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Distinct sets of gene alterations in endometrial carcinoma implicate alternate modes of tumorigenesis

Author:
  • Anjila Koul
  • R Willen
  • Pär-Ola Bendahl
  • Mef Nilbert
  • Åke Borg
Publishing year: 2002
Language: English
Pages: 2369-2379
Publication/Series: Cancer
Volume: 94
Issue: 9
Document type: Journal article
Publisher: John Wiley & Sons

Abstract english

BACKGROUND. Endometrial carcinomas seem to carry a different prognosis depending on the presence or absence of concomitant complex atypical hyperplasia (hyperplasia). The molecular genetic profile of these two pathogenetic types, based on the genes reportedly mutated in these cancers, remains to be defined. Although microsatellite inability is reported in approximately 25% of endometrial carcinomas, its relation with the 2 pathogenetic types is not investigated. METHODS. To elucidate their underlying genetic changes, we analyzed 53 sporadic endometrial tumors, including 19 with and 34 without hyperplasia, for microsatellite instability (MSI), DNA ploidy (by flow cytometry), and for mutations in different genes. RESULTS. Microsatellite instability was present in 21%, DNA nondiploidy in 15%, and mutations in the PTEN, KRAS, CTNNB1/beta-catenin, TP53, and CDKN2A genes were detected in 32, 11, 13, 17, and 0% of the tumors, respectively. Microsatellite instability and mutations in these genes were present in tumors both with and without complex atypical hyperplasia. All cases with complex atypical hyperplasia were early stage (I-II) endometrioid tumors and associated with long progression free disease (P = 0.0004). Furthermore, most tumors with hyperplasia had low World Health Organization or International Federation of Gynecology and Obstetrics grade, had less myometrial invasion, and showed expression of estrogen receptors. All MSI tumors were diploid and had a significantly higher rate of PTEN mutations, but similar rates of KRAS, beta-catenin, and TP53 mutations compared with microsatellite stable tumors. TP53 mutations more often were found in nondiploid tumors but never in tumors with PTEN, KRAS, or beta-catenin mutations, and all PTEN mutations occurred in diploid tumors. CONCLUSIONS. Thus, PTEN, KRAS, beta-catenin, and TP53 mutations occurred in tumors both with and without hyperplasia, but PTEN and TP53 mutations were more common in tumors without hyperplasia. However, none of these genes seems to clearly distinguish tumors with and without hyperplasia, suggesting that other factors may be involved. Conversely, alterations in the PTEN and TP53 genes seem to define distinct subgroups of endometrial carcinoma, the former associated with diploidy and MSI, the latter with macroscopic chromosomal instability.

Keywords

  • Cancer and Oncology
  • microsatellite
  • endometrial carcinoma
  • complex atypical hyperplasia
  • instability
  • DNA ploidy

Other

Published
  • ISSN: 1097-0142
Åke Borg
Åke Borg
E-mail: ake.borg [at] med.lu.se

Principal investigator

Oncology and Pathology, MV

+46 46 275 25 52

MV 404 C21B2

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Project manager

Familial Breast Cancer

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Professor

Oncology and Pathology, MV

MV 404 C21C2

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