Carrie Maynard scite author profile

SummaryMost cancer cells release heterogeneous populations of extracellular vesicles (EVs) containing proteins, lipids, and nucleic acids. In vitro experiments showed that EV uptake can lead to transfer of functional mRNA and altered cellular behavior. However, similar in vivo experiments remain challenging because cells that take up EVs cannot be discriminated from non-EV-receiving cells. Here, we used the Cre-LoxP system to directly identify tumor cells that take up EVs in vivo. We show that EVs released by malignant tumor cells are taken up by less malignant tumor cells located within the same and within distant tumors and that these EVs carry mRNAs involved in migration and metastasis. By intravital imaging, we show that the less malignant tumor cells that take up EVs display enhanced migratory behavior and metastatic capacity. We postulate that tumor cells locally and systemically share molecules carried by EVs in vivo and that this affects cellular behavior.

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Plasticity between Epithelial and Mesenchymal States Unlinks EMT from Metastasis-Enhancing Stem Cell Capacity

Beerling

et al. 2016

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SummaryForced overexpression and/or downregulation of proteins regulating epithelial-to-mesenchymal transition (EMT) has been reported to alter metastasis by changing migration and stem cell capacity of tumor cells. However, these manipulations artificially keep cells in fixed states, while in vivo cells may adapt transient and reversible states. Here, we have tested the existence and role of epithelial-mesenchymal plasticity in metastasis of mammary tumors without artificially modifying EMT regulators. In these tumors, we found by intravital microscopy that the motile tumor cells have undergone EMT, while their epithelial counterparts were not migratory. Moreover, we found that epithelial-mesenchymal plasticity renders any EMT-induced stemness differences, as reported previously, irrelevant for metastatic outgrowth, because mesenchymal cells that arrive at secondary sites convert to the epithelial state within one or two divisions, thereby obtaining the same stem cell potential as their arrived epithelial counterparts. We conclude that epithelial-mesenchymal plasticity supports migration but additionally eliminates stemness-enhanced metastatic outgrowth differences.

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Undergraduate students' perceptions of child sexual abuse: Effects of age, sex, and gender-role attitudes

Maynard¹,

Wiederman²

1997

Child Abuse & Neglect

107

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Studying extracellular vesicle transfer by a Cre-loxP method

Zomer¹,

Steenbeek²,

Maynard³

et al. 2015

Nat Protoc

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Extracellular vesicle (EV) transfer is increasingly recognized as an important mode of intercellular communication by transferring a wide variety of biomolecules between cells. The characterization of in vitro- or ex vivo-isolated EVs has considerably contributed to the understanding of biological functions of EV transfer. However, the study of EV release and uptake in an in vivo setting has remained challenging, because cells that take up EVs could not be discriminated from cells that do not take up EVs. Recently, a technique based on the Cre-loxP system was developed to fluorescently mark Cre-reporter cells that take up EVs released by Cre recombinase-expressing cells in various in vitro and in vivo settings. Here we describe a detailed protocol for the generation of Cre(+) cells and reporter(+) cells, which takes ∼ 6 weeks, and subsequent assays with these lines to study functional EV transfer in in vitro and in vivo (mouse) settings, which take up to ∼ 2 months.

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Carrie Maynard

In Vivo Imaging Reveals Extracellular Vesicle-Mediated Phenocopying of Metastatic Behavior

Plasticity between Epithelial and Mesenchymal States Unlinks EMT from Metastasis-Enhancing Stem Cell Capacity

Undergraduate students' perceptions of child sexual abuse: Effects of age, sex, and gender-role attitudes

Studying extracellular vesicle transfer by a Cre-loxP method

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