Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reciprocal translocation t(9;16)(q22;p13) was identified in three short-term cultured basal cell carcinomas (BCCs). The t(9;16) was the sole anomaly in one clone in two tumors and was accompanied by a second change that also affected the long arm of chromosome 9 in the third. In addition, other cytogenetically unrelated abnormal clones were also found in all three BCCs. The identification of t(9;16)(q22;p13) as a primary chromosomal abnormality in a subset of BCCs (we found it in 3 of 22 tumors) is especially intriguing against the background that the PTCH gene, which when mutated in the germ line presumably gives rise to the autosomal dominant basal cell nevus or Gorlin's syndrome, maps to chromosome band 9q22. None of the genes rearranged in the BCC-specific t(9;16)(q22;p13) translocation have been identified, but we hypothesize that the translocation represents the cytogenetic corollary of a tumorigenic recombination of PTCH with an as yet unknown gene in 16p13. If so, this would be the first time that a tumor suppressor gene causally involved in a hereditary cancer is shown to be frequently rearranged through a specific translocation in sporadic carcinomas of the same type.
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PMID:The reciprocal translocation t(9;16)(q22;p13) is a primary chromosome abnormality in basal cell carcinomas. 901 65

Squamous cell carcinoma of the skin and melanoma are the rare progeny of precancerous lesions that usually remain stable or regress. For SCC the sequence appears to include TP53 mutant clones in normal skin; dysplasia; carcinoma in situ; and SCC. When such lesions are contiguous, their TP53 mutations are consistent with a single clonal lineage. The set of TP53 mutations in tumours is more restricted than in precancers, suggesting additional selection. Melanoma lies at the end of a continuum including mole, dysplastic naevus, radial growth melanoma and vertical growth. The genetics of melanoma is less clear. Basal cell carcinomas seem to arise without a precancer and contain mutations in TP53 and PTCH. Childhood sunlight exposure directs the location and frequency of precancers. For melanoma, its effects on intermittently exposed body sites are superimposed on the effect at sites chronically exposed. SCC precancers and tumours, BCC tumours and melanoma cell lines contain UV induced mutations. Sun exposed skin of normal individuals contains thousands of small clones of TP53 mutated cells. Predisposition to sunlight induced precancer is a multigenic trait involving factors such as hair and skin color, DNA repair proficiency and mole type and number. These each contribute a relative risk on the order of two to four. Familial predisposition to dysplastic naevi carries a larger risk. The cell of origin for melanoma is uncontroversial, and the proposed hair follicle origin of BCC is consistent with the presence of stem cells in the bulge region. The origin of SCCs and the arrangement of interfollicular stem cell compartments are less clear. Clonal expansion of the initial mutated cell may also be driven by sunlight. When a mutation confers apoptosis resistance, as TP53 mutations do, subsequent UV exposure will be more likely to kill normal cells than mutants. The latter can expand into a clone, only one cell of which need be mutated again. Immunosuppressant drugs may have the same effect as UV, facilitating the clonal expansion of precancers. In the absence of exogenous influences, mutant clones and precancers tend to regress. There is little evidence that regression of precancers is immunological, though regression of melanoma appears to be. The chemotherapeutic agent 5-FU causes regression of dysplasias by removing initiated cells, perhaps by enhancing apoptosis. In contrast, retinoic acid temporarily suppresses clonal expansion. Most sunscreens are mutagenic, with as yet unknown consequences. Mice develop dysplasias and SCCs after UV irradiation. Initiation and clonal expansion of dysplasias is UV driven, but conversion to SCC and subsequent growth involve spontaneous events. With chemical carcinogens mice develop papillomas that usually regress and thus are precancers. Tumour promotion yields abundant low risk papillomas that contain Hras1 mutations but rarely progress to SCC. High risk papillomas are infrequent but do convert to SCC, particularly if re-treated with mutagens. Conversion to SCC is associated with TP53 mutations. The mechanisms of multiple mutation and clonal expansion observed in human and mouse systems, respectively, are beginning to converge into a coherent understanding of precancerous events in skin.
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PMID:Skin precancer. 1048 24

The nevoid basal cell carcinoma syndrome (NBCCS) is an autosomal dominant disorder characterized by nevi, palmar and plantar pits, falx calcification, vertebrate anomalies and basal cell carcinomas. It is well known in NBCCS that gamma-irradiation to the skin induces basal cell carcinomas or causes an enlargement of the tumor size, although the details of the mechanism remain unknown. We have established lymphoblastoid cell lines from three NBCCS patients, and we present here the first evidence of abnormal cell cycle and apoptosis regulations. A novel mutation (single nucleotide deletion) in the coding region of the human patched gene, PTCH, was identified in two sibling patients, but no apparent abnormalities were detected in the gene of the remaining patient. Nevertheless, the three established cell lines showed similar features in the following analyses. Flow cytometric analyses revealed that the NBCCS-derived cells were accumulated in the G2M phase after gamma-irradiation, whereas normal cells showed cell cycle arrest both in the G0G1 and G2M phases. The fraction of apoptotic cells after gamma-irradiation was smaller in the NBCCS cells. The level of p27 expression markedly decreased after gamma-irradiation in the NBCCS cells, although the effects of the irradiation on the expression profiles for p53, p21 and Rb did not differ in normal and NBCCS cells. These findings may provide a clue to the molecular mechanisms of tumorigenesis in NBCCS.
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PMID:Gamma-irradiation deregulates cell cycle control and apoptosis in nevoid basal cell carcinoma syndrome-derived cells. 1066 53

The phenotype of Gorlin-Goltz syndrome or basal cell nevus syndrome (BCNS, #109400, OMIM), a Mendelian trait due to PTCH mutations has been reported in a few cases of interstitial deletion of chromosome 9q. We present an 11-year-old girl with clinical features consistent with BCNS including bridging of sella turcica, biparietal bossing, downward slanting palpebral fissures, mandible prognathism, pectus excavatum, thumb abnormalities, occult spina bifida at L5-S4, numerous basal cell nevi, and single basal cell carcinoma. Cytogenetic analysis using high-resolution banding techniques and fluorescence in situ hybridization (FISH) revealed interstitial chromosome deletion 9q22.32-q33.2 involving the PTCH gene as a secondary breakage event to a chromosome translocation t(9;17)(q34.1;p11.2)mat. Further FISH studies showed the translocation breakpoint on 9q34.11 maps proximal to ABL, between the BAC clone RP11-88G17 and the LMX1B gene. The latter gene encodes a transcription factor, in which loss of function mutations are responsible for the nail-patella syndrome (NPS, #161200 OMIM). Interestingly, some features of our proband (e.g., bilateral patellar dysplasia and abnormal clavicular shape), as well as her healthy sister who carries the same translocation, are also found in patients with NPS. The chromosome 17p11.2 breakpoint maps in the Smith-Magenis syndrome common deletion region, within two overlapping BAC clones, CTD-2354J3 and RP11-311F12.
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PMID:Interstitial deletion 9q22.32-q33.2 associated with additional familial translocation t(9;17)(q34.11;p11.2) in a patient with Gorlin-Goltz syndrome and features of Nail-Patella syndrome. 1469 18

Nevoid basal cell carcinoma syndrome (NBCCS, basal cell naevus syndrome, Gorlin syndrome) is an autosomal dominant disorder, caused by mutations in the PTCH gene mapped to chromosome 9q22.3. It is characterised by multiple basal cell carcinomas, keratocysts of the jaws, palmar and plantar pits, cerebral ectopic calcification and several skeletal anomalies. Occasionally, patients with NBCCS develop other neoplasms, particularly medulloblastomas and ovarian fibromas, indicating that the PTCH gene is a tumor-suppressor gene. Early recognition and careful follow-up are needed. Guidelines for managing these patients are presented.
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PMID:[From gene to disease: basal cell naevus syndrome]. 1568 38

Trichoblastomas are rare, benign tumors of the appendix in human skin. The histopathology comprises elements of basal cell carcinoma and trichoepithelioma with a variable degree of follicular differentiation. Both basal cell carcinoma and trichoepithelioma reveal alterations of PTCH, the human homolog of the Drosophila segment polarity patched gene. Furthermore, heterozygous PTCH knockout mice develop trichoblastoma-like tumors. This suggests an involvement of the PTCH gene in the pathogenesis of human trichoblastomas. However, trichoblastomas arising in nevus sebaceus did not show loss of heterozygosity at the PTCH locus (9q22.3) in a previous study. Sequencing of the PTCH gene and analysis of sporadic human trichoblastomas have not been performed yet. We therefore screened 10 sporadic trichoblastomas and 1 trichoblastoma arising within a nevus sebaceus for PTCH mutations. After microdissection of the tumors, single-strand conformational polymorphism (SSCP)/heteroduplex analysis of exons 2 to 23 of PTCH was performed, and polymerase chain reaction products with aberrant band patterns were sequenced. One trichoblastoma revealed a silent mutation at codon 562 in exon 12. Another trichoblastoma showed a somatic C > T single nucleotide substitution at codon 1,315 (exon 23), which was not present in corresponding normal epidermis. This mutation at codon 1,315 represents an already described PTCH germline polymorphism and results in a heterozygous Pro to Leu substitution in the tumor. The Pro/Leu polymorphism in germline is associated with a higher risk for breast cancer, but a potential contribution to the tumorigenesis of trichoblastoma is unknown. We detected no classical PTCH mutations in the investigated trichoblastomas. Our results indicate that PTCH mutations are not mainly involved in the pathogenesis of sporadic trichoblastomas, in contrast to basal cell carcinomas and trichoepitheliomas. The genetic basis of this rare appendageal tumor remains elusive.
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PMID:PTCH mutations are not mainly involved in the pathogenesis of sporadic trichoblastomas. 1759 82

Nevus sebaceus (NS) is a congenital skin hamartoma that presents in childhood. Tumors may arise within these lesions over time. Mutations in the PTCH gene have been associated with both NS and some of the developing tumors. Only nine documented cases of basal cell carcinoma arising in nevus sebaceus in childhood are available. We present a case of an 8-year-old male with nevus sebaceus who developed a basal cell carcinoma. Evaluation for constitutional PTCH gene mutation and loss of heterozygosity (LOH) from the BCC within the NS did not reveal an underlying mutation. We further discuss the literature regarding prophylactic excision of NS.
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PMID:Basal cell carcinoma arising in a nevus sebaceus in a child with facial trichoepitheliomas. 2073 93

Nevus sebaceous is a congenital epidermal lesion that typically presents in infancy from the neck up and rarely undergoes malignant transformation. In patients who do present with malignancy, both RAS oncogene and PTCH tumor suppressor gene mutations have been implicated. We report an unusual case of nevus sebaceous in a 41-year-old male patient that developed into basal cell carcinoma on the forehead, and elaborate on the prolonged nature and unique location of its presentation. The case highlights the need for early intervention and how variable access to primary care can impact patient outcomes. We further explore the role of gene mutations in the circumstance that nevus sebaceous does become malignant, as well as pertinent differential diagnoses to consider.
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PMID:More Than Skin Deep: A Case of Nevus Sebaceous Associated With Basal Cell Carcinoma Transformation. 3285 Feb 53

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