Adaptable haemodynamic endothelial cells for organogenesis and tumorigenesis

Palikuqi, Brisa; Nguyen, Duc-Huy T.; Li, Ge; Schreiner, Ryan; Pellegata, Alessandro Filippo; Liu, Ying; Redmond, David; Geng, Fuqiang; Yang, Lin; Gómez-Salinero, Jesús M.; Yokoyama, Masataka; Zumbo, Paul; Zhang, Tuo; Kunar, Balvir; Witherspoon, Mavee; Han, Teng; Tedeschi, A; Scottoni, Federico; Lipkin, Steven M.; Dow, Lukas E.; Elemento, Olivier; Xiang, Jenny; Shido, Koji; Spence, Jason R.; Zhou, Qiao; Schwartz, Robert E.; Coppi, Paolo De; Rabbany, Sina Y.; Rafii, Shahin

doi:10.1038/s41586-020-2712-z

Cited by 176 publications

(131 citation statements)

References 49 publications

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“…Endothelial progenitor cells (EPC) harvested as endothelial colony-forming cells (ECFC) from cord blood can also be used, but those from adult peripheral blood exhibit limited proliferation potential (Ferratge et al, 2017). Recently, Palikuqi et al (2020) reported "reset" vascular EC that transiently express ETS variant transcription factor 2 (ETV2) and that self-assemble into vascular networks and arborized cancerous human colon organoids. Quite remarkably, only cells from human origin are used in relevant 3D models; while isolation and culture of mouse EC have been developed for years now, their ability to form capillaries has proven to be more challenging (Nowak-Sliwinska et al, 2018).…”

Section: Endothelial Cellsmentioning

confidence: 99%

“…Quite remarkably, using mixtures of Matrigel TM with natural polymers like fibrin turned out to noticeably improve capillary formation and resulted in efficient inosculation with the host vasculature and further blood perfusion after implantation in mice (Laib et al, 2009). Recently, Palikuqi et al (2020) developed matrices made of mixture of laminin, entactin, and collagen IV that support vasculogenesis.…”

Section: Natural Polymers For Hydrogelsmentioning

confidence: 99%

“…Frontiers in Cell and Developmental Biology | www.frontiersin.org often respond very differently to the same microenvironment cues. Thus, efficient and robust induction of EC from human pluripotent stem cells and multiple human iPSC lines or reset EC might also constitute a renewable and infinite cell source (Jahan and McCloskey, 2020;Palikuqi et al, 2020). These findings open new perspectives which should facilitate the study of epigenetic changes in human cancer and angiogenesis studies using preclinical complex in vitro 3D systems.…”

Section: Induced Pluripotent Stem Cellsmentioning

confidence: 99%

See 2 more Smart Citations

In vitro 3D Systems to Model Tumor Angiogenesis and Interactions With Stromal Cells

Brassard-Jollive

Monnot

Muller

et al. 2020

Front. Cell Dev. Biol.

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Section: Endothelial Cellsmentioning

confidence: 99%

Section: Natural Polymers For Hydrogelsmentioning

confidence: 99%

Section: Induced Pluripotent Stem Cellsmentioning

confidence: 99%

See 1 more Smart Citation

In vitro 3D Systems to Model Tumor Angiogenesis and Interactions With Stromal Cells

Brassard-Jollive

Monnot

Muller

et al. 2020

Front. Cell Dev. Biol.

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“…However, in such approaches, endothelial cells may not always be free to interact with tumor cells because of the artificial membranes used in the organ-on-a-chip devices. To address this issue, endothelial cells were modified to produce 'reset' vascular endothelial cells (R-VECs) that grew into 3D branching vessels capable of transporting human blood in microfluidic chambers and when transplanted into mice (Palikuqi et al, 2020). These R-VECs adapted their growth upon their coculture with either normal colon organoids or patient-derived colorectal organoids.…”

Section: Angiogenesis and Cancer Cell Intravasationmentioning

confidence: 99%

Organotypic Modeling of the Tumor Landscape

Haykal

Nahmias

Varon

et al. 2020

Front. Cell Dev. Biol.

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Cancer is a complex disease and it is now clear that not only epithelial tumor cells play a role in carcinogenesis. The tumor microenvironment is composed of non-stromal cells, including endothelial cells, adipocytes, immune and nerve cells, and a stromal compartment composed of extracellular matrix, cancer-associated fibroblasts and mesenchymal cells. Tumorigenesis is a dynamic process with constant interactions occurring between the tumor cells and their surroundings. Even though all connections have not yet been discovered, it is now known that crosstalk between actors of the microenvironment drives cancer progression. Taking into account this complexity, it is important to develop relevant models to study carcinogenesis. Conventional 2D culture models fail to represent the entire tumor microenvironment properly and the use of animal models should be decreased with respect to the 3Rs rule. To this aim, in vitro organotypic models have been significantly developed these past few years. These models have different levels of complexity and allow the study of tumor cells alone or in interaction with the microenvironment actors during the multiple stages of carcinogenesis. This review depicts recent insights into organotypic modeling of the tumor and its microenvironment all throughout cancer progression. It offers an overview of the crosstalk between epithelial cancer cells and their microenvironment during the different phases of carcinogenesis, from the early cell autonomous events to the late metastatic stages. The advantages of 3D over classical 2D or in vivo models are presented as well as the most promising organotypic models. A particular focus is made on organotypic models used for studying cancer progression, from the less complex spheroids to the more sophisticated body-on-a-chip. Last but not least, we address the potential benefits of these models in personalized medicine which is undoubtedly a domain paving the path to new hopes in terms of cancer care and cure.

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“…In organoids and tumoroids, complicated structures of organs and tumors can be reconstructed in vitro. For example, tumor microenvironment such as vasculatures [16,17], immune cells [12], fibroblastic stromal cells, and normal epithelial cells can be reconstructed in vitro within organoids and tumoroids [18][19][20]; (6) Gene expression signatures, molecular profiles, and secretory phenotypes are particular in 3D tumoroids according to their physical properties, e.g., moonlighting metalloproteinases (MMPs) [6,13,[21][22][23], ATP-binding cassette (ABC) transporters including ABC-G1 and ABC-G2 [15], and intercellular adhesion molecules such as EpCAM/CD326 and E-cadherin [7,12], stem cell markers such as CD44 variants and CD133 [7], other factors potentially involving stemness such as ESRP1/2, MUC1, and Notch/delta signal [7]. The molecular profiles of tumoroids involve properties of CSCs [7].…”

Section: Introductionmentioning

confidence: 99%

Liquid-based 3D Cultured Tumoroids Modeling Resistance to Cisplatin and Imatinib in Metastatic Colorectal Cancer

Sogawa¹,

Eguchi²,

Namba³

et al. 2020

Preprint

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Researchers have developed and used several three-dimensional (3D) culture systems, including spheroids, organoids, and tumoroids. Drug resistance is a crucial issue involving recurrence in cancer patients. Many studies on anticancer drugs have been done in 2D culture systems, where-as 3D cultured tumoroids have many advantages for assessing drug sensitivity and resistance. Here, we aim to investigate whether Cisplatin (a DNA crosslinker), Imatinib (a multiple tyro-sine kinase inhibitor), and 5-Fluorouracil (5-FU: an antimetabolite) alter tumoroid growth of metastatic colorectal cancer (mCRC). To establish a liquid-based 3D multiplexing reporter assay system, LuM1 (a murine mCRC cell line) was stably transfected with the Mmp9 promoter-driven ZsGreen reporter gene, which was designated as LuM1/m9 cells and cultured in NanoCulture Plate (NCP), a 3D culture device. The larger tumoroids were not sensitive to Cisplatin and ex-pressed ABCG2 (a marker of cancer stem cells, a.k.a. a drug efflux transporter), whereas smaller cell-aggregates were more sensitive to Cisplatin. Both Imatinib and Cisplatin significantly in-creased tumoroid growth (larger than 300 μm2) and Mmp9 promoter activity and were not cytotoxic to the mCRC tumoroids. On the other hand, 5-FU was cytotoxic to the tumoroids and significantly inhibited tumoroid growth, although not completely. Thus, platinum resistance and imatinib resistance in mCRC were modeled using the liquid-based 3D cultured tumoroid system. The tumoroid culture is useful and easily accessible for the assessment of drug sensitivity and resistance.

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Adaptable haemodynamic endothelial cells for organogenesis and tumorigenesis

Cited by 176 publications

References 49 publications

In vitro 3D Systems to Model Tumor Angiogenesis and Interactions With Stromal Cells

In vitro 3D Systems to Model Tumor Angiogenesis and Interactions With Stromal Cells

Organotypic Modeling of the Tumor Landscape

Liquid-based 3D Cultured Tumoroids Modeling Resistance to Cisplatin and Imatinib in Metastatic Colorectal Cancer

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