet no single organoid model fully recapitulates the entire complexity of an organ in vivo; thus, model selection must be driven by the specific scientific question, ensuring that the relevant stage of metastatic development and organ microenvironment are appropriately represented. ScienceMission sciencenewshighlights https://sciencemission.com/organoid-models-emulating-metastatic-niches
Metastases cause most cancer-related deaths, underscoring the need for therapies targeting metastatic stages, including the tumor microenvironment. Yet translating biological insights into treatments remains difficult. Preclinical metastasis research largely relies on rodent models, which have species-specific limitations and are incompatible with large-scale perturbation screens in a human context. Human organoids aim to emulate organ microenvironments in vitro and, when cocultured with cancer cells, can provide complementary models. These ‘chimeroids’ may enable scalable studies of cancer–microenvironment interactions and support genetic and pharmacological screens to discover new targets, offering insights into the final, often lethal step of metastasis—tissue colonization.
