Characterization of the Effects of Migrastatic Inhibitors on 3D Tumor Spheroid Invasion by High-resolution Confocal Microscopy

Jane Harmer; Nina Struve; Anke Br&#252;ning-Richardson

doi:10.3791/60273

Характеристика влияния миграстатических ингибиторов на 3D-вторжение опухолевых сфероидов с помощь...

JoVE Journal
Cancer Research

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JoVE Journal Cancer Research

Characterization of the Effects of Migrastatic Inhibitors on 3D Tumor Spheroid Invasion by High-resolution Confocal Microscopy

Характеристика влияния миграстатических ингибиторов на 3D-вторжение опухолевых сфероидов с помощью конфокальной микроскопии высокого разрешения

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09:17 min

September 16, 2019

DOI: 10.3791/60273-v

Jane Harmer¹, Nina Struve², Anke Brüning-Richardson¹

¹School of Applied Sciences,University of Huddersfield, ²Laboratory of Radiotherapy and Experimental Radiation Oncology, Humbertus Wald Tumorzentrum,University Cancer Center Hamburg, University Medical Center Hamburg-Eppendorf

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Overview

This protocol demonstrates the assessment of migrastatic inhibitors in 3D cancer models, providing a more relevant tumor environment for testing. The technique allows for detailed analysis of drug effects on glioma cell migration.

Key Study Components

Area of Science

Neuroscience
Cancer Research
Cell Biology

Background

Migrastatic inhibitors are crucial for understanding glioma progression.
3D invasion assays mimic the tumor microenvironment.
High-resolution confocal microscopy enhances visualization of cell behavior.
Drug testing in 3D models is more relevant than traditional 2D assays.

Purpose of Study

To evaluate the effects of migrastatic inhibitors on glioma cell migration.
To improve the methodology for drug testing in cancer research.
To utilize a comprehensive approach for assessing drug efficacy in a 3D setting.

Methods Used

3D invasion assays with glioma cancer cells.
Application of histone deacetylase (HDAC) inhibitors.
High-resolution confocal microscopy for imaging.
Medium removal and collagen replacement techniques practiced in 96-well plates.

Main Results

Demonstrated the effectiveness of migrastatic inhibitors in reducing cell migration.
Showed the advantages of using 3D models over traditional methods.
Provided insights into the tumor microenvironment's impact on drug efficacy.
Validated the protocol for future cancer research applications.

Conclusions

The study highlights the importance of 3D models in cancer drug testing.
Migrastatic inhibitors show promise in glioma treatment strategies.
Future research can build on this methodology for broader applications.

Frequently Asked Questions

What are migrastatic inhibitors?

Migrastatic inhibitors are compounds that reduce the migration of cancer cells, potentially limiting tumor spread.

Why use 3D models in cancer research?

3D models better mimic the tumor microenvironment, providing more relevant data on drug efficacy.

What is the role of HDAC inhibitors in this study?

HDAC inhibitors are used to assess their impact on glioma cell migration in the context of migrastatic inhibitors.

How does confocal microscopy contribute to this research?

Confocal microscopy allows for high-resolution imaging of cell behavior in 3D assays.

What techniques are essential for this protocol?

Practicing medium removal and collagen replacement techniques is crucial for successful 3D assays.

What are the implications of this research?

The findings may lead to improved treatment strategies for glioma and other cancers.

Влияние миграстатических ингибиторов на миграцию клеток рака глиомы в трехмерных (3D) инватифицированных анализах с использованием ингибитора гистона деацетилазы (HDAC) характеризуется конфокальной микроскопией высокого разрешения.

Этот протокол демонстрирует, что теперь мы можем определить эффект миграстатических ингибиторов подробно в 3D-моделях рака. Основным преимуществом является простота и все-в-одном подход, с помощью которого эта техника может быть выполнена. Этот метод позволяет оценить миграстатические препараты в исследованиях рака в 3D-настройках, что позволяет тестировать препараты в более опухолевой среде, соответствующей условиям.

Этот метод может быть применен к тестированию цитотоксических препаратов при раке или, например, для оценки влияния радиации на распространение рака и миграцию клеток. Полезно практиковать средний шаг удаления и замену коллагена с обычными пластинами 96-хорошо, чтобы стать уверенным. Кроме того, обучение на конфокальный микроскоп имеет важное значение.

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