Abstract
Germline mutations in the adenomatous polyposis coli (APC) gene are responsible for familial adenomatous polyposis (FAP), an autosomal dominant hereditary predisposition to the development of multiple colorectal adenomas and of a broad spectrum of extra-intestinal tumors. Moreover, somatic APC mutations play a rate-limiting and initiating role in the majority of sporadic colorectal cancers. Notwithstanding its multifunctional nature, the main tumor suppressing activity of the APC gene resides in its ability to regulate Wnt/β-catenin signaling. Notably, genotype–phenotype correlations have been established at the APC gene between the length and stability of the truncated proteins encoded by different mutant alleles, the corresponding levels of Wnt/β-catenin signaling activity they encode for, and the incidence and distribution of intestinal and extra-intestinal tumors. Here, we report a novel mouse model, Apc1572T, obtained by targeting a truncated mutation at codon 1572 in the endogenous Apc gene. This hypomorphic mutant allele results in intermediate levels of Wnt/β-catenin signaling activation when compared with other Apc mutations associated with multifocal intestinal tumors. Notwithstanding the constitutive nature of the mutation, Apc +/1572T mice have no predisposition to intestinal cancer but develop multifocal mammary adenocarcinomas and subsequent pulmonary metastases in both genders. The histology of the Apc1572T primary mammary tumours is highly heterogeneous with luminal, myoepithelial, and squamous lineages and is reminiscent of metaplastic carcinoma of the breast in humans. The striking phenotype of Apc +/1572T mice suggests that specific dosages of Wnt/β-catenin signaling activity differentially affect tissue homeostasis and initiate tumorigenesis in an organ-specific fashion.
Highlights
Epithelial malignancies such as colorectal and breast cancer are thought to arise and progress towards malignancy due to alterations in signal transduction pathways that regulate the balance between self-renewal and differentiation in adult stem cell compartments [1]
The Apc1572T allele results in intermediate Wnt/bcatenin signaling levels and differentiation defects in embryonic stem cells To allow the biochemical and functional characterization of the Wnt/b-catenin signaling defect encoded by the Apc1572T allele [9], we established Apc1572T/1572T embryonic stem (ES) cells from pre-implantation blastocysts and compared them by TopFLASH reporter assays [10] with Apc+/+, Apc1638T/1638T, and Apc1638N/1638N ES lines [5] (Figure 1B)
In familial adenomatous polyposis (FAP) for example, different adenomatous polyposis coli (APC) germline mutations lead to different spectra of extra-colonic manifestations depending on their localization along the gene and on the stability of the resulting truncated polypeptide [16,17]
Summary
Epithelial malignancies such as colorectal and breast cancer are thought to arise and progress towards malignancy due to alterations in signal transduction pathways that regulate the balance between self-renewal and differentiation in adult stem cell compartments [1]. Truncating mutations in the APC tumor suppressor gene, the main negative regulator of the Wnt/b-catenin pathway, result in the constitutive activation of canonical Wnt signaling affecting stem cell differentiation and trigger tumor formation in the GI-tract and in other extra-intestinal tissues in a dosagedependent fashion in man and mouse [5,6,7,8]. The structure and distribution of b-catenin binding and downregulating motifs along the APC tumor suppressor gene is suited to study the effects of specific dosages of canonical Wnt signaling on the multiplicity and tissue-specific distribution of the resulting tumors (Figure 1A). Stable truncation of the mouse Apc gene at codon 1638 as encoded by the Apc1638T allele, results in a protein retaining a sufficient number of functional domains to ensure wild type b-catenin regulation, namely 3 of the 7 b-catenin down-regulating domains and one Axin-binding SAMP repeat (Figure 1A) [9]. Apc+/1638T animals are tumor-free and even homozygous Apc1638T/1638T mice are viable with no Author Summary
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