Xenograft and organoid model systems in cancer research

Bleijs, Margit; Wetering, Marc van de; Clevers, Hans; Drost, Jarno

doi:10.15252/embj.2019101654

Cited by 304 publications

(274 citation statements)

References 99 publications

(208 reference statements)

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“…As limitation, functional studies have largely been restricted to cancer cell lines, which often fall short in predicting the role of alterations in individual human tumors (7). To approximate the situation of the patient, the predictive power of primary tumor cell cultures (8) and organoids (9) is currently under intense investigation (10). For mirroring the clinical situation even closer, patient derived xenograft (PDX) mouse models have been demonstrated to faithfully recapitulate the complexity of tumors in humans.…”

Section: Main Textmentioning

confidence: 99%

In vivoinducible reverse genetics in patients’ tumors to identify individual therapeutic targets

Carlet

Völse

Vergalli

et al. 2020

Preprint

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High-throughput sequencing describes multiple alterations in each tumor (1), but their functional relevance is often unclear. Clinic-close, individualized molecular model systems are required for functional validation and to identify therapeutic targets of high significance for each patient (2). Here, we established a Cre-ER T 2 -loxP based inducible RNAi-mediated gene silencing system in patient-derived xenograft (PDX) models of acute leukemias in vivo. Mimicking anti-cancer therapy in patients, gene inhibition was initiated in mice harboring orthotopic tumors. Fluorochrome guided, competitive in vivo trials identified a major tumor-maintaining potency of the MLL-AF4 fusion protein and validated MCL1 as vulnerability in some, but not all patients' tumors. We could prove DUX4 to play an essential role in patients' leukemias carrying the recently described DUX4-IGH translocation. By individualizing functional genomics in established tumors in vivo, our technique decisively complements the value chain of precision oncology. Being broadly applicable to tumors of all kinds, it will considerably reinforce personalizing anti-cancer treatment in the future. target validation | PDX models of acute leukemia | inducible RNAi | Cre-loxP | MLL-AF4 | MCL1 | DUX4-IGH Correspondence: irmela.jeremias@helmholtz-muenchen.de

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Section: Main Textmentioning

confidence: 99%

In vivoinducible reverse genetics in patients’ tumors to identify individual therapeutic targets

Carlet

Völse

Vergalli

et al. 2020

Preprint

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“…В общем эффективность получения опухолевых клонов при перевивке животным выше по сравнению с попытками получения клеточных культур. По-видимому, это связано с тем, что живые организмы обеспечивают более благоприятные условия для поддержания жизнеспособности пересаженных клеток [46,48,49]. Опухолевые клеточные линии и ксенографты, как правило, сохраняют драйверные мутации, которые послужили причиной злокачественной трансформации.…”

Section: персонализированные Ex Vivo модели опухолейunclassified

Molecular diagnostics in oncology: new trends

Imyanitov

Наумович²

2020

Medical academic journal

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Molecular diagnostics is a mandatory component of modern clinical oncology. The most known examples of molecular diagnostic procedures include the detection of hereditary cancer syndromes and the analysis of somatic drug-sensitizing mutations in protein kinases. Advances in cancer research as well as the development of new technologies led to emergence of new trends in this area of medicine. The invention of next generation sequencing (NGS) has a potential to dramatically change the landscape of molecular diagnostics. NGS allows to significantly improve the efficiency and availability of genetic testing for hereditary cancers as well as to undertake comprehensive tumor mutation profiling to guide the therapy choice. Tumors usually change their properties during therapeutic intervention. Monitoring of these properties is important for proper selection of further treatment options. So-called liquid biopsy is essential for this purpose, as it allows to detect key molecular features of the tumors by a non-invasive approach. There is an increasing popularity of ex vivo tumor models, which allow to cultivate tumor cells and to select the therapy based on the results of drug sensitivity tests.

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“…However, it is technically difficult to extract and analyze such interstitial tissue in vitro. In this regard, the development of organoid cultures, in which cells are cultured as a single structure rather than being dispersed and cultured, has attracted considerable attention [9,25,26].…”

Section: Technologies To Search For Drug Targets In Cancer Stromal Timentioning

confidence: 99%

Search for drug discovery targets focusing on cancer stroma

Kamada

2019

Translational and Regulatory Sciences

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In recent years, it has become clear that the interstitial tissue structure varies markedly between the normal healthy state and various disease states. Focusing on differences in interstitial structure is expected to lead to the discovery of new targets for drugs. Considerable attention is currently focused on approaches that utilize organoids. The organoids retain the structure of the tissue, thereby facilitating identification of drugs that target interstitial tissues including neovascular vessels. Furthermore, protein expression analysis techniques have been developed that focus on the tissue structure based on an approach using chemical proteomics. In this mini-review, we will summarize the latest technological innovations aimed at identifying target molecules that are useful for the development of biopharmaceuticals, including antibody drugs.

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Xenograft and organoid model systems in cancer research

Cited by 304 publications

References 99 publications

In vivoinducible reverse genetics in patients’ tumors to identify individual therapeutic targets

In vivoinducible reverse genetics in patients’ tumors to identify individual therapeutic targets

Molecular diagnostics in oncology: new trends

Search for drug discovery targets focusing on cancer stroma

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