Relative reciprocity of NRAS and PTEN/MMAC1 alterations in cutaneous melanoma cell lines.

Both inactivation of the tumor suppressor gene, PTEN/MMAC1, and oncogenic activation of RAS have been described in human cutaneous melanoma. In mice, activation of a RAS-containing pathway is a necessary step in the pathogenesis of murine melanomas. Because PTEN negatively regulates on the downstream effects of phosphatidylinositol-3-kinase (PI3-K), we hypothesized that the loss of PTEN/MMAC1 and the activation of RAS may be largely equivalent because RAS is a known positive upstream regulator of PI3-K. We expanded our previous survey of PTEN/MMAC1 mutations and analyzed the RAS status of 53 cutaneous melanoma cell lines, 18 glioma cell lines, and 17 uncultured cutaneous melanoma metastasis. Overall, 51% of the cell lines had alterations in either PTEN/MMAC1 or RAS. We found 16 cell lines (30%) with alterations in PTEN/MMAC1 and 11 cell lines (21%) with activating NRAS mutations; only 1 cell line had concurrent alterations in both genes. Moreover, glioma cell lines with a high frequency of PTEN/MMAC1 inactivation had no identifiable RAS alterations. Ectopic expression of PTEN in several cutaneous melanoma cell lines suppressed colony formation irrespective of PTEN/MMAC1 status; furthermore, PTEN expression in cell lines carrying activated RAS also suppressed colony formation. The relative reciprocity of PTEN/MMAC1 abrogation and NRAS activation suggests that the two genetic changes, in a subset of cutaneous melanomas, are functionally overlapping.

[1]  C-Y Chen,et al.  Selective activation of oncogenic Ha-ras-induced apoptosis in NIH/3T3 cells , 1998, British Journal of Cancer.

[2]  S. Perrotta,et al.  Analysis of N-ras gene mutations in medulloblastomas by polymerase chain reaction and oligonucleotide probes in formalin-fixed, paraffin-embedded tissues. , 1991, Medical and pediatric oncology.

[3]  D. Louis,et al.  PTEN mutations in gliomas and glioneuronal tumors , 1998, Oncogene.

[4]  M. Wigler,et al.  The lipid phosphatase activity of PTEN is critical for its tumor supressor function. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[5]  Michael J. Fry,et al.  Phosphatidylinositol-3-OH kinase direct target of Ras , 1994, Nature.

[6]  M. Herlyn,et al.  Activated ras. Yet another player in melanoma? , 1996, The American journal of pathology.

[7]  P. Guldberg,et al.  Disruption of the MMAC1/PTEN gene by deletion or mutation is a frequent event in malignant melanoma. , 1997, Cancer research.

[8]  A. Merlo,et al.  Frequent Co‐Alterations of TP53, p16/CDKN2A, p14ARF, PTEN Tumor Suppressor Genes in Human Glioma Cell Lines. , 1999, Brain pathology.

[9]  L. Cantley,et al.  Activation of phosphatidylinositol 3-kinase by insulin. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[10]  José Luis de la Pompa,et al.  Negative Regulation of PKB/Akt-Dependent Cell Survival by the Tumor Suppressor PTEN , 1998, Cell.

[11]  N. Hayward,et al.  Relevance of ultraviolet-induced N-ras oncogene point mutations in development of primary human cutaneous melanoma. , 1996, The American journal of pathology.

[12]  R. Parsons,et al.  The PTEN/MMAC1 tumor suppressor induces cell death that is rescued by the AKT/protein kinase B oncogene. , 1998, Cancer research.

[13]  K. Hoang-Xuan,et al.  Mutational analysis of the PTEN gene in gliomas: molecular and pathological correlations. , 1999, International journal of cancer.

[14]  Joe W. Gray,et al.  PIK3CA is implicated as an oncogene in ovarian cancer , 1999, Nature Genetics.

[15]  P. Warne,et al.  Role of Phosphoinositide 3-OH Kinase in Cell Transformation and Control of the Actin Cytoskeleton by Ras , 1997, Cell.

[16]  Tomohiko Maehama,et al.  The Tumor Suppressor, PTEN/MMAC1, Dephosphorylates the Lipid Second Messenger, Phosphatidylinositol 3,4,5-Trisphosphate* , 1998, The Journal of Biological Chemistry.

[17]  Peter J. Parker,et al.  The activation of phosphatidylinositol 3-kinase by Ras , 1994, Current Biology.

[18]  C. Cordon-Cardo,et al.  Mutation of Pten/Mmac1 in mice causes neoplasia in multiple organ systems. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[19]  W. Cavenee,et al.  Growth suppression of glioma cells by PTEN requires a functional phosphatase catalytic domain. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[20]  I. Tomlinson,et al.  Genetic pathways of colorectal carcinogenesis rarely involve the PTEN and LKB1 genes outside the inherited hamartoma syndromes. , 1998, The American journal of pathology.

[21]  E. E. Gresch Genetic Alterations During Colorectal-Tumor Development , 1989 .

[22]  J. Hartley,et al.  Thymic lymphoma induction by the AKT8 murine retrovirus , 1988, The Journal of experimental medicine.

[23]  C. Shields,et al.  Deletion mapping of chromosome region 9p21‐p22 surrounding the CDKN2 locus in melanoma , 1996, International journal of cancer.

[24]  L. Peso,et al.  Interleukin-3-induced phosphorylation of BAD through the protein kinase Akt. , 1997, Science.

[25]  M. Greenberg,et al.  Akt Promotes Cell Survival by Phosphorylating and Inhibiting a Forkhead Transcription Factor , 1999, Cell.

[26]  Arndt Borkhardt,et al.  Cloning and characterization of AFX, the gene that fuses to MLL in acute leukemias with a t(X;11)(q13;q23) , 1997, Oncogene.

[27]  H. Höfler,et al.  Ras gene mutations: a rare event in nonmetastatic primary malignant melanoma. , 1995, The Journal of investigative dermatology.

[28]  F. Haluska,et al.  Identification of PTEN/MMAC1 alterations in uncultured melanomas and melanoma cell lines , 1998, Oncogene.

[29]  P. Rabinovitch,et al.  Analysis of c-Ki-ras mutations in human colon carcinoma by cell sorting, polymerase chain reaction, and DNA sequencing. , 1989, Cancer Research.

[30]  G. Fleuren,et al.  KRAS codon 12 mutations occur very frequently in pancreatic adenocarcinomas. , 1988, Nucleic acids research.

[31]  L. Loeb,et al.  Mutations in the KRAS2 oncogene during progressive stages of human colon carcinoma. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[32]  R. M. Mackie,et al.  Point mutations in the N‐ras oncogene in malignant melanoma and congenital naevi , 1994, The British journal of dermatology.

[33]  F. Hodi,et al.  Molecular genetics of familial cutaneous melanoma. , 1998, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[34]  W. K. Alfred Yung,et al.  Identification of a candidate tumour suppressor gene, MMAC1, at chromosome 10q23.3 that is mutated in multiple advanced cancers , 1997, Nature Genetics.

[35]  L. Chin,et al.  Cooperative effects of INK4a and ras in melanoma susceptibility in vivo. , 1997, Genes & development.

[36]  R. Berger,et al.  AF6q21, a novel partner of the MLL gene in t(6;11)(q21;q23), defines a forkhead transcriptional factor subfamily. , 1997, Blood.

[37]  A. Kinsella,et al.  K-ras gene mutations in adenomas and carcinomas of the colon. , 1992, Surgical oncology.

[38]  M. Benito,et al.  Activated Ha-ras Induces Apoptosis by Association with Phosphorylated Bcl-2 in a Mitogen-activated Protein Kinase-independent Manner* , 1999, The Journal of Biological Chemistry.

[39]  J. Hartley,et al.  Isolation of transforming murine leukemia viruses from mice with a high incidence of spontaneous lymphoma. , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[40]  David R. Kaplan,et al.  Direct Regulation of the Akt Proto-Oncogene Product by Phosphatidylinositol-3,4-bisphosphate , 1997, Science.

[41]  J. Downward,et al.  Activation of phosphoinositide 3‐kinase by interaction with Ras and by point mutation. , 1996, The EMBO journal.

[42]  R. Weinberg,et al.  Influence of p21ras on phosphatidylinositol turnover. , 1988, Cold Spring Harbor symposia on quantitative biology.

[43]  Carlos Cordon-Cardo,et al.  Pten is essential for embryonic development and tumour suppression , 1998, Nature Genetics.

[44]  M. Wigler,et al.  PTEN, a Putative Protein Tyrosine Phosphatase Gene Mutated in Human Brain, Breast, and Prostate Cancer , 1997, Science.

[45]  S. Preston‐Martin,et al.  Ras oncogene mutations in childhood brain tumors. , 1997, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[46]  S. Yokoyama,et al.  Oncogenic Ras triggers cell suicide through the activation of a caspase-independent cell death program in human cancer cells , 1999, Oncogene.

[47]  J. Hoeffler,et al.  Ras mutations in human melanoma: a marker of malignant progression. , 1994, The Journal of investigative dermatology.

[48]  G. Riggins,et al.  Analysis of PTEN/MMAC1 alterations in aerodigestive tract tumors. , 1998, Cancer research.