Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033036 (APC)
 10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations of APC appear to initiate sporadic and inherited forms of human colorectal cancer. Although these mutations have been well characterized, little is known about the function of the APC gene product. Two cellular proteins that associate with APC were identified by nucleotide sequence analysis and peptide mapping as the E-cadherin-associated proteins alpha- and beta-catenin. A 27-residue fragment of APC containing a 15-amino acid repeat was sufficient for the interaction with the catenins. These results suggest an important link between tumor initiation and cell adhesion.
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PMID:Association of the APC tumor suppressor protein with catenins. 825 19

The discovery of a tumor suppressor gene opens a new pathway to discovery of the fundamental mechanisms that underlie tumor initiation and progression. An inherited tumor suppressor gene is of special interest in that it defines a step in the tumorigenesis pathway that can be rate limiting in development of that tumor type. In the case of colon cancer, we were fortunate in identifying an inherited tumor suppressor gene, the APC gene, that plays a major etiologic role in both the inherited disease, familial adenomatous polyposis (FAP), and in sporadic colon polyps. Characterization of the molecular biology of that gene, and the underlying mechanisms that result in the development of colon tumors, could provide new approaches to both colon cancer diagnostics, therapeutics and chemopreventives. We have embarked, therefore, on a series of exploratory studies designed to provides clues to possible functional roles for the APC protein. We have found through immunocytochemistry that APC protein is distributed throughout the cell, in both the cytoplasm and nucleus. Furthermore, within the nucleus much of the APC protein seems associated with the nucleoli. The cytoplasmic label is distributed in a punctate pattern, with concentrations at the leading edge of migrating cells at the ends of microtubules. Furthermore, following an extraction of the cells that leaves behind primarily cytoskeletal and nuclear scaffold structures, we see strong APC staining of these structures. The yeast two-hybrid system has offered a number of potentially interacting partners for APC, including a new binding site for alpha-tubulin. These results, and others recent discoveries concerning APC, suggest a rather global role for APC protein, modulating cellular activity and signal transduction pathway from the cell periphery to the nucleus.
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PMID:Colon cancer. Molecular biology of the APC protein. 929 69

Evolving trends in the management of rectal cancer have focused on organ preservation, improved quality of life, and survival of patients. A significant shift is underway in our thinking about what constitutes the true rectum and defining the "proximal" and "distal" segments of the rectum. Tumor mobility remains a dominant prognostic factor in patient selection and choice of surgery. A clinical staging with tumor location in the rectum provides a logical algorithm for treatment decision making with either chemoradiation therapy or surgery as initial treatment of choice. Current rectal cancer management has largely focused on postoperative adjuvant radiation strategies with improvement reported for T3 and N+ cases. Recent data from Europe suggests that preoperative radiation has a significant advantage over surgery alone or postoperative treatment. This appears to be borne out by institutional studies of high-dose preoperative radiation (>45 Gy) in the United States. Aggressive preoperative combined chemoradiation has also led to significant downstaging of cancer with pathological complete response rates of 20% to 30%. This offers new options for surgical management of residual disease with endocavitary radiation or local excision. The development of new agents Gemcitabine, paclitaxel, and CPT-11 may also prove beneficial. New treatment strategies need to be coordinated with evolving knowledge of the biological behavior of the tumor based on its genetic fingerprints. c-Ki-ras and C-myc mutations have been implicated in tumor initiation and progression. A number of other tumor suppressor genes, APC gene, p53, and DCC have also been implicated in colorectal tumor carcigenesis. The modification of biological behavior by mutations in these genes is currently under study. This may guide new treatment strategies significantly reducing the death rates from rectal cancer and improving functional results of treatment.
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PMID:Critical issues in the evolving management of rectal cancer. 942 68

There is vast evidence in support of the idea that accumulated genetic changes (mutations) are the underlying cause of neoplasia development. This multi-step process is aptly illustrated by colorectal carcinoma (CRC), usually developing in the course of decades, and presumably requiring at least seven genetic events to complete its development. In CRC the oncogenes most frequently undergoing mutation are c-k-ras and c-myc, and among tumor suppressant genes--APC, MCC, DCC, p53. An updated model of the molecular bases for adenoma occurrence and its evolution into carcinoma is presented. Inheritance of a single gene only which has undergone mutation augments substantially the predisposition to CRC. This is noted in a clearcut manner in the hereditary syndromes familial adenomatous polyposis (FAP) and hereditary non-polypous colorectal carcinoma (HNPCC). Recent studies along these lines suggest that the genetic defect in FAP increases the incidence of tumor initiation through functional impairment of the APC gene which is a gene regulator of the enhanced colorectal mucosa proliferation. Contrarily, the defect in HNPCC involves mainly the tumor progression through mutation of the DNA repair genes (MMRs), which are regulators of the genome stability. The study of hereditary syndromes give rise to a new concept for the occurrence and development of sporadic and inherited cancer in humans.
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PMID:[The molecular biology and genetics of colorectal carcinoma]. 973 86

Uterine leiomyomas are characterized by several subgroups with characteristic chromosomal aberrations, mainly 12q14-15, 6p21, or interstitial deletions of chromosomes 3 and 7. For the first two subgroups, aberrations of the HMGIC and HMGIY genes have been described and are held responsible for tumor initiation. For other subgroups no molecular findings have been described as of yet. We focus here on a smaller subgroup of uterine leiomyomas with a ring chromosome 1 either as the only karyotypic deviation or occurring along with other abnormalities. In the p-arm of chromosome 1 HMG17, another member of the high-mobility group of proteins has been localized to the short arm of chromosome 1 (1p35) with two PAC clones on metaphase spreads of a uterine leiomyoma ring(1). Hybridization signals for these probes were not detected within the ring chromosome consistent with loss or deletion of HMG17. These findings suggest that HMG17 does not play a mechanistic role in leiomyoma similar to that observed with other high-mobility proteins.
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PMID:Deletion of HMG17 in uterine leiomyomas with ring chromosome 1. 997 36

The incidence of adenocarcinoma of the distal esophagus is rapidly increasing in the Western world. The histopathological sequence of (Barrett's) metaplasia, which develops as a consequence of chronic reflux, to dysplasia and then to carcinoma is well established for these tumors. In Barrett's esophagus a variety of molecular changes have been characterized and correlated with tumor initiation and progression. Among the early changes in premalignant stages of metaplasia are alterations of the transcripts of FHIT, a presumptive tumor suppressor gene which spans the common fragile site FRA3B. Mutations of p53 seem to accumulate mainly in the transition from low to high grade dysplasia. Inactivation of other tumor suppressor genes by mutation (APC, p16) or hypermethylation (p16) as well as amplification of oncogenes such as cerbB2 are relatively late events in the development of adenocarcinoma. Among the phenotypic changes in Barrett's esophagus are an expansion of the Ki67 proliferation compartment which correlates with the degree of dysplasia. Moreover, accumulation of rab11 molecules which are involved in membrane trafficking has been reported to be specific for the loss of polarity seen in low grade dysplasia. Reduced expression of the cadherin/catenin complex as well as increased expression of various proteases develop chiefly in invasive carcinomas. Despite the progress that has been made in the identification of molecular markers in Barrett's carcinoma, to date the histopathological diagnosis of high grade dysplasia in endoscopic biopsies remains the best predictor of invasive cancer. Immunohistochemistry applying a panel of antibodies including p53, Mib-1 or rab11 can be helpful to diagnose regenerative metaplastic epithelium or low and high grade dysplasia.
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PMID:The molecular pathology of Barrett's esophagus. 1021 17

This study evaluated the potential contribution of the APC gene to malignant transformation in patients with renal cell carcinoma. We tested 36 human renal cell carcinoma samples and 18 adjacent normal kidney tissues for the expression of APC protein, both wild and truncated types, by western blot using antibodies that recognize either the carboxy or the amino epitope of the APC protein. The same tumor samples together with autologous peripheral blood were also analyzed at the DNA level. Using specific oligonucleotide primers for exons 11 and 15, gene instability was followed by polymerase chain reaction/loss of heterozygosity (LOH) (on the basis of restriction fragment length polymorphism). Molecular data were also compared to pathohistological diagnosis, TNM stage, and patient's age using multivariate statistical methods. All normal renal tissues revealed expression of the wild-type APC protein. Neither wild nor mutant type proteins were found in 36% (13/36) of tumor samples; the rest of tumor tissues expressed the wild-type protein (312 kDa). Mutated APC protein, with a molecular weight of 117 kDa, was found in only one tumor sample. From 36 tumor samples 16 (44.4%) were informative for RsaI exon 11 polymorphic site, while only half of these (8/16) demonstrated LOH. From 13 tumor samples that had no detectable protein product by western blot analysis eight were homozygous for the exon 11 polymorphism and were tested for another polymorphic site, MspI/exon 15. The overall proportion of LOH cases for both polymorphisms tested was 52.9% (9/17). Pathohistological diagnosis and molecular data showed no correlation. However, multivariate analysis determined a stage strong positive correlation of age and TNM with the presence of LOH and the absence of the wild-type APC protein. Out results suggest that the APC tumor suppressor gene plays a role in renal carcinogenesis. Alterations in this gene are responsible for tumor evolution and progression, but cannot be considered as a first event in tumor initiation.
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PMID:Loss of heterozygosity and protein expression of APC gene in renal cell carcinomas. 1042 94

On the basis of our investigation of the premalignant crypt phenotype in familial adenomatous polyposis patients, the hypothesis is developed that tumor initiation in the colon is caused by crypt stem cell overproduction. A novel kinetic model for the colonic crypt was used to investigate how the earliest tissue abnormality (altered crypt labeling index) arises in these patients who have a mutant APC genotype. Only an increase in crypt stem cell number, not changes in the rate of cell cycle proliferation, differentiation, or apoptosis of the non-stem cell population, simulated this abnormality. This suggests that APC regulates the number of stem cells in the colonic crypt and when the cells become mutant, an expansion of the crypt stem cell population results.
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PMID:Computer modeling implicates stem cell overproduction in colon cancer initiation. 1173 19

Thrombospondin 1 (TSP-1) is a multifunctional extracellular matrix protein that is an endogenous regulator of tumor angiogenesis. The effects of TSP-1 on adenoma formation and development into cancerous lesions has been evaluated in the Min(/+) (multiple intestinal neoplasia) mouse model. These mice develop multiple adenomas in the small intestine due to a mutation in the homologous APC (adenomatous polyposis coli) gene. As in its human counterpart, these adenomas may progress to carcinomas. Intestines of APC(Min/+) mice were dissected and histologic evaluation of adenomas was then conducted. Significant increases in vascularization and proliferation were observed in adenomatous, as compared with normal, mucosa. TSP-1 immunostaining revealed significant decreases in the number and intensity of positive cells in adenomas, as compared with normal mucosa. TSP-1 scores were inversely correlated with vascularity and proliferation rate. Cross breeding of mice homozygous for a deletion of the TSP-1 gene (TSP-1(-/-)) with mice heterozygous for the APC gene mutation (APC(Min/+)), resulted in animals that showed a significant increase in adenoma number and diameter. Also, histopathological examination of these adenomas showed accelerated dysplasic changes, carcinoma in situ and early invasion, compared with their APC(Min/+) littermates. Moreover, a significant decrease of TUNEL-positive cells was observed in intestinal adenomas of TSP-1(-/-)/APC(Min/+) mice. This study reports the first in vivo impact of TSP-1 during early stages of tumor initiation and development in an intestinal carcinogenesis model and demonstrates that TSP-1 affects both angiogenesis and tumor cell apoptosis.
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PMID:Thrombospondin 1--a regulator of adenoma growth and carcinoma progression in the APC(Min/+) mouse model. 1258 68

It is well established that concentration gradients of signaling molecules (the so-called "morphogens") organize and pattern tissues in developing animals. In particular, studies in Drosophila and different vertebrates have shown that gradients of the Wnt, Hedgehog (Hh) and transforming growth factor-beta (TGF-beta) families of morphogens play critical roles in limb patterning. Morphogens are often expressed in organizing centres and can act over a long range to coordinate the patterning of an entire field of cells. These observations imply that exposure to different concentrations of these diffusible factors may trigger differential cellular responses. In order to study these dosage-dependent Wnt/beta-catenin signaling effects, we have generated several hypomorphic mutant alleles at the mouse Apc locus and studied their cellular and phenotypic outcomes in stem cell renewal and differentiation, and in tumorigenesis. The results clearly show that Apc mutations differentially affect the capacity of stem cells to differentiate in a dosage-dependent fashion. Likewise, different Apc mutations (and the corresponding Wnt signaling dosages) confer different degrees of susceptibility to tumorigenesis in the corresponding mouse models. These results have implications for the understanding of the molecular and cellular basis of tumor initiation by defects in the Wnt pathway. We propose a model in which adult somatic stem cell compartments are characterized by tissue-specific beta-catenin threshold levels for cell proliferation, differentiation and apoptosis. Different APC mutations will result in different levels of beta-catenin signaling, thus conferring different degrees of tumor susceptibility in different tissues. Hence, beta-catenin dosage-dependent effects may not only explain how a single pathway is involved in the development and homeostasis of different tissues, but also its pleiotrophic role in tumorigenesis.
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PMID:APC dosage effects in tumorigenesis and stem cell differentiation. 1534 13


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