Monique D. Rief scite author profile

Ligands in the extracellular matrix (ECM) are known to mediate migration of normal as well as tumor cells via adhesion molecules such as the integrin receptor family. We develop a microliter scale (15-20 microliters total volume) monolayer migration assay to investigate the ability of astrocytoma cells to disperse on surfaces coated with purified human ECM protein ligands. In this system the rate of radial migration of the cell population was constant over time. For human astrocytoma cell lines U-251 and SF-767, laminin and collagen type IV supported a migratory phenotype; fibronectin and vitronectin only minimally supported migration. The different ECM proteins also influenced growth rate: cells on laminin and collagen had a protracted lag phase. Furthermore, migrating cells seeded on laminin or collagen showed a lower labeling index than did stationary cells in the central, crowded region on the same substrate. This micro-scale migration assay should enable detailed molecular and biochemical studies of the determinants of migration.

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Substrates for Astrocytoma Invasion

Giese¹,

Loo²,

Rief³

et al. 1995

Neurosurgery

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Substrates for Astrocytoma Invasion

et al. 1995

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A better understanding of the influences of specific extracellular substrates, including proteins, glycosaminoglycans, and parenchymal cells, on the invasive behavior of glioma cells would potentially lead to novel forms of treatment aimed at confining the tumor. A monolayer, microliter scale assay was used to investigate how different substrates influenced glioma migration. Basal or unspecific movement (range, 10-260 microns/d) was determined by observing a panel of seven established human glioma cell lines. Migration rates two to five times higher than this basal activity were referred to as preferential and specific glioma migration; these rates generally occurred on merosin and tenascin. Collagen, fibronectin, or vitronectin were less supportive of migration. The glioma cells migrated on hyaluronic acid, but they did not migrate to the extent generally found on the extracellular matrix proteins. Glioma-derived extracellular matrix also served to promote cell migration. This finding implicates a role for either glioma remodeling or synthesis of a permissive environment for local dissemination that may be independent of the constitutive matrix proteins normally found in the brain. Although the glioma cells were able to migrate over monolayers of other glioma cells, they were unable to migrate over astrocytes and fibroblasts. Our findings indicate that the invasive behavior of glioma cells in situ is most likely a consequence of the interplay between the cells' manipulation of the environment and the constitutive ligands associated with specific regions or structures of the brain.

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Monique D. Rief

The role of extracellular matrix in human astrocytoma migration and proliferation studied in a microliter scale assay

Substrates for Astrocytoma Invasion

Substrates for Astrocytoma Invasion

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