Inge Krebs scite author profile

Increasing evidence has accumulated for an involvement of the inactivation of tumour suppressor genes at chromosome 10q in the carcinogenesis of brain tumours, melanomas, and carcinomas of the lung, the prostate, the pancreas, and the endometrium. The gene DMBT1 (Deleted in Malignant Brain Tumours 1) is located at chromosome 10q25.3 ± q26.1, within one of the putative intervals for tumour suppressor genes. DMBT1 is a member of the scavenger-receptor cysteine-rich (SRCR) superfamily and displays homozygous deletions or lack of expression in glioblastoma multiforme, medulloblastoma, and in gastrointestinal and lung cancers. Based on these properties, DMBT1 has been proposed to be a candidate tumour suppressor gene. We have determined the genomic sequence of DMBT1 to allow analyses of mutations. The gene has at least 54 exons that span a genomic region of about 80 kb. We have identi®ed a putative exon with coding potential for a transmembrane domain. Our data further suggest that alternative splicing gives rise to isoforms of DMBT1 with a dierential utilization of SRCR domains and SRCR interspersed domains. The major part of the gene harbours locus speci®c repeats. These repeats may point to the DMBT1 locus as a region susceptible to chromosomal instability.

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Sequential changes of the DMBT1 expression and location in normal lung tissue and lung carcinomas

Mollenhauer

Helmke

Müller

et al. 2002

Genes Chromosomes & Cancer

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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.

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Inge Krebs

DMBT1 Confers Mucosal Protection In Vivo and a Deletion Variant Is Associated With Crohn’s Disease

The genomic structure of the DMBT1 gene: evidence for a region with susceptibility to genomic instability

Sequential changes of the DMBT1 expression and location in normal lung tissue and lung carcinomas

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