Analytical Cellular Pathology

Analytical Cellular Pathology / 2009 / Article

Open Access

Volume 31 |Article ID 345781 |

Ivana Magnani, Chiara Novielli, Melissa Bellini, Gaia Roversi, Lorenzo Bello, Lidia Larizza, "Multiple Localization of Endogenous MARK4L Protein in Human Glioma", Analytical Cellular Pathology, vol. 31, Article ID 345781, 14 pages, 2009.

Multiple Localization of Endogenous MARK4L Protein in Human Glioma


Background: We have previously shown that the sustained expression of MARK4L transcripts in glioma and neural progenitors (NHNPs) declines after exposure to antisense MARK4L oligonucleotides in glioblastoma cell lines. Array-CGH confirmed the genomic duplication of MARK4L identified by FISH in a glioblastoma cell line. This background together with literature data on the exogenous association of MARK4 with interphase centrosome prompted us to investigate the sub-cellular localization of the endogenous MARK4L protein aiming at achieving insights on its possible role in the pathomechanisms of glioma.Methods: Immunodetection was carried out to validate the specificity of MARK4L antibody in gliomas and NHNPs. Mass spectrometry was applied for MARK4L protein identification in a representative glioblastoma cell line. Combined biochemical fractionation and immunodetection analyses were performed to confirm the sub-cellular localization of MARK4L achieved by immunofluorescence in glioma cell lines.Results: By assigning MARK4L protein within the band immunoprecipitated by the specific antibody we validated our anti-MARK4L antibody. We demonstrated that the endogenous MARK4L: (i) colocalizes with centrosomes at all mitotic stages and resides in centrosome-enriched fractions; (ii) associates with the nucleolus and the midbody and respective fractions, and (iii) co-stains the aberrant centrosome configurations observed in glioma cell lines.Conclusions: The overall data merge on the multiplex entry of MARK4L into the cell cycle and link it to the aberrant centrosomes in glioma cell lines suggesting a possible role of this kinase in the abnormal mitotic processes of human glioma.

Copyright © 2009 Hindawi Publishing Corporation and the authors. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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