Zusammenfassung
The impact that modem molecular biology has had on elucidating the genetic basis of neoplasia is best illustrated by the paradigm of sporadic and hereditary colon cancer. The clinical and hereditary picture of the familial adenomatous polyposis syndrome (FAP) implied the existence of a single gene that regulates the formation of adenomatous polyps, the precursor for most colorectal cancers. The ...
Zusammenfassung
The impact that modem molecular biology has had on elucidating the genetic basis of neoplasia is best illustrated by the paradigm of sporadic and hereditary colon cancer. The clinical and hereditary picture of the familial adenomatous polyposis syndrome (FAP) implied the existence of a single gene that regulates the formation of adenomatous polyps, the precursor for most colorectal cancers. The identification of an interstitial deletion on chromosome 5q in a patient with Gardner's variant of FAP combined with classic linkage analysis facilitated the positional cloning of the adenomatous polyposis coli (APC) gene in 1991. FAP is caused by germline mutations in the APC gene. Somatic mutations in the APC gene are an early event in colorectal tumorigenesis, and can be detected in the majority of colorectal tumors. APC consists of 8,535 bp spanning 21 exons (16 translated exons) and encodes a 2,861 amino acid protein that is expressed in specific epithelial and mesenchymal cells of several fetal and adult human tissues. The APC protein is a large multidomain protein with a molecular mass of 300 kD. The best-known function of the APC protein is the Wnt-1 signaling pathway. Binding Writ to its receptor, frizzled), leads to the inactivation of the glycogen synthase kinase 3 P in a cytoplasmic complex with APC, beta-catenin, axin and components of the ubiquitin ligation machinery. This leads to a decrease in beta-catenin phosphorylation and inhibits its proteasomal degradation. As a consequence, increased beta-catenin is available to bind transcription factors leading to the activation of proliferative genes. In addition, APC has recently emerged as a multifunctional protein that can affect a variety of fundamental cellular processes, in particular cytoskeletal regulation and chromosomal stability. Improved understanding of both the genetics and biology of APC may, in time, culminate in preventive or therapeutic strategies specifically targeted at reducing the burden of colorectal cancer.
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