A microenvironment-inspired synthetic three-dimensional model for pancreatic ductal adenocarcinoma organoids

Below, Christopher R.; Kelly, Jane; Brown, Alan; Humphries, Jonathan D.; Hutton, Colin; Xu, Jiaolong; Lee, Brian Y.; Cintas, Celia; Zhang, Xiaohong; Hernandez-Gordillo, Victor; Stockdale, Linda; Goldsworthy, Matthew A.; Geraghty, Joe; Foster, Lucy; O’Reilly, Derek; Schedding, Barbara; Askari, Janet A.; Burns, Jessica; Hodson, Nigel; Smith, Duncan L.; Lally, Catherine; Ashton, Garry; Knight, David; Mironov, Aleksandr; Banyard, Antonia; Eble, Johannes A.; Morton, Jennifer P.; Griffith, Linda G.; Jørgensen, Claus

doi:10.1038/s41563-021-01085-1

Cited by 93 publications

(94 citation statements)

References 69 publications

(80 reference statements)

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“…There are many ongoing efforts in the field, including our own ( https://precode-project.eu/ ) trying to improve aspects of the organoid technology. For example, a recent report from the Jørgensen’ group ( Below et al, 2021 ) described a fully-synthetic hydrogel that supported tumour organoid propagation and co-cultivation with stromal elements, thus promising to be transformative for the field. Moreover, modifying medium formulations can “push organoids back” to a phenotype that more accurately resembles their origins ( Raghavan et al, 2021 ).…”

Section: Organoids: a 3d Platform To Model Pdac Initiation And Progressionmentioning

confidence: 99%

Cell Lineage Infidelity in PDAC Progression and Therapy Resistance

Malinova

Veghini

Real

et al. 2021

Front. Cell Dev. Biol.

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Infidelity to cell fate occurs when differentiated cells lose their original identity and either revert to a more multipotent state or transdifferentiate into a different cell type, either within the same embryonic lineage or in an entirely different one. Whilst in certain circumstances, such as in wound repair, this process is beneficial, it can be hijacked by cancer cells to drive disease initiation and progression. Cell phenotype switching has been shown to also serve as a mechanism of drug resistance in some epithelial cancers. In pancreatic ductal adenocarcinoma (PDAC), the role of lineage infidelity and phenotype switching is still unclear. Two consensus molecular subtypes of PDAC have been proposed that mainly reflect the existence of cell lineages with different degrees of fidelity to pancreatic endodermal precursors. Indeed, the classical subtype of PDAC is characterised by the expression of endodermal lineage specifying transcription factors, while the more aggressive basal-like/squamous subtype is defined by epigenetic downregulation of endodermal genes and alterations in chromatin modifiers. Here, we summarise the current knowledge of mechanisms (genetic and epigenetic) of cell fate switching in PDAC and discuss how pancreatic organoids might help increase our understanding of both cell-intrinsic and cell-extrinsic factors governing lineage infidelity during the distinct phases of PDAC evolution.

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Section: Organoids: a 3d Platform To Model Pdac Initiation And Progressionmentioning

confidence: 99%

Cell Lineage Infidelity in PDAC Progression and Therapy Resistance

Malinova

Veghini

Real

et al. 2021

Front. Cell Dev. Biol.

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“…Additionally, the amount of RGD and/or other adhesion molecules in the gel can be titrated independently of the gel’s density and stiffness. This system has been used to model stromal cell interactions with melanoma cells by the Anseth group, demonstrating that the incorporation of fibroblasts decreased the proliferation and cluster size but increased the invasion of the melanoma cells [ 53 ], and to closely mimic the in situ, stiffness, and stromal cell cues on pancreatic ductal adenocarcinoma organoids by the Griffith and Jorgenson groups [ 54 ].…”

Section: Commonly Used Materialsmentioning

confidence: 99%

Reductionist Three-Dimensional Tumor Microenvironment Models in Synthetic Hydrogels

Katz

West

2022

Cancers

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The tumor microenvironment (TME) plays a determining role in everything from disease progression to drug resistance. As such, in vitro models which can recapitulate the cell–cell and cell–matrix interactions that occur in situ are key to the investigation of tumor behavior and selecting effective therapeutic drugs. While naturally derived matrices can retain the dimensionality of the native TME, they lack tunability and batch-to-batch consistency. As such, many synthetic polymer systems have been employed to create physiologically relevant TME cultures. In this review, we discussed the common semi-synthetic and synthetic polymers used as hydrogel matrices for tumor models. We reviewed studies in synthetic hydrogels which investigated tumor cell interactions with vasculature and immune cells. Finally, we reviewed the utility of these models as chemotherapeutic drug-screening platforms, as well as the future directions of the field.

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“…Based on this, the new synthetic scaffold uses eight-arm adhesion-linker pre-functionalized vinyl sulfone-activated PEG macromer (f-PEG-vs) based hydrogel system which is sensitive to matrix metalloproteinase (MMP). The system contains the fibrillar analogue FN-mimetic peptide PHSRN-K-RGD, collagen analogue the GFOGER peptide, and a BM-binding peptide which maintains cell secreted matricellular proteins to the greatest extent ( Below et al, 2022 ). The new system may provide some hints for whether a more accurate ECM for endometrial organoid and stromal cells growth and expansion can be established.…”

Section: Coculture Models With Human Stromamentioning

confidence: 99%

Human Endometrial Organoids: Recent Research Progress and Potential Applications

Lou

Kong

Sun

et al. 2022

Front. Cell Dev. Biol.

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Since traditional two-dimensional (2D) cell culture cannot meet the demand of simulating physiological conditions in vivo, three-dimensional (3D) culture systems have been developed. To date, most of these systems have been applied for the culture of gastrointestinal and neural tissue. As for the female reproductive system, the culture of endometrial and oviductal tissues in Matrigel has also been performed, but there are still some problems that remain unsolved. This review highlights recent progress regarding endometrial organoids, focusing on the signal for organoid derivation and maintenance, the coculture of the epithelium and stroma, the drug screening using organoids from cancer patients, and provides a potential guideline for genome editing in endometrial organoids.

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A microenvironment-inspired synthetic three-dimensional model for pancreatic ductal adenocarcinoma organoids

Cited by 93 publications

References 69 publications

Cell Lineage Infidelity in PDAC Progression and Therapy Resistance

Cell Lineage Infidelity in PDAC Progression and Therapy Resistance

Reductionist Three-Dimensional Tumor Microenvironment Models in Synthetic Hydrogels

Human Endometrial Organoids: Recent Research Progress and Potential Applications

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