Eva Maria Kohler scite author profile

Biallelic mutation of the ADENOMATOUS POLYPOSIS COLI (APC) gene is a hallmark of sporadic colorectal cancer and colorectal, duodenal and desmoid tumours that develop in familial adenomatous polyposis (FAP) patients. The mutations affecting both APC alleles are interdependent, the position of the first APC mutation determining where the second hit will occur. This results in a complex pattern of mutation distribution in the APC sequence that translates into the stabilization of beta-catenin that in turn feeds the affected cells with a permanent mitogenic signal. We describe here a new APC domain, the beta-catenin inhibitory domain (CID) of APC located between the second and third 20 amino acid repeats and therefore present in many truncated APC products found in human tumours. In truncated APC, the CID is absolutely necessary to down-regulate the transcriptional activity and the level of beta-catenin, even when an axin/conductin binding site is present. The activity of the CID is dramatically reduced in several colon cancer cell lines and can be inhibited by shorter truncated APC lacking the CID. The CID is a direct target of the selective pressure acting on APC during tumourigenesis. It explains the interdependence of both APC mutations, not only in colorectal but also in duodenal and desmoid tumours.

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Functional definition of the mutation cluster region of adenomatous polyposis coli in colorectal tumours

Kohler

Derungs

Daum

et al. 2008

Human Molecular Genetics

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The mutation cluster region (MCR) of adenomatous polyposis coli (APC) is located within the central part of the open reading frame, overlapping with the region encoding the 20 amino acid repeats (20R) that are beta-catenin-binding sites. Each mutation in the MCR leads to the synthesis of a truncated APC product expressed in a colorectal tumour. The MCR extends from the 3' border of the first 20R coding region to approximately the middle of the third 20R coding region, reflecting both positive and negative selections of the N- and C-terminal halves of the APC protein in colon cancer cells, respectively. In contrast, the second 20R escapes selection and can be either included or excluded from the truncated APC products found in colon cancer cells. To specify the functional outcome of the selection of the mutations, we investigated the beta-catenin binding capacity of the first three 20R in N-terminal APC fragments. We found in co-immunoprecipitation and intracellular co-localization experiments that the second 20R is lacking any beta-catenin binding activity. Similarly, we also show that the tumour-associated truncations abolish the interaction of beta-catenin with the third 20R. Thus, our data provide a functional definition of the MCR: the APC fragments typical of colon cancer are selected for the presence of a single functional 20R, the first one, and are therefore equivalent relative to beta-catenin binding.

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Contribution of the 15 amino acid repeats of truncated APC to β-catenin degradation and selection of APC mutations in colorectal tumours from FAP patients

et al. 2009

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The adenomatous polyposis coli (APC) protein is a negative regulator of the mitogenic transcription factor beta-catenin by stimulating its proteasomal degradation. This involves several APC domains, including the binding sites for axin/conductin, the recently described beta-Catenin Inhibitory Domain (CID) and the third 20 amino acid repeat (20R3) that is a beta-catenin-binding site. The four 15 amino acid repeats (15R) and the 20R1 are also beta-catenin-binding sites, but their role in beta-catenin degradation has remained unclear. We show here that binding of beta-catenin to the 15R of APC is necessary and sufficient to target beta-catenin for degradation whereas binding to the 20R1 is neither necessary nor sufficient. The first 15R displays the highest affinity for beta-catenin in the 15R-20R1 module. Biallelic mutations of the APC gene lead tocolon cancer in familial adenomatous polyposis coli (FAP) and result in the synthesis of truncated products lacking domains involved in beta-catenin degradation but still having a minimal length. The analysis of the distribution of truncating mutations along the APC sequence in colorectal tumours from FAP patients revealed that the first 15R is one target of the positive selection of mutations that lead to tumour development.

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Synapse Clusters Are Preferentially Formed by Synapses with Large Recycling Pool Sizes

et al. 2010

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Synapses are distributed heterogeneously in neural networks. The relationship between the spatial arrangement of synapses and an individual synapse's structural and functional features remains to be elucidated. Here, we examined the influence of the number of adjacent synapses on individual synaptic recycling pool sizes. When measuring the discharge of the styryl dye FM1–43 from electrically stimulated synapses in rat hippocampal tissue cultures, a strong positive correlation between the number of neighbouring synapses and recycling vesicle pool sizes was observed. Accordingly, vesicle-rich synapses were found to preferentially reside next to neighbours with large recycling pool sizes. Although these synapses with large recycling pool sizes were rare, they were densely arranged and thus exhibited a high amount of release per volume. To consolidate these findings, functional terminals were marked by live-cell antibody staining with anti-synaptotagmin-1-cypHer or overexpression of synaptopHluorin. Analysis of synapse distributions in these systems confirmed the results obtained with FM 1–43. Our findings support the idea that clustering of synapses with large recycling pool sizes is a distinct developmental feature of newly formed neural networks and may contribute to functional plasticity.

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Eva Maria Kohler

-Catenin degradation mediated by the CID domain of APC provides a model for the selection of APC mutations in colorectal, desmoid and duodenal tumours

Functional definition of the mutation cluster region of adenomatous polyposis coli in colorectal tumours

Contribution of the 15 amino acid repeats of truncated APC to β-catenin degradation and selection of APC mutations in colorectal tumours from FAP patients

Synapse Clusters Are Preferentially Formed by Synapses with Large Recycling Pool Sizes

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