This assay is to provide HEL-based In Vitro Spheroid Migration Assay (Migration) to accelerate our client's oncology projects. The assay will be customized according to the specific requirements. Please contact our scientists to discuss more details.
Target Cell Name
HEL
Target Cell Organism
Human
Target Cell Background
A new human erythroleukemia cell line has been established. This line, designated HEL, is capable of spontaneous and induced globin synthesis, producing mainly Gγ and Aγ chains. Embryonic chains (ε, ζ) and α chains are detectable in very small amounts; β chains are undetectable. This line provides a new model system for studying aspects of erythroid cell differentiation and differential globin gene expression.
Related Diseases
Erythroleukemia
Research Area
Oncology
Assay Name
In Vitro Spheroid Migration Assay (Migration)
Short Description
HEL-cell based In Vitro Spheroid Migration Assay (Migration)
Assay Description
Cell spheroids are attached to a surface of cell culture wells or dishes and are allowed to migrate to another region of the wells where cells start to attach and form a new monolayer. This assay resembles 2D and 3D culturing technique and mimics an in vivo system. Cells that form spheroids can only be used for this assay and inclusion of two different types of cells (co- cultivation) to monitor invasion is possible with this assay. Fluorescence and light microscopy can be used to monitor invasion of cells.
Assay Type
Cell Migration and Invasion Assays
Assay Type Details
The movement of cancer cells and formation of tumors in neighboring tissue is a sequential cascade known as invasion-metastatic cascade, which includes cancer cell invasion through extracellular matrix (ECM), intravasation into blood and colonization at sites after they exit from blood circulation. Migration and invasion are two dif ferent processes where, cell migration involves movement of cells without passing through a barrier such as ECM, whereas cell invasion involves passing through a barrier such as ECM while destroying it.