Skip to main content
PMC home page
Japanese Journal of Cancer Research : Gann logoLink to Japanese Journal of Cancer Research : Gann
. 2002 Feb;93(2):184–189. doi: 10.1111/j.1349-7006.2002.tb01257.x

Inactivation of O6‐Methylguanine‐DNA Methyltransferase in Human Lung Adenocarcinoma Relates to High‐grade Histology and Worse Prognosis among Smokers

Hiroyuki Hayashi 1,, Takuya Yazawa 1,, Koji Okudela 1,, Jun‐ichi Nagai 1,, Takaaki Ito 1,, Masayoshi Kanisawa 1,, Hitoshi Kitamura 1,
PMCID: PMC5926947  PMID: 11856482

Abstract

To evaluate the significance of O6‐methylguanine‐DNA methyltransferase (MGMT) activity in the development of human lung adenocarcinoma (AC), we investigated promoter hypermethylation of the MGMTx gene by methylation‐specific PCR, and the expression of MGMT protein by immuno‐histochemistry in relation to smoking history of the patients. In total, 31 of 87 AC patients (35.5%) showed hypermethylation of the MGMT gene, and no significant difference was observed between smokers (37.3%) and non‐smokers (33.3%). However, hypermethylation of the MGMT gene increased in parallel with lesser differentiation grade of tumors among smokers (well, 16.7%; moderately, 42.1%; poorly, 57.1%; P=0.022), although this trend was not observed among non‐smokers. Almost all the tumors with promoter hypermethylation of the MGMT gene showed consistently negative MGMT staining by immunohistochemistry. When the prognosis of stage‐I patients was compared among smokers, it was apparent that the prognosis of patients with inactivated MGMT was worse than that of MGMT‐positive patients (P=0.036). Such differences in the prognoses were not observed among non‐smokers. In conclusion, MGMT inactivation is related to the differentiation grade and the prognosis of lung AC patients among smokers. Although further studies are required, we speculate that smoking may induce hypermethylation, not only of the MGMT gene, but also of other important tumor suppressor genes.

Keywords: Lung, Adenocarcinoma, Smoking, O6‐Methylguanine‐DNA methyltransferase, DNA methylation

Full Text

The Full Text of this article is available as a PDF (1.8 MB).

REFERENCES

  • 1.Pegg , A. E.Mammalian O6‐alkylguanine‐DNA alkyltransferase: regulation and importance in response to alkylating carcinogenic and therapeutic agents . Cancer Res. , 50 , 6119 – 6129 ( 1990. ). [PubMed] [Google Scholar]
  • 2.Beland , F. A. and Poirier , M. C.DNA adducts and carcino‐genesis . In “ The Pathobiology of Neoplasia ,” ed. Sirica A. E. , pp. 57 – 80 ( 1989. ). Plenum Press; , New York . [Google Scholar]
  • 3.Zaidi , N. H. , Pretlow , T. P. , O'Riordan , M. A. , Dumenco , L. L. , Allay , E. and Gerson , S. L.Transgenic expression of human MGMT protects against azoxymethane‐induced aberrant crypt foci and G to A mutations in the K‐ras oncogene of mouse colon . Carcinogenesis , 16 , 451 – 456 ( 1995. ). [DOI] [PubMed] [Google Scholar]
  • 4.Liu , L. , Qin , X. and Gerson , S. L.Reduced lung tumorigenesis in human methylguanine DNA‐methyltransferase transgenic mice achieved by expression of transgene within the target cell . Carcinogenesis , 20 , 279 – 284 ( 1999. ). 10069465 [Google Scholar]
  • 5.Allay , E. , Veigl , M. and Gerson , S. L.Mice over‐expressing human O6‐alkylguanine‐DNA alkyltransferase selectively reduce O6 methylguanine mediated carcinogenic mutations to threshold levels after N‐methyl‐N‐nitrosourea . Oncogens , 18 , 3783 – 3787 ( 1999. ). [DOI] [PubMed] [Google Scholar]
  • 6.Esteller , M. , Toyota , M. , Sanchez‐Cespedes , M. , Capella , G. , Peinado , M. A. , Watkins , D. N. , Issa , J.‐P. J. , Sidransky , D. , Baylin , S. B. and Herman , J. G.Inactivation of the DNA repair gene O6‐methylguanine‐DNA methyltransferase by promoter hypermethylation is associated with G to A mutations in K‐ras in colorectal tumorigenesis . Cancer Res. , 60 , 2368 – 2371 ( 2000. ). [PubMed] [Google Scholar]
  • 7.Rolhion , C. , Penault‐Llorca , F. , Kemeny , J.‐L. , Kwiatkowski , F. , Lemaire , J.‐J. , Chollet , P. , Finat‐Duclos , F. and Verrelle , P.O6‐Methylguanine‐DNA methyltransferase gene (MGMT) expression in human glioblastomas in relation to patient characteristics and p53 accumulation . Int. J. Cancer (Pred. Oncol.) , 416 , 416 – 420 ( 1999. ). [DOI] [PubMed] [Google Scholar]
  • 8.Mattern , J. , Koomägi , R. and Volm , M.Smoking‐related increase of O6‐methylguanine‐DNA methyltransferase expression in human lung carcinomas . Carcinogenesis , 19 , 1247 – 1250 ( 1998. ). [DOI] [PubMed] [Google Scholar]
  • 9.Esteller , M. , Hamilton , S. R. , Burger , P. C. , Baylin , S. B. and Herman , J. G.Inactivation of DNA repair gene O6‐ methylguanine‐DNA methyltransferase by promoter hypermethylation is a common event in primary human neoplasia . Cancer Res. , 59 , 793 – 797 ( 1999. ). [PubMed] [Google Scholar]
  • 10.Fornace , A. J. , Jr. , Papathanasiou , M. A. , Hollander , M. C. and Yarosh , D. B.Expression of the O6‐methylguanine‐DNA methyltransferase gene MGMT in MER+ and MER human tumor cells . Cancer Res. , 50 , 7908 – 7911 ( 1990. ). [PubMed] [Google Scholar]
  • 11.Qian , X. C. and Brent , T. P.Methylation hot spots in the 5′ flanking region denote silencing of the O6‐methylguanine‐DNA methyltransferase gene . Cancer Res. , 57 , 3672 – 3677 ( 1997. ). [PubMed] [Google Scholar]
  • 12.Drin , L , Schoket , B. , Kostic , S. and Vincze , I.Smoking‐related increase in O6‐alkylguanine‐DNA alkyltransferase activity in human lung tissue . Carcinogenesis , 15 , 1535 – 1539 ( 1994. ). [DOI] [PubMed] [Google Scholar]
  • 13.Belinsky , S. A. , Nikula , K. J. , Baylin , S. B. and Issa , J.‐P. J.Increased cytosine DNA‐methyltransferase activity is target‐cell‐specific and an early event in lung cancer . Proc. Natl. Acad. Sci. USA , 93 , 4045 – 4050 ( 1996. ). [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 14.Westra , W. H. , Baas , I. O. , Hruban , R. H. , Askin , F. B. , Wilson , K. , Offerhaus , G. J. A. and Slebos , R. J. C.K‐ras oncogene activation in atypical adenomatous hyperplasia of the human lung . Cancer Res. , 56 , 2224 – 2228 ( 1996. ). [PubMed] [Google Scholar]
  • 15.WHO . Histological classification of lung and pleural tumours . In “ Histological Typing of Lung and Pleural Tumours ,” pp. 21 – 66 ( 1999. ). Springer‐Verlag; , Berlin and Heidelberg . [Google Scholar]
  • 16.Harris , L. C. , Potter , P. M. , Tano , K. , Shiota , S. , Mitra , S. and Brent , T. P.Characterization of the promoter region of the human O6‐methylguanine‐DNA methyltransferase gene . Nucleic Acids Res. , 19 , 6163 – 6167 ( 1991. ). [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 17.Herman , J. G. , Graff , J. R. , Myöhänen , S. , Nelkin , B. D. and Baylin , S. B.Methylation‐specific PCR: a novel PCR assay for methylation status of CpG islands . Proc. Natl. Acad. Sci. USA , 93 , 9821 – 9826 ( 1996. ). [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 18.Mountain , C. F.Revisions in the international system for staging lung cancer . Chest , 111 , 1710 – 1717 ( 1997. ). [DOI] [PubMed] [Google Scholar]
  • 19.Kautiainen , T. L. and Jones , P. A.DNA methyltransferase levels in tumorigenic and nontumorigenic cells in culture . J. Biol. Chem. , 261 , 1594 – 1598 ( 1986. ). [PubMed] [Google Scholar]
  • 20.Laird , P. W. , Jackson‐Grusby , L. , Fazeli , A. , Dickinson , S. L. , Jung , W. E. , Li , E. , Weinberg , R. A. and Jaenisch , R.Suppression of intestinal neoplasia by DNA hypomethylation . Cell , 81 , 197 – 205 ( 1995. ). [DOI] [PubMed] [Google Scholar]
  • 21.Zöchbauer‐Müller , S. , Fong , K. M. , Virmani , A. K. , Geradts , J. , Gazdar , A. F. and Minna , J. D.Aberrant promoter methylation of multiple genes in non‐small cell lung cancers . Cancer Res. , 61 , 249 – 255 ( 2001. ). [PubMed] [Google Scholar]

Articles from Japanese Journal of Cancer Research : Gann are provided here courtesy of Wiley

RESOURCES