New case of trichorinophalangeal syndrome-like phenotype with a de novo t(2;8)(p16.1;q23.3) translocation which does not disrupt the TRPS1 gene
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- 作者:Milena Crippa ; Ilaria Bestetti ; Mario Perotti ; Chiara Castronovo…
- 关键词:Reciprocal translocation ; Conserved enhancer element ; TRPS ; TRPS1
- 刊名:BMC Medical Genetics
- 出版年:2014
- 出版时间:December 2014
- 年:2014
- 卷:15
- 期:1
- 全文大小:847 KB
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6. Lüdecke, HJ, Schaper, J, Meinecke, P, Momeni, P, Gross, S, von Holtum, D, Hirche, H, Abramowicz, MJ, Albrecht, B, Apacik, C, Christen, HJ, Claussen, U, Devriendt, K, Fastnacht, E, Forderer, A, Friedrich, U, Goodship, TH, Greiwe, M, Hamm, H, Hennekam, RC, Hinkel, GK, Hoeltzenbein, M, Kayserili, H, Majewski, F, Mathieu, M, McLeod, R, Midro, AT, Moog, U, Nagai, T, Niikawa, N, Orstavik, KH (2001) Genotypic and phenotypic spectrum in tricho-rhino-phalangeal syndrome types I and III. Am J Hum Genet 68: pp. 81-91 CrossRef
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8. Lüdecke, HJ, Wagner, MJ, Nardmann, J, La Pillo, B, Parrish, JE, Willems, PJ, Haan, EA, Frydman, M, Hamers, GJ, Wells, DE, Horsthemke, B (1995) Molecular dissection of a contiguous gene syndrome: localization of the genes involved in the Langer-Giedion syndrome. Hum Mol Genet 4: pp. 31-36 CrossRef
9. Shanske, AL, Patel, A, Saukam, S, Levy, B, Lüdecke, HJ (2008) Clinical and molecular characterization of a patient with Langer-Giedion syndrome and mosaic del(8)(q22.3q24.13). Am J Med Genet A 146A: pp. 3211-3216 CrossRef
10. Piccione, M, Niceta, M, Antona, V, Di Fiore, A, Cariola, F, Gentile, M, Corsello, G (2009) Identification of two new mutations in TRPS 1 gene leading to the tricho-rhino-phalangeal syndrome type I and III. Am J Med Genet A 149A: pp. 1837-1841 CrossRef
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- 出版者:BioMed Central
- ISSN:1471-2350
文摘
Background Trichorhinophalangeal syndrome (TRPS) is a rare autosomal dominant genetic disorder characterised by distinctive craniofacial and skeletal abnormalities. TRPS is generally associated with mutations in the TRPS1 gene at 8q23.3 or microdeletions of the 8q23.3-q24.11 region. However, three deletions affecting the same chromosome region and a familial translocation t(8;13) co-segregating with TRPS, which do not encompass or disrupt the TRPS1 gene, have been reported. A deregulated expression of TRPS1 has been hypothesised as cause of the TRPS phenotype of these patients. Case presentation We report the clinical and molecular characterisation of a 57-year-old Caucasian woman carrying the t(2;8)(p16.1;q23.3) de novo balanced translocation. The proband presented with peculiar clinical features (severe craniofacial dysmorphism, alopecia universalis, severe scoliosis, mitral valve prolapse, mild mental impairment and normal growth parameters) that partially overlap with TRPS I. Mutational and array CGH analyses ruled out any genetic defect affecting TRPS1 or genomic alteration at the translocation breakpoint or elsewhere in the genome. Breakpoint mapping excluded disruption of TRPS1, and revealed that the chromosome 8q23.3 breakpoint was located within the IVS10 of the long intergenic non-coding RNA LINC00536, at approximately 300?kb from the TRPS1 5-end. Conversely, the 2p16.1 breakpoint mapped within a LINE sequence, in a region that lacks transcriptional regulatory elements. As a result of the translocation, nucleotide base pair additions and deletions were detected at both breakpoint junction fragments, and an evolutionarily conserved VISTA enhancer element from 2p16.1 was relocated at approximately 325?kb from the TRPS1 promoter. Conclusions We suggest that the disruption of the genomic architecture of cis regulatory elements downstream the TRPS1 5-region, combined with the translocation of a novel enhancer element nearby TRPS1, might be the pathogenetic mechanism underpinning the proband’s phenotype. The clinical and genetic characterisation of the present subject allowed us to make a genetic diagnosis in the context of a known syndrome, contributing to a better comprehension of the complex transcriptional regulation of TRPS1 and TRPS ethiopathogenesis.