Investigating the role of FXN antisense transcript 1 in Friedreich ataxia

Mikaeili, Hajar

January 2017

Friedreich ataxia (FRDA) is a neurodegenerative disorder that is inherited in an autosomal recessive pattern. The most common FRDA mutation is hyperexpansion of a GAA triplet repeat sequence in the first intron of the affected gene, frataxin (FXN), resulting in decreased frataxin protein expression. The hyperexpanded GAA repeats can adopt unusual DNA structures and induce aberrant epigenetic changes leading to heterochromatin mediated gene silencing. Several epigenetic changes, including increased levels of DNA methylation, histone modifications, repressive chromatin formation and elevated levels of non-coding RNA have been reported in FRDA. It has been reported that a novel FXN antisense transcript (FAST-1), is present at higher levels in FRDA patient-derived fibroblasts and its overexpression is associated with the depletion of CTCF, a chromatin insulator protein, and heterochromatin formation involving the critical +1 nucleosome. Previously, characteristics of FAST-1 were investigated in our lab and a full-length FAST-1 transcript containing a poly (A) tail was identified. To investigate any possible effects of FAST-1 on FXN expression, I first overexpressed this FAST-1 transcript in three different non-FRDA cell lines and a consistent decrease of FXN expression was observed in each cell type compared to control cells. I also identified that FAST-1 copy number is positively correlated with increased FAST-1 expression, which in turn is negatively correlated with FXN expression in FAST-1 overexpressing cells. Additionally, we found that FAST-1 overexpression is associated with increased levels of DNA methylation at CpG sites U6 and U11 of the FXN upstream GAA repeat region, together with CTCF depletion and heterochromatin formation at the 5'UTR of the FXN gene. To further investigate the role of FAST-1 in FXN gene silencing, I used a small hairpin RNA (shRNA) strategy to knock down FAST-1 expression in FRDA fibroblast cells. I found that knocking down FAST-1 increases FXN expression, but not to the level of control cells. Lastly, I investigated the pattern of FAST-1 expression and histone modifications at the FXN transgene in our new FRDA mouse model, designated YG8LR. The YG8LR mice showed decreased levels of FXN expression and H3K9ac and increased levels of FAST-1 expression and H3K9me3. Our data suggest that since FAST-1 is associated with FXN gene silencing, inhibition of FAST-1 may be an approach for FRDA therapy.

Epigenetic Silencing of ID4 in Prostate Cancer: Mechanistic Insight

Chinaranagari, Swathi

18 May 2015

Inhibitor of DNA binding/differentiation protein 4 (ID4) is a dominant negative regulator of basic helix loop helix (bHLH) family of transcription factors. ID4 shares the homology of HLH domain with other ID proteins (ID1, ID2, and ID3) and lack the basic DNA binding region. Evidence suggested that unlike ID1, ID2 and ID3, ID4 acts as a tumor suppressor in prostate cancer by attenuating cell proliferation and promoting apoptosis. Consistent with these observations ID4 is epigenetically silenced in DU145 prostate cancer cell line. In this study we investigated whether ID4 is also epigenetically silenced in prostate cancer. We also examined association between ID4 promoter hyper-methylation and its expression in prostate cancer cell lines. ID4 protein expression was analyzed in human prostate adenocarcinoma samples by Immunohistochemistry (IHC). ID4 promoter methylation pattern on prostate cancer cell lines was examined by methylation specific PCR. In addition, we performed methylation specific PCR on the human prostate tissues and genomic DNA to correlate cell line studies with clinical studies. IHC demonstrated decreased ID4 protein expression in human prostate tissue samples, whereas higher nuclear ID4 expression was found in normal prostate tissues. ID4 methylation specific PCR (MSP) on prostate cancer cell lines, showed ID4 methylation in DU145, but not in LNCaP and C33 cells. C81 and PC3 cells showed partial methylation. Increased ID4 methylation in C81 as compared to LNCaP suggests its epigenetic silencing as cells acquire androgen independence. Tumors with ID4 promoter hyper-methylation showed distinct loss of ID4 expression. However, the underlying mechanism involved in epigenetic silencing of ID4 is currently unknown. We hypothesized that ID4 promoter methylation is initiated by an EZH2 dependent tri-methylation of histone 3 at lysine 27 (H3K27Me3). ID4 expressing (LNCaP) and non-expressing (DU145 and C81) prostate cancer cell lines were used to investigate EZH2, H3K27Me3 and DNMT1 enrichment on ID4 promoter by Chromatin immuno-precipitation (ChIP). Increased enrichment of EZH2, H3K27Me3 and DNMT1 in DU145 and C81 cell lines was compared to ID4 expressing LNCaP cell line. Knockdown of EZH2 in DU145 cell line led to re-expression of ID4 and decrease in enrichment of EZH2, H3K27Me3 and DNMT1 demonstrating that ID4 is regulated in an EZH2 dependent manner. ChIP on prostate cancer tissue specimens and cell lines suggested EZH2 occupancy and H3K27Me3 marks on the ID4 promoter. Collectively, our data indicate a PRC2 dependent mechanism in ID4 promoter silencing in prostate cancer through recruitment of EZH2 and a corresponding increase in H3K27Me3. Increased EZH2, but decreased ID4 expression in prostate cancer strongly supports this model.

ID4

Epigenetic silencing

Prostate Cancer

Biology

Cancer Biology

Cell Biology

Genetics

Other Cell and Developmental Biology

EZH2 inhibitors restore epigenetically silenced CD58 expression in B-cell lymphomas / EZH2阻害薬はB細胞リンパ腫においてエピゲノム修飾により抑制されたCD58発現を回復させる

Otsuka, Yasuyuki

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22727号 / 医博第4645号 / 新制||医||1045(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 濵﨑 洋子, 教授 羽賀 博典, 教授 伊藤 貴浩 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

CD58

EZH2 inhibitors

Epigenetic silencing

B-cell lymphoma

T cells

490

Genome-wide Analysis of F1 Hybrids to Determine the Initiation of Epigenetic Silencing in Maize

Yang, Diya

08 January 2021

No description available.

Bioinformatics

Biology

Epigenetic silencing

small RNAs

RNA-directed DNA methylation

maize

F1 hybrid

allele-specific loci

Molekulární mechanismy regulace signální dráhy WNT / Regulatory mechanisms of WNT signalling

Pospíchalová, Vendula

January 2012

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