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Related Concept Videos

Cancer Cell Migration through Invadopodia01:35

Cancer Cell Migration through Invadopodia

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Invadosome is a broad category of cell surface structures with proteolytic activity that  degrades the extracellular matrix (ECM). Invadosomes are present in normal cell types, including macrophages, endothelial cells, and neurons, as well as tumor cells. Although the macrophage podosomes and tumor cell invadopodia are classified as invadosomes, they have different structures, molecular pathways, and functions. Podosomes are short structures that last for a few minutes. However,...
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Related Experiment Video

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In vitro Cell Migration and Invasion Assays
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In vitro Cell Migration and Invasion Assays

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[Methods for studying tumor cell migration and invasiveness].

P Kovaříková, E Michalova, L Knopfová

    Klinicka Onkologie : Casopis Ceske a Slovenske Onkologicke Spolecnosti
    |June 20, 2014
    PubMed
    Summary
    This summary is machine-generated.

    Understanding cell migration and invasion is crucial for cancer metastasis research. This review overviews in vitro and in vivo methods essential for studying these cellular processes and their role in oncology.

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    Area of Science:

    • Cell Biology
    • Oncology
    • Biotechnology

    Context:

    • Cell migration and invasiveness are key to normal development and pathological processes like cancer metastasis.
    • Tumor cell migration, invasiveness, and metastatic potential significantly impact patient prognosis.
    • Studying these cellular behaviors requires robust and diverse methodologies.

    Purpose:

    • To provide a comprehensive overview of current in vitro and in vivo methods for studying cell migration, invasion, and metastasis.
    • To highlight techniques ranging from basic 2D assays to advanced systems and animal models.
    • To inform research aimed at developing novel diagnostic and therapeutic strategies in oncology.

    Summary:

    • In vitro methods include 2D assays (scratch wound, hepatocyte growth factor), chemotaxis-based assays (Dunn's chamber, videomicroscopy), and complex systems like Boyden chambers (Transwell), xCELLigence, and microfluidics.
    • In vivo methods focus on model organisms, particularly mouse models, for studying cancer metastasis.
    • The reviewed techniques are integral to research projects targeting new cancer diagnostics and therapies.

    Impact:

    • Facilitates a deeper understanding of the molecular mechanisms underlying cell migration and metastasis.
    • Enables the development and validation of new anti-cancer diagnostics and therapeutics.
    • Supports advancements in personalized oncology by providing tools to assess metastatic potential.