Literature DB >> 28527972

Genetic and epigenetic alterations in meningiomas.

Vasiliki Galani1, Evangeli Lampri2, Anna Varouktsi3, George Alexiou4, Antigoni Mitselou5, Athanasios P Kyritsis6.   

Abstract

Meningiomas originate from the arachnoid layer of the meninges and divided histologically into three grades: benign (grade I), atypical (grade II), and malignant meningiomas (grade III). Genetic alterations in grade I meningiomas include frequent deletions of chromosomal locus 22q12 and NF2 gene mutations and uncommon somatic SMARCB1 and SMARCE1gene mutations; In grade II meningiomas, chromosomal losses occur on 1p, 22q, 14q, 18q, 10, and 6q, and gains on 20q, 12q, 15q, 1q, 9q, and 17q; In grade III meningiomas, losses have been recognized on 6q, 10, and 14q and alterations of PTEN, CDKN2A and CDKN2B genes. Epigenetic alterations in meningiomas include hypermethylation of the tumor suppressor genes p73 in grade I meningiomas and TIMP3 GSTP1, MEG3, HOXA6, HOXA9, PENK, WNK2 and UPK3A genes with an increasing frequency according to grade. Abnormal expression of IGF signaling family genes and Wnt signaling pathway is associated with meningioma progression. MiRNA expression profiling of meningiomas show downregulation of miR-29c-3p, miR-200a, miR-145 and miR- 219-5p and upregulation of miR-21 miR-335 and miR-190a levels. In conclusion, extensive genetic and epigenetic alterations exist in meningiomas that may help assessing prognosis. In addition, since miRNA expression may be modified by artificial miRNAs, new effective therapeutic strategies may be developed especially for resistant or high grade meningiomas.
Copyright © 2017 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Epigenetic alterations; Genetic alterations; Meningiomas; MiRNAs and Meningiomas

Mesh:

Substances:

Year:  2017        PMID: 28527972     DOI: 10.1016/j.clineuro.2017.05.002

Source DB:  PubMed          Journal:  Clin Neurol Neurosurg        ISSN: 0303-8467            Impact factor:   1.876


  22 in total

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2.  From process to progress-2017 International Conference on Neurofibromatosis 1, Neurofibromatosis 2 and Schwannomatosis.

Authors:  Rosalie E Ferner; Annette Bakker; Ype Elgersma; D Gareth R Evans; Marco Giovannini; Eric Legius; Alison Lloyd; Ludwine M Messiaen; Scott Plotkin; Karlyne M Reilly; Aaron Schindeler; Miriam J Smith; Nicole J Ullrich; Brigitte Widemann; Larry S Sherman
Journal:  Am J Med Genet A       Date:  2019-03-25       Impact factor: 2.802

3.  Consensus core clinical data elements for meningiomas (v2021.1).

Authors:  Farshad Nassiri; Justin Z Wang; Karolyn Au; Jill Barnholtz-Sloan; Michael D Jenkinson; Kate Drummond; Yueren Zhou; James M Snyder; Priscilla Brastianos; Thomas Santarius; Suganth Suppiah; Laila Poisson; Francesco Gaillard; Mark Rosenthal; Timothy Kaufmann; Derek S Tsang; Kenneth Aldape; Gelareh Zadeh
Journal:  Neuro Oncol       Date:  2022-05-04       Impact factor: 13.029

4.  Down-regulation of long non-coding RNA MEG3 suppresses osteogenic differentiation of periodontal ligament stem cells (PDLSCs) through miR-27a-3p/IGF1 axis in periodontitis.

Authors:  Yi Liu; Chunpeng Liu; Ankui Zhang; Shichang Yin; Ting Wang; Yan Wang; Meiming Wang; Yixin Liu; Qiaohui Ying; Jinrui Sun; Fulan Wei; Dongxu Liu; Chunling Wang; Shaohua Ge
Journal:  Aging (Albany NY)       Date:  2019-08-09       Impact factor: 5.682

5.  Three-Dimensional Radiomics Features From Multi-Parameter MRI Combined With Clinical Characteristics Predict Postoperative Cerebral Edema Exacerbation in Patients With Meningioma.

Authors:  Bing Xiao; Yanghua Fan; Zhe Zhang; Zilong Tan; Huan Yang; Wei Tu; Lei Wu; Xiaoli Shen; Hua Guo; Zhen Wu; Xingen Zhu
Journal:  Front Oncol       Date:  2021-04-15       Impact factor: 6.244

6.  Increased levels of the long noncoding RNA, HOXA-AS3, promote proliferation of A549 cells.

Authors:  Hongyue Zhang; Ying Liu; Lixin Yan; Min Zhang; Xiufeng Yu; Wei Du; Siqi Wang; Qiaozhi Li; He Chen; Yafeng Zhang; Hanliang Sun; Zhidong Tang; Daling Zhu
Journal:  Cell Death Dis       Date:  2018-06-13       Impact factor: 8.469

7.  An integrated genomic analysis of anaplastic meningioma identifies prognostic molecular signatures.

Authors:  Grace Collord; Patrick Tarpey; Natalja Kurbatova; Inigo Martincorena; Sebastian Moran; Manuel Castro; Tibor Nagy; Graham Bignell; Francesco Maura; Matthew D Young; Jorge Berna; Jose M C Tubio; Chris E McMurran; Adam M H Young; Mathijs Sanders; Imran Noorani; Stephen J Price; Colin Watts; Elke Leipnitz; Matthias Kirsch; Gabriele Schackert; Danita Pearson; Abel Devadass; Zvi Ram; V Peter Collins; Kieren Allinson; Michael D Jenkinson; Rasheed Zakaria; Khaja Syed; C Oliver Hanemann; Jemma Dunn; Michael W McDermott; Ramez W Kirollos; George S Vassiliou; Manel Esteller; Sam Behjati; Alvis Brazma; Thomas Santarius; Ultan McDermott
Journal:  Sci Rep       Date:  2018-09-10       Impact factor: 4.379

8.  Intraventricular meningiomas frequently harbor NF2 mutations but lack common genetic alterations in TRAF7, AKT1, SMO, KLF4, PIK3CA, and TERT.

Authors:  Gerhard Jungwirth; Rolf Warta; Christopher Beynon; Felix Sahm; Andreas von Deimling; Andreas Unterberg; Christel Herold-Mende; Christine Jungk
Journal:  Acta Neuropathol Commun       Date:  2019-08-30       Impact factor: 7.801

Review 9.  Meningioma: A Review of Clinicopathological and Molecular Aspects.

Authors:  Kristin Huntoon; Angus Martin Shaw Toland; Sonika Dahiya
Journal:  Front Oncol       Date:  2020-10-23       Impact factor: 6.244

10.  Identification of a Transcription Factor-microRNA-Gene Coregulation Network in Meningioma through a Bioinformatic Analysis.

Authors:  Juan Wang; Yan Liang; Hui Yang; Jian-Huang Wu
Journal:  Biomed Res Int       Date:  2020-08-07       Impact factor: 3.411
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