Deleted in Malignant Brain Tumors 1 (DMBT1) at chromosome region 10q25.3-q26.1 has been proposed as a candidate tumor-suppressor gene for brain, digestive tract, and lung cancer. Recent studies on its expression in lung cancer have led to divergent results and have raised a controversial discussion. Moreover, DMBT1 has been implicated with epithelial protection in the respiratory tract. We thus wondered how a loss of its expression could be related to carcinogenesis in the lung. To address these issues, we investigated the DMBT1 expression and location in the normal lung and lung cancer. By reverse-transcription PCR, a down-regulation of the DMBT1 expression in lung cancer cell lines is commonly detected. Immunohistochemical studies in situ demonstrate that there are also low steady-state levels of DMBT1 in the normal respiratory epithelium. However, an up-regulation takes place in the tumor-flanking epithelium and upon respiratory inflammation. Lung carcinomas show increased DMBT1 expression compared to that of undiseased lung tissue, but decreased DMBT1 levels compared to that of tumor-flanking and inflammatory tissue. A switch from a lumenal secretion to a secretion to the extracellular matrix takes place during lung carcinogenesis. Our data may resolve the controversial discussion on its expression in lung carcinomas. We hypothesize that the changes of the DMBT1 expression and location do reflect a time course that may point to possible mechanisms for its role in epithelial cancer.
Deleted in malignant brain tumors 1 (DMBT1) at 10q25.3-q26.1 has been proposed as a candidate tumor-suppressor gene for brain and epithelial cancer. DMBT1 encodes a multifunctional mucin-like protein presumably involved in epithelial differentiation and protection. The gene consists of highly homologous and repeating exon and intron sequences. This specifically applies to the region coding for the repetitive scavenger receptor cysteine-rich (SRCR) domains and SRCR-interspersed domains (SIDs) that constitutes the major part of the gene. This particular structure may previously have interfered with the delineation of DMBT1 alterations in cancer. Uncovering these, however, is of mechanistic importance. By a combined approach, we conducted a detailed mutational analysis, starting from a panel of 51 tumors, including 46 tumor cell lines and five primary tumors. Alterations in the repetitive region were present in 22/31 (71%) tumors that were investigated in detail. Six tumors showed presumably de novo mutations, among these three with point mutations in combination with a loss of heterozygosity. However, none of the alterations unambiguously would be predicted to lead to an inactivation of DMBT1. We define seven distinct DMBT1 alleles based on variable numbers of tandem repeats (VNTRs). At least 11 tumors exclusively harbored these VNTRs. The data suggest that the SRCR/SID region defines a complex multi-allele system that has escaped previous analyses and that represents the major basis for the variability of DMBT1 in cancer. DMBT1 thus compares to mucins rather than to conventional tumor suppressors.
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