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. 2022 Jan 17;14(2):443. doi: 10.3390/cancers14020443

Table 1.

Molecules identified as having a role in glioblastoma invasion by unbiased, high-throughput approaches.

Approach Gene/Protein Identified Reference
Differential expression analysis of tumor cells from tumor core and the invasive rim by laser-capture microdissection P311 [144]
Microarray analysis of the cells from tumor cores and the cells that invaded White matter using laser-capture microdissection ATX and BCLW [145]
Microarray analysis of core and rim cells using cell-line spheroids invading collagen MKK3 and p38 [146]
Microarray analysis of cell lines and primary cultures with radial migration assay CTGF [147]
RNA sequencing of motile and nonmotile cells using a spheroid dispersal model SERPINE1 [149]
Differential expression analysis of long noncoding RNAs in glioma tissues, compared to normal brain tissues NEAT1 [150]
miRNA profiling of slow-growing, diffusely infiltrating glioma and noninvasive primitive neural tumors miRNA-449a [151]
Functional screen with monoclonal antibody library generated against primary glioblastoma cells Itga7 [152]
Analysis of enriched proteins on the cell membranes with different invasive capacities Itga5, CD97 and Anxa1 [153]
Analysis of proteins in cell lines with different invasive capacities Cathepsin D [154]
Functional proteomics approach with fluorophore-assisted light inactivation Neuropilin-1 and Semaphorin3A [155]
Functional proteomics approach with fluorophore-assisted light inactivation CD155/PVR [156]
Analysis of proteins from glioblastoma sections by microdissecting cells from invasive border and proliferative core ELMO1 and Dock180 [157]
Proteomics analysis of xenograft models generated by serial transplantation of human glioblastoma specimens into rat brains PDI [158]