Emergence of Adenomatous Aberrant Crypt Foci (ACF) from Hyperplastic ACF with Concomitant Increase in Cell Proliferation

Infection and Cancer: Biology, Therapeutics, and Prevention

Translational Medicine Conference in Israel

Emergence of Adenomatous Aberrant Crypt Foci (ACF) from Hyperplastic ACF with Concomitant Increase in Cell Proliferation¹

Kazuhiko Otori, Kenji Sugiyama, Takahiro Hasebe, Shoji Fukushima and Hiroyasu Esumi²

To investigate the relationship between aberrant crypt foci(ACF) and colon neoplasia in colorectal carcinogenesis, we evaluated433 ACF, which were collected from the grossly normal mucosaof surgical specimens from 57 patients with colorectal cancer.The ACF ranged in size from 3 to 412 aberrant crypts/focus.Large ACF (>-50 crypts/focus) comprised 25% of the totalACF studied. Histopathologically, 65% (67 of 103) of large ACFwere diagnosed as hyperplasia, 10% (10 of 103) as adenoma, and1% (1 of 103) as within normal colorectal mucosa. The remaining24% (25 of 103) were diagnosed as "stage I abnormality crypts,"which were characterized by their extension of the proliferativecompartment to the surface of crypts but with no changes inthe major site of proliferation, as designated by E. E. Deschner[Pathol. Annu., 18 (Part 1): 205–219, 1983]. Of the 25stage I abnormality ACF, 7 ACF coexisted with hyperplasia. Of10 adenomatous ACF, two coexisted with stage I abnormality crypts.A K-ras codon 12 mutation was identified in 85% (93 of 109)of large ACF. The proliferative activity of stage I crypts wassignificantly higher than that of hyperplastic crypts in thesame ACF. These observations suggest that some hyperplasticACF may develop into adenomatous ACF by way of stage I abnormalityACF with concomitant acquisition of higher proliferative activitythrough some genetic and/or epigenetic changes.

^¹ Supported in part by a Grant-in-Aid for Cancer Research fromthe Ministry of Health and Welfare, a grant from the Ministryof Health and Welfare for a Comprehensive 10-year Strategy forCancer Control, and a Grant-in-Aid from the Ministry of Education,Science and Culture of Japan.

^² To whom requests for reprints should be addressed.

Received 7/27/95. Accepted 9/20/95.

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				O. K. Glebov, L. M. Rodriguez, P. Soballe, J. DeNobile, J. Cliatt, K. Nakahara, and I. R. Kirsch Gene Expression Patterns Distinguish Colonoscopically Isolated Human Aberrant Crypt Foci from Normal Colonic Mucosa. Cancer Epidemiol. Biomarkers Prev., November 1, 2006; 15(11): 2253 - 2262. [Abstract] [Full Text] [PDF]

				G. Cohen, R. Mustafi, A. Chumsangsri, N. Little, J. Nathanson, S. Cerda, S. Jagadeeswaran, U. Dougherty, L. Joseph, J. Hart, et al. Epidermal Growth Factor Receptor Signaling Is Up-regulated in Human Colonic Aberrant Crypt Foci Cancer Res., June 1, 2006; 66(11): 5656 - 5664. [Abstract] [Full Text] [PDF]

				J. Hulit, C. Wang, Z. Li, C. Albanese, M. Rao, D. Di Vizio, S. Shah, S. W. Byers, R. Mahmood, L. H. Augenlicht, et al. Cyclin D1 Genetic Heterozygosity Regulates Colonic Epithelial Cell Differentiation and Tumor Number in ApcMin Mice Mol. Cell. Biol., September 1, 2004; 24(17): 7598 - 7611. [Abstract] [Full Text] [PDF]

				C. Jette, P. W. Peterson, I. T. Sandoval, E. J. Manos, E. Hadley, C. M. Ireland, and D. A. Jones The Tumor Suppressor Adenomatous Polyposis Coli and Caudal Related Homeodomain Protein Regulate Expression of Retinol Dehydrogenase L J. Biol. Chem., August 13, 2004; 279(33): 34397 - 34405. [Abstract] [Full Text] [PDF]

				A. O.-O. Chan, R. R. Broaddus, P. S. Houlihan, J.-P. J. Issa, S. R. Hamilton, and A. Rashid CpG Island Methylation in Aberrant Crypt Foci of the Colorectum Am. J. Pathol., May 1, 2002; 160(5): 1823 - 1830. [Abstract] [Full Text] [PDF]

				A. Velcich, W. Yang, J. Heyer, A. Fragale, C. Nicholas, S. Viani, R. Kucherlapati, M. Lipkin, K. Yang, and L. Augenlicht Colorectal Cancer in Mice Genetically Deficient in the Mucin Muc2 Science, March 1, 2002; 295(5560): 1726 - 1729. [Abstract] [Full Text] [PDF]

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				F. Aslam, L. Palumbo, L. H. Augenlicht, and A. Velcich The Sp Family of Transcription Factors in the Regulation of the Human and Mouse MUC2 Gene Promoters Cancer Res., January 1, 2001; 61(2): 570 - 576. [Abstract] [Full Text]

				N. Sakurazawa, N. Tanaka, M. Onda, and H. Esumi Instability of X Chromosome Methylation in Aberrant Crypt Foci of the Human Colon Cancer Res., June 1, 2000; 60(12): 3165 - 3169. [Abstract] [Full Text]

				C. M. Fenoglio-Preiser and A. Noffsinger Review Article: Aberrant Crypt Foci: A Review Toxicol Pathol, November 1, 1999; 27(6): 632 - 642. [PDF]

				S N Andersen, T Lovig, O P F Clausen, A Bakka, O Fausa, and T O Rognum Villous, hypermucinous mucosa in long standing ulcerative colitis shows high frequency of K-ras mutations Gut, November 1, 1999; 45(5): 686 - 692. [Abstract] [Full Text] [PDF]

				A. P. Soler, R.D. Miller, K. V. Laughlin, N. Z. Carp, D. M. Klurfeld, and J. M. Mullin Increased tight junctional permeability is associated with the development of colon cancer Carcinogenesis, August 1, 1999; 20(8): 1425 - 1432. [Abstract] [Full Text] [PDF]

				S. Ishizuka, S. Ito, M. Onuma, T. Kasai, Y. Aoyama, and H. Hara Ingestion of sugar beet fiber enhances irradiation-induced aberrant crypt foci in the rat colon under an apoptosis-suppressed condition Carcinogenesis, June 1, 1999; 20(6): 1005 - 1009. [Abstract] [Full Text] [PDF]

				W. Giaretti, A. Rapallo, E. Geido, A. Sciutto, F. Merlo, M. Risio, and F. P. Rossini Specific K-ras2 Mutations in Human Sporadic Colorectal Adenomas Are Associated with DNA Near-Diploid Aneuploidy and Inhibition of Proliferation Am. J. Pathol., October 1, 1998; 153(4): 1201 - 1209. [Abstract] [Full Text] [PDF]

Emergence of Adenomatous Aberrant Crypt Foci (ACF) from Hyperplastic ACF with Concomitant Increase in Cell Proliferation1

Emergence of Adenomatous Aberrant Crypt Foci (ACF) from Hyperplastic ACF with Concomitant Increase in Cell Proliferation¹