The purpose of this research was to examine the DNA methylation profile of meningiomas. Accordingly, we examined the DNA methylation status of ten tumor-related genes (RB1, p16(INK4a), p73, MGMT, ER, DAPK, TIMP-3, p14(ARF), THBS1, and Caspase-8) in 98 meningiomas (68 grade I; 27 grade II; and 3 grade III samples) using methylation-specific PCR and sequencing. The most frequently methylated genes were THBS1 (30%), TIMP-3 (24%), p16(INK4a) (17%), MGMT (16%), p73 (15%), ER (15%), and p14(ARF) (13%), whereas methylation was relatively rare in the other genes (<10%). Methylation occurred in at least one gene in 77.5% of the cases and in three or more genes in 25.5%. Methylation was tumor specific since it was absent in the controls: two non-neoplastic meningeal samples and two non-neoplastic brain samples. The frequency of aberrant gene methylation in grade I versus grade II-III tumors showed some differences for TIMP-3, THBS1, MGMT, p16(INK4a) and p73; these differences reached statistical significance for TIMP-3: 18% in grade I versus 40% in grade II-III (P < 0.02). Our previous loss of heterozygosity studies provided the allelic constitution at 1p and 22q for 60 of the 98 meningiomas included in this report. The level of aberrant promoter methylation increased in tumors (30 samples) displaying 1p loss (either isolated or as concurrent deletion at 1p/22q; P = 0.014). These meningiomas primarily accumulated the epigenetic changes of THBS1 (14/30; 47%; P < 0.005), TIMP-3 (12/30; 40%; P < 0.05), p73 (10/30; 26%; P < 0.02) and p14(ARF) /p16(INK4a)(7/30 each one; 23%; not significant). Our findings indicate that aberrant DNA methylation of promoter-associated CpG islands in meningiomas contributes to the development of these tumors.
Alterations of the short arm of chromosome I are recurrently found in cytogenetic analysis of malignant gliomas, and deletions of 1~3 6 .~3 2 region characterize at least the higher-grade tumors, glioblastorna multiforme. Molecular analysis of tumorderived and normal genomic DNA from 57 cases of gliomas, using a panel of chromosome I-specific DNA probes showed LOH in 16 tumors. Allelic losses on I p were primarily restricted to glioblastoma multiforme (2/ I I) and to tumors with a major oligodendroglial component: grade II oligodendrogliomas (6/6), grade 111 anaplastic oligodendrogliomas (5/6) and grade 11-111 mixed oligo-astrocytomas (2/3). Losses for Iq markers were detected in only I tumor (glioblastoma multiforme). Our data suggest that anomalies of I p primarily characterize oligodendrogliomas, whereas they are rare events in astrocytic tumors and indicate that a tumor-suppressor gene on I p36-p32 is involved in the development of brain tumors with oligodendroglial differentiation. Q 1994 Wiley-Liss, Inc.Gliomas represent about 5% of all adult human cancers and account for the vast majority of primary tumors of the central nervous system. They are classified histologically into lowgrade (grades I and 11) tumors, such as astrocytomas, oligodendrogliomas and ependymomas as well as some mixed forms (oligo-astrocytoma), and high-grade or malignant tumors
The epidermal growth factor receptor (EGFR) is a transmembrane glycoprotein with tyrosine kinase activity. This report investigates the presence of mutations, amplification and/or over‐expression of the EGFR gene in 86 glial tumours including 44 glioblastomas, 21 anaplastic astrocytomas, and 21 WHO grade II astrocytomas, using polymerase chain reaction/single‐strand conformation polymorphism, semiquantitative reverse‐transcription‐polymerase chain reaction (RT‐PCR) and Southern Blot techniques. Gene amplification values were found in 34 tumours. Amplification levels were not uniform, as the transmembrane region presented lower amplification rates than extra‐ and intracellular domains. For the 19 samples with sufficient available tumour tissue we found over‐expression in 11, and no EGFR mRNA expression in three. Ten cases showed deletion transcripts, and EGFR VIII was identified in all of these cases. One of the cases with EGFR vIII also presented a truncated form, C‐958, while another showed an in frame tandem duplication of exons 18–25. We found 14 cases with sequence/structure gene alterations, including seven on which genomic novel DNA changes were identified: a missense mutation (1052C > T/Ala265Val), an insertion (InsCCC2498/Ins Pro748), three intronic changes (E6 + 72delG, E22–14C > G and E18–109T > C), a new polymorphic variant E12 + 22A > T, and one case that presented a 190 bp insertion, that was produced by the intron‐7–exon‐8 duplication and generated a truncated EGFR with intact exons 1–8 followed by an additional amino acidic sequence: Val‐Ile‐Met‐Trp. These findings corroborate that EGFR is non‐randomly involved in malignant glioma development and that different mutant forms participate in aberrant activation of tyrosine kinase pathways.
We describe a 78-year-old woman with polycythaemia rubra vera who had multiple tiny follicular hyperkeratotic spicules on the cheeks. She was receiving treatment with oral hydroxyurea, but no topical agents had been applied to her face. Histopathological study demonstrated numerous Demodex folliculorum mites within dilated follicular infundibula, and we consider that the mites were playing a part in the aetiology of the skin lesions.
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