We recently showed that the 1.7 megabase multiple aberration region (MAR) on human chromosome 12q15 harbours recurrent breakpoints frequently found in a variety of benign solid tumours. We now report a candidate gene within MAR suspected to be of pathogenetical relevance. Using positional cloning, we have identified the high mobility group protein gene HMGI-C within a 175 kilobase segment of MAR and characterized its genomic organization. By FISH analysis, we show the majority of the breakpoints of eight different benign solid tumour types fall within this gene. By Southern blot and 3'-RACE analysis, we demonstrate consistent rearrangements in HMGI-C and/or expression of altered HMGI-C transcripts. These results suggest a link between a member of the HMG gene family and benign solid tumour development.
An intracanalicular fibroadenoma of the breast showing a clonal chromosomal aberration t(4;12) (q27;q15) as the sole cytogenetic abnormality is described. In order to narrow down the breakpoint region on chromosome 12 on the molecular level we performed fluorescence in situ hybridization (FISH) analysis with a cosmid pool originating from a YAC-contig overspanning part of the region 12q14-15. We were able to narrow down the breakpoint to an approximately 230kb fragment belonging to the HMGI-C gene which maps within an area recently designated as MAR (Multiple Aberration Region). The chromosomal breakpoints of other frequent benign solid tumors, i.e. lipomas, uterine leiomyomas, and pleomorphic adenomas are clustered within the third intron of that gene.
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