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Long Non-Coding RNA NEAT1 Is Upregulated By Heat Shock Factor 1 (HSF1) and Associated with Multiple Myeloma Progression

Watanabe, Saki ; Oda, Tsukasa ; Kuroda, Yuko ; [et al.]

American Society of Hematology ; 2018

In: Blood Vol. 132, No. Supplement 1 ( 2018-11-29), p. 1904-1904

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In: Blood, American Society of Hematology, Vol. 132, No. Supplement 1 ( 2018-11-29), p. 1904-1904

Abstract: Background and Aims: Recent transcriptome-wide analyses have revealed an overwhelming amount of transcribed but not translated non-coding RNAs capable of influencing diverse cellular processes, such as proliferation, apoptosis, and cellular damage response. Long non-coding RNA (lnc RNA), which are commonly defined as transcripts 〉 200 nt in length, have emerged as a class of key regulatory RNA. LncRNA are deregulated in diverse human cancers and associated with disease progression, however little is available in multiple myeloma (MM). We have previously shown that lnc RNA MALAT1 was a stress response gene associated with MM progression. We found that lnc RNA NEAT1 is also highly expressed in MM cells by transcriptome analysis with next generation sequencer (NGS). NEAT1 is recently revealed to play an important role on DNA damage response (DDR) as downstream of p53, and thereby involves in carcinogenesis. However its exact role in cancers is still in controversy. In this study, we tried to elucidate role and regulation mechanism of NEAT1 during MM progression. Materials and Methods: Total 119 MM, 47 MGUS patients and 15 controls and 9 MM cell lines are subjected to the study after informed consent. The study was approved by IRB following Declaration of Helsinki. NEAT1 and its longer isoform NEAT1_2 RNA expressions were determined by RQ-PCR. RNA was extracted from purified CD138+ plasma cells from bone marrow (BM) mononuclear cells. The expression levels were normalized with ACTB and calculated with delta Ct value. Whole transcriptome analysis was performed in part of the samples by using Illumina Next Seq 500. MM cell lines transfected with tet-on p53 overexpression vector or tet-on sh-RNA HSF1 were used. RNase H-activating LNA™ GapmeR antisense oligonucleotides were used to knockdown lnc RNA in vitro. Results: The expression level of NEAT1 was significantly higher in MM (median 0.97) than MGUS (median 0.31) (p 〈 0.0001). NEAT1 level did not differ in between control (median 0.38) and MGUS (p=0.97). Although the median level was not statistically different (0.046 in MM; 0.031 in MGUS; 0.127 in control), substantial number of MM cases showed very high level of NEAT1_2. In MM samples, both NEAT1 and NEAT1_2 expression did not differ according to ISS (p=0.52, p=0.29) and cytogenetic risk group (p=0.49, p=0.203). NEAT1 and MALAT1 expression was positively correlated (r=0.632, p 〈 0.0001 in all samples, r=0.62, p 〈 0.0001 in MM only). NEAT1_2 was also positively correlated with MALAT1 expression (r=0.49, p 〈 0.0001 in MM), and NEAT1 (r=0.35, p 〈 0.0001 in MM). NEAT1 expression level and RNA structure were confirmed by transcriptome analysis with NGS. Since p53 promotes NEAT1/NEAT1_2 expression, we checked correlation in between these two genes expression levels. NEAT1 expression were positively correlated with both p53 and p21 (r=0.30, p 〈 0.0001, r=0.41, p 〈 0.0001). Positive correlations were also found in between NEAT1 and HSP90s (r=0.29, p=0.029 with HSP90AA1, r=0.29, p=0.029 with HSP90AB1, r=0.411, p=0.0018 with HSP90B1). NEAT1 was upregulated by MDM2 inhibitor nutlin3A in p53 wild type cell lines and by tet-on p53 overexpression in p53 null KMS11. Interestingly bortezomib and doxorubicin significantly increased NEAT1 and NEAT1_2 by 5-10 folds in MM cell lines even in p53 null KMS11. HSP90 inhibitors did not affect NEAT1/NEAT1_2 expression, but inhibition of HSF1, which is upstream transcription factor of HSP90, by either HSF1 inhibitor KNK437 or tet-on sh-HSF1 attenuated NEAT1/NEAT1_2 expression induced by bortezomib. NEAT1 knockdown by GapmeR did not affect cell growth. Overall survival and progression free survival of the newly diagnosed MM patients did not differ in between high and low NEAT1/NEAT1_2 expression. Conclusion: Our results revealed that NEAT1/NEAT1_2 are regulated by heat shock pathway in addition to p53 pathway. Positive correlations of NEAT1 expression level with HSP90s level and existence of heat shock element in NEAT1 promoter region support this model. Considering the role of NEAT1/NEAT1_2 in DDR, our result suggests that this lncRNA may involve MM progression via damage response. Further studies elucidating roles of NEAT1 and other lncRNAs in MM contributes to development of novel therapy as well as to understand MM pathogenesis. Disclosures Tsukamoto: Kyowa-Kirin: Research Funding; Chugai: Research Funding; Eisai: Research Funding; Pfizer: Research Funding. Handa:Celgene: Honoraria, Research Funding, Speakers Bureau; Takeda: Consultancy, Honoraria, Research Funding, Speakers Bureau.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2018-99-113720

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2018

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Methylation and Hydroxymethylation Status of Tumor Suppressor Genes and Common Fragile Sites Genes in Acute Myeloid Leukemia

Handa, Hiroshi ; Suda, Itsumi ; Kaneko, Ayaka ; [et al.]

American Society of Hematology ; 2014

In: Blood Vol. 124, No. 21 ( 2014-12-06), p. 3535-3535

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In: Blood, American Society of Hematology, Vol. 124, No. 21 ( 2014-12-06), p. 3535-3535

Abstract: Background: 5-methylation (5-mC) is the predominant epigenetic mark in mammalian genomic DNA. When promoter region of certain gene is hypermethylated, the gene becomes transcription silent. Promoter of tumor suppressor genes (TSG) usually exists in CpG islands, and silencing of TSGs in cancer cells is often associated with hypermethylation. p15, CDH1 are frequently methylated in myeloid malignancies such as acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS). Common Fragile Site (CFS) is a fragile site on the chromosomes easy to produce gap and break, and it contains putative TSGs. FHIT, WWOX and PARK2 are the CFS genes known to be frequently methylated in solid tumors, but their status of hematologic malignancies has not been fully elucidated yet. 5-hydroxymethylaiton (5-hmC) is a newly discovered epigenetic modification that is presumably generated by oxidation of 5-mC by the TET family of cytosine oxygenases. Techniques identifying 5-mC cannot distinguish between 5-mC and 5-hmC, therefore 5-hmC status of the genes have not fully elucidated yet too. Recently it has been demonstrated that mutation of epigenetic modifiers (DNMT3A, TET2, IDH1/2) play important role on AML pathogenesis. We tried to clarify 5-mC and 5-hmC status of TSG p15, CDH1 and CFS genes FHIT, WWOX and PARK2 by using new techniques and the relationships with expression levels of epigenetic modifiers in AML. Methods: BM samples obtained from 74 of AML patients are subjected to the study after informed consent. This study was approved by IRB of Gunma University Hospital. DNA, RNA were extracted from BM mononuclear cells. Methylation specific PCR (MSP) was carried out to assay 5-mC of p15, CDH1, WWOX, PARK2. Quantification of 5-mC and 5-hmC (except PARK2) was carried out by methylation sensitive restriction enzyme assay (MSRE) with glucosylation and Q-PCR. Total DNA 5-mC and 5-hmC were analyzed by ELISA. The mRNA expression levels of p15, CDH1, FHIT, WWOX, PARK2, DNMT1, 3A, TET2 were quantified by Q-PCR. Results: MSP revealed that p15, CDH1, WWOX and PARK2 were methylated in 43.1%, 94.3%, 35.7% and 36.9% of AML, respectively. PARK2 methylation was not found in t(15;17) APL, but in 32% of normal karyotype AML (NK-AML), in 67% of t(8;21) CBF-AML. In contrast, the p15 methylation was found in 83.3% of APL, 45.5% of NK-AML, 50% of CBF-AML. WWOX methylation was found in 42.9% of APL, in 16% of NK-AML and 66.7% of CBF-AML. Adverse karyotype AML (adv-AML) tended to show lower % of WWOX, PARK2 and p15 methylation with 15.8%, 21.1% and 18.8% compare to good risk karyotype. The frequency of the methylation of PARK2 and WWOX were varied among karyotypes and the methylation was mutually exclusive. ELISA demonstrated that mean % of total 5-mC DNA was 1.08% and ratio of 5-hmC in 5-mC was 0.95% in AML. Interestingly, 5-hmC was 0% in adv-AML although 5-mC existed (mean: 1.05%). Locus specific MSRE-QPCR demonstrated that mean % of 5-mC of p15, CDH1, WWOX and FHIT were 6.62%, 1.25%, 8.33%, 2.88%, respectively., In adv-AML, 5-hmC of CDH1, WWOX and FHIT were not detected, although 5-mC of these genes were detected (0.41%, 9.0%, 2.14%) in accordance with whole DNA analysis. In good and intermediate AML, 5-hmC of these genes was 3.44%, 1.07%, 2.69% ,respectively. RQ-PCR demonstrated that CDH1, p15, WWOX, PARK2 and epigenetic modifier DNMT1, DNMT3A and TET2 expression were not different among various karyotype risks, but only FHIT expression significantly higher in good risk group (p=0.047). The expression levels of the genes were not significantly different between mentylated and unmethylated. The ratio of 5-hmC/5-mC of the TSGs tended to be associated with the expression levels of the corresponding genes, but the association did not reach statistical significance. DNMT3A expression in AML with 5-mC PARK2 was higher than in other AML (p=0.016). Contrary to the intuition, DNMT3A expression was positively correlated with FHIT, PARK2 expression (r=0.776, p & lt;0.001, r=0.689, p & lt;0.001). CDH1 expression was positively correlated with DNMT1 and negatively correlated with TET2 expression (r=0.447, p=0.009, r=-0.349, p=0.022). OS and EFS were not different among the methylation status of these genes. Conclusion: CFS genes are selectively methylated in AML. MSRE-QPCR can distinguish 5-mC and 5-hmC and quantify the ratio of them with locus specific manner. The relationship between gene expression and 5-hmC, 5-mC should be pursued. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V124.21.3535.3535

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2014

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Loop Regulation Between microRNAs and Epigenetics Underlie microRNA Dysregulation in Multiple Myeloma and Is Associated with the Disease Progression

Kimura, Kei ; Kuroda, Yuko ; Masuda, Yuta ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 3013-3013

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 3013-3013

Abstract: Background: MicroRNAs (miRs) are small non-coding RNAs of 19-25 bases in length that have the ability to modulate gene expression. Some miRs are involved in carcinogenesis and act as tumor suppressor genes (TSG). It has been shown that epigenetics and miRs play an important role in multiple myeloma (MM) progression; however, precise mechanism underlying miR dysregulation has not yet been fully elucidated. Transcriptional silencing of TSG in cancer cells is often associated with DNA methylation and carried out by DNMTs. miR-29 family directly targets DNMTs and promoters of miR-34 family are also methylated in cancers. In this study, we attempted to clarify the interaction between miR and epigenetics focusing on the miR-29 and miR-34 families and their associated genes to understand mechanism of miR dysregulation in MM. Methods: Bone marrow plasma cells from 123 MM patients, 57 MGUS patients, 20 control subjects and 9 MM cell lines were analyzed. This study was approved by the IRB of Gunma University and all patients provided their informed consent prior to enrollment. MiRs and their target gene mRNA values were determined by RQ-PCR. DNA methylation status was determined by methylation-specific PCR. Decitabine, nutlin-3, c-myc inhibitor 10058-F4, and miRNA-mimicTM were used. Result: We found a significantly reduced expression of miR-29a, -29b, -29c, -34a, -34b, and -34c in MM patients compared with MGUS patients and the control subjects (all: p 〈 0.001). DNMT1, -3A and -3B were elevated in MM patients compared with MGUS patients and the control subjects (p 〈 0.001, p 〈 0.001, p=0.01, respectively). DNMT1 was inversely correlated with miR-29a and miR-29b (r=-0.419, p=0.005, r=-0.407, p=0.006, respectively). DNMT3A was inversely correlated with miR-29a, miR-29b and miR-29c (r=-0.315, p=0.04; r=-0.371, p=0.01; r=-0.315, p=0.04, respectively). DNMT3B was inversely correlated with miR-29a and miR-29b (r=-0.353, p=0.02; r=-0.358, p=0.02, respectively). The promoter regions of miR-34a and miR-34b/c were methylated in the MM cell lines, and the rate of methylation of these miRs were higher in MM patients (45.4%, 70.2%, respectively) compared with MGUS patients (15.8%, 26.3%, respectively) (p 〈 0.001). There were significant positive correlations among the miRs expression levels: 29a-34a r=0.448, p 〈 0.001; 29a-34b r=0.309, p=0.001; 29b-34a r=0.500, p 〈 0.001; 29b-34b r=0.297, p=0.002). The expression level of TP53 and its downstream target p21 was higher in MM patients (p=0.004, p 〈 0.001) compared with MGUS patients and the control subjects. The expression level of TP53 was positively correlated with p21 (r=0.33, p 〈 0.001), but not with miR-34a, -b or -c, which were presumed to be upregulated by TP53. In the MM cell lines, nutlin-3, which accumulates TP53 protein, did not increase the expression of miR-34a, -b or -c; however, decitabine increased the expression of pri-miR-34a by 1.2-7.3 fold, pri-miR-34b by 3.3-7.1 fold and increased miR-34a and miR-34b/c by 1.3-2.3 fold and 1.2-5.4 fold, respectively, suggesting that miR-34 family transcription was suppressed by methylation. The transfection of miR-29a or -29b reduced DNMT3A and 3B expression by 0.5 fold and increased pri-miR-34 expression by 2-8 fold. Treatment with a c-myc inhibitor increased the expression of pri-miR-29a/b-1 by 6-8 fold, and miR-29b by 4-7 fold in the MM cell lines. Moreover, the c-myc inhibitor increased the expression of pri-miR-34a by 20-192 fold and miR-34a by 3-6 fold. The transfection of miR-34 reduced the expression of target genes CDK6, SIRT1 and c-myc by 0.4 to 0.6 fold. The expression levels of CDK6, SIRT1 and c-myc were significantly higher in MM patients compared with MGUS patients and the control subjects (p=0.04, p 〈 0.0001, p 〈 0.0001, respectively). Conclusion: We found a significant reduction in the miRs expression levels in MM patients and cell lines, which was partly associated with methylation. Correlations between miRs and related transcripts in patients and an in vitro study demonstrate a negative regulation loop where c-myc suppresses the expression of the miR-29 family, the miR-29 family suppresses DNMT, DNMT suppresses the miR-34 family through promoter methylation, and the miR-34 family suppresses c-myc. This mechanism might underlie the dysregulation of miRs in MM and the disruption of this loop mechanism may be a novel target for MM treatment. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.3013.3013

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

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BCL6 Dose Not Negatively Regulate DNA Damage Response Genes in Multiple Myeloma Cells

Tahara, Kenichi ; Takizawa, Makiko ; Handa, Hiroshi ; [et al.]

American Society of Hematology ; 2014

In: Blood Vol. 124, No. 21 ( 2014-12-06), p. 2035-2035

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In: Blood, American Society of Hematology, Vol. 124, No. 21 ( 2014-12-06), p. 2035-2035

Abstract: Background: A proto-oncogene BCL6 is a known transcriptional repressor and a master regulator of germinal center B cell program. It represses expression of DNA damage response genessuch as p53, ATR, CHEK1 and p21, which helps B cells to survive and expand during antigen receptor-diversification reactions. It also plays a pivotal role in the formation of germinal centers and lymphomagenesis. BCL6 is down-regulated in normal plasma cells while it is aberrantly expressed in bone marrow residing myeloma cells. Although the role of BCL6 in B cell lymphomas has been intensively studied, its role in plasma cell neoplasms remains to be elucidated. In this study we asked whether BCL6 plays a role in DNA damage response of myeloma cells. Methods: Bone marrow samples obtained from 36 of primary plasma cell dyscrasia patients (5 cases of MGUS, 30 of multiple myeloma (MM) and 1 plasma cell leukemia (PCL)) were subjected to the study after informed consent. This study was approved by IRBs of Gunma University Hospital and Nishigunma National Hospital. CD138-positive bone marrow plasma cells were isolated as a purity of 〉 95% using magnetic beads and RNAs were extracted. Expression levels of BCL6, p53, ATR, CHEK1 and p21 were quantified by real time PCR using Taqman-probes. For retroviral infection, BCL6 was cloned into pMY-IRES-GFP vector and transfected to PlatA cells using lipofection reagents. 48 hours later, supernatants were collected and centrifuged for 16 hours and the pellets were used for infection. GFP positive cells were collected and used for following experiments. For γH2AX foci formation analysis, the cells were given ionized irradiation at doses of 0, 3, 5 and 10Gy, and used after an hour incubation. Cells were also exposed to different concentration of etoposide (0, 1, 5, 10, 50, 100μM) for 30minute, then washed with fresh media and incubated for an hour. Cells were stained with a FITC-labeled anti-γH2AX antibody as reported (Muslimovic et al, Nat. Protoc. 2008). For cell cycle analysis by flow cytometry, EdU uptake and 7AAD DNA staining were performed according to a manufacture’s protocol (Life Technologies). Correlation of expression levels between each of genes was assessed using Spearman’s non-parametric correlation analysis. Results: Median of BCL6 expression levels of MM and PCL cells (Qty median=1.47, range 0.09-17.2) was not significantly different from that of MGUS cells (Qty median=1.84, range 0.8-4.2, p=0.51). In marked contrast to germinal center B cells, expression levels of BCL6 and p53 were positively correlated in MM, PCL and MGUS (r=0.457, p=0.007). The correlation between expression of BCL6 and ATR did not reach statistical significance (r=0.323, p=0.062). ATR and p53 were also positively correlated (r=0.549, p=0.001). The expression level of p21, a well-known target of p53, was positively correlated to that of p53 (r=0.681, p=0.03), which supports our data qualification. We also examined mRNA expression levels of BCL6 in MM cell lines, RPMI8226, KMS11, KMS12PE, KMS12BM, KMS18, KMS26, ARH 77 and U266. U266, KMS12PE, KMS26 expressed little amount of BCL6 compared to the patient samples. The other five cell lines did not express BCL6. In order to study BCL6 functions in MM cells, we retrovirally expressed BCL6 in the KMS12BM cell line. The expression level of BCL6 was comparable to the patient samples after the retroviral expression (QTy 6.70). Since BCL6 is known to be a transcriptional repressor and supposed to directly repress p53, ATR, CHEK1 and p21 in B cells, we analyzed expression levels of these genes. Intriguingly, p53, ATR, CHEK1 and p21 are not repressed by overexpression of BCL6 in KMS12BM. These results suggest that alternative regulatory mechanisms of transcriptional regulation by BCL6 are present in MM cells. For further evaluation of the DNA damage response by BCL6 expression, we irradiated or treated these cells with etoposide and analyzed for γH2AX foci formation, a hallmark of DNA double strand break. No differences in the foci formation between mock-infected and BCL6-infected-KSM12BM were detected either with irradiation or etoposide exposure. We also studied cell cycle progressionin these cells. Flow cytometry analysis showed no significant difference between these cells. Conclusion: Unlike B cells in germinal centers, BCL6 expression in myeloma cells did not repress DNA damage response gene expression. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V124.21.2035.2035

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2014

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Long Non-Coding RNA MALAT1 Is Associated with the Progression of Multiple Myeloma and Induced By Cellular Stress

Kuroda, Yuko ; Kimura, Kei ; Masuda, Yuta ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 1759-1759

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 1759-1759

Abstract: Background: Recent transcriptome-wide analyses have revealed an overwhelming amount of transcribed, but not translated, non-coding RNAs capable of influencing diverse cellular processes such as proliferation, apoptosis, and motility. Long non-coding RNA (lncRNAs), which are commonly defined as transcripts 〉 200 nt in length, have emerged as a class of key regulatory RNA. LncRNAs are deregulated in diverse human cancers and associated with disease progression; however, little is known about its role in multiple myeloma (MM). To elucidate the role of lncRNAs in MM, we studied the expression patterns of several well-known lncRNAs in the plasma cells of MM, MGUS and plasmacytoma patients and the function in MM cell lines in vitro. Moreover, to reveal the distinct lncRNA signature comprehensively, we performed next-generation sequencing-based RNA sequencing. Methods: CD138+ plasma cells from bone marrow (BM) mononuclear cells were obtained from 110 MM patients, 48 MGUS patients, 19 control subjects and 1 patient with extramedullary plasmacytoma of the liver and analyzed after obtaining informed consent from all the patients. The expression levels of lncRNAs MALAT1, ANRIL, HOTAIR, HOTTIP, and XIST were determined by a RQ-PCR analysis. RNase H-activating LNA™ GapmeR antisense oligonucleotides were used to knockdown lncRNA in vitro in MM cell lines. The cell lines were then treated with bortezomib, MG132, doxorubicin and hypoxic conditions to evaluate the effects of cytotoxic stress on the lncRNA expression. This study was approved by the IRB of Gunma University Hospital in accordance with the Declaration of Helsinki. Results: A significant higher level of MALAT1 expression was observed in BM plasma cells of MM patients (4.49) compared to MGUS patients (1.51) and control subjects (0.55) (p 〈 0.001). Strikingly, MALAT1 expression in extramedullary plasmacytoma of the liver was 140-fold higher compared with BM plasma cells obtained at the same time of sampling (433.7 vs 3.21). MALAT1 expression was higher in MM patients with t(4;14) and del 17p (10.05 vs 3.90, p=0.049; 5.22 vs 2.76, p=0.03, respectively), but no difference was observed between stages according to the International Staging System (ISS) (p=0.87). Neither the overall survival nor the progression-free survival differed between patients with high and low MALAT1 expression. ANRIL expression levels were diverse according to the patients (range, 0 to 294.3), however, the median expression was significantly higher in MM patients (p 〈 0.001). HOTAIR and HOTTIP expression levels were not detected in most samples, and XIST expression was found only in female patient samples as expected. Interestingly, the MM cell lines KMS12PE, OPM2, KMS11 treated with bortezomib showed elevated MALAT1 expression by 4.3 -21.8 fold and ANRIL by 2.2-4.7 fold; however, this increase was not observed in bortezomib-resistant cell lines. Another proteasome inhibitor, MG132, and a low dose of the cytotoxic drug doxorubicin also elevated both lncRNAs in the cell lines. Hypoxic stress, which has been shown to induce MALAT1 in vascular cells, did not increase either lncRNA. MALAT1 knockdown by GapmeR did not affect cell proliferation. It has been shown that MALAT1 enhances cell motility of lung adenocarcinoma cells by influencing cell motility associated genes; however, the expression of previously reported affected genes, such as HMMR, CTHRC1 and ROD1, was not altered in the MALAT1 knockdown MM cell lines. Although t(4;14) was associated with a high MALAT1 expression in the patient samples, MMSET knockdown by siRNA did not change the MALAT1 expression in the cell lines, thus MMSET was not a regulator of MALAT1. RNA sequencing of MM and MGUS samples revealed a distinct lncRNA expression signature as well as protein coding genes. Conclusion: Significant upregulation of lncRNAs MALAT1 and ANRIL might be associated with MM progression. Given that MALAT1 is associated with lung cancer metastasis, MALAT1 might be strongly associated with extramedullary plasmacytoma formation due to its high expression in liver plasmacytoma. Genotoxic and ER stress induced by therapeutic drugs might upregulate MALAT1 expression, leading to extramedullary extension, which is a recent problem in MM treatment. Determining the distinct lncRNA signature of MM is a current important issue to clarify the molecular mechanisms underlying MM progression for the development of novel therapies. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.1759.1759

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

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MYC Causes Multiple Myeloma Progression via Attenuating TP53-Induced MicroRNA-34 Expression

Murakami, Yuki ; Kimura-Masuda, Kei ; Oda, Tsukasa ; [et al.]

MDPI AG ; 2022

In: Genes Vol. 14, No. 1 ( 2022-12-29), p. 100-

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In: Genes, MDPI AG, Vol. 14, No. 1 ( 2022-12-29), p. 100-

Abstract: MicroRNAs (miRNAs and miRs) are small (19–25 base pairs) non-coding RNAs with the ability to modulate gene expression. Previously, we showed that the miR-34 family is downregulated in multiple myeloma (MM) as the cancer progressed. In this study, we aimed to clarify the mechanism of miRNA dysregulation in MM. We focused particularly on the interaction between MYC and the TP53-miR34 axis because there is a discrepancy between increased TP53 and decreased miR-34 expressions in MM. Using the nutlin-3 or Tet-on systems, we caused wild-type (WT) p53 protein accumulation in human MM cell lines (HMCLs) and observed upregulated miR-34 expression. Next, we found that treatment with an Myc inhibitor alone did not affect miR-34 expression levels, but when it was coupled with p53 accumulation, miR-34 expression increased. In contrast, forced MYC activation by the MYC-ER system reduced nutlin-3-induced miR-34 expression. We also observed that TP53 and MYC were negatively correlated with mature miR-34 expressions in the plasma cells of patients with MM. Our results suggest that MYC participates in the suppression of p53-dependent miRNA expressions. Because miRNA expression suppresses tumors, its inhibition leads to MM development and malignant transformation.

Type of Medium: Online Resource

ISSN: 2073-4425

URL: Article

DOI: 10.3390/genes14010100

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2527218-4

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Long Noncoding RNA PVT1 Is Regulated by Bromodomain Protein BRD4 in Multiple Myeloma and Is Associated with Disease Progression

Handa, Hiroshi ; Honma, Kazuki ; Oda, Tsukasa ; [et al.]

MDPI AG ; 2020

In: International Journal of Molecular Sciences Vol. 21, No. 19 ( 2020-09-27), p. 7121-

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In: International Journal of Molecular Sciences, MDPI AG, Vol. 21, No. 19 ( 2020-09-27), p. 7121-

Abstract: Long noncoding RNAs (lncRNAs) are deregulated in human cancers and are associated with disease progression. Plasmacytoma Variant Translocation 1 (PVT1), a lncRNA, is located adjacent to the gene MYC, which has been linked to multiple myeloma (MM). PVT1 is expressed in MM and is associated with carcinogenesis. However, its role and regulation remain uncertain. We examined PVT1/MYC expression using real-time PCR in plasma cells purified from 59 monoclonal gammopathy of undetermined significance (MGUS) and 140 MM patients. The MM cell lines KMS11, KMS12PE, OPM2, and RPMI8226 were treated with JQ1, an MYC super-enhancer inhibitor, or MYC inhibitor 10058-F4. The expression levels of PVT1 and MYC were significantly higher in MM than in MGUS (p 〈 0.0001) and were positively correlated with disease progression (r = 0.394, p 〈 0.0001). JQ1 inhibited cell proliferation and decreased the expression levels of MYC and PVT1. However, 10054-F4 did not alter the expression level of PVT1. The positive correlation between MYC and PVT1 in patients, the synchronous downregulation of MYC and PVT1 by JQ1, and the lack of effect of the MYC inhibitor on PVT1 expression suggest that the expression of these two genes is co-regulated by a super-enhancer. Cooperative effects between these two genes may contribute to MM pathogenesis and progression.

Type of Medium: Online Resource

ISSN: 1422-0067

URL: Article

DOI: 10.3390/ijms21197121

Language: English

Publisher: MDPI AG

Publication Date: 2020

detail.hit.zdb_id: 2019364-6

SSG: 12

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Th1 Polarization of Cytokine and Cytokine Receptor Polymorphisms Affect the Susceptibility and Severity of ITP

Takahashi, Noriyuki ; Saitoh, Takayuki ; Gotoh, Nanami ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 2245-2245

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 2245-2245

Abstract: Introduction: Immune thrombocytopenia (ITP) is an acquired autoimmune disorder characterized by the production of platelet antibodies, resulting in the destruction of platelets and inhibition of their production. Many cytokine profile study have revealed a clear T helper type1 (Th1) cytokine polarization in chronic ITP patients, using quantitative RT-PCR and flow cytometry method. However, it remains unclear whether genetic factors of Th1/Th2 cytokine and cytokine receptor affect chronic ITP. We investigated the impact of IFN-γ+874T/A, IFN-γ receptor (R) -611G/A, IL-4 -590C/T, and IL-4 receptor (R) a Q576R polymorphisms on the susceptibility and clinical feature of chronic ITP and Th1/Th2 ratio in peripheral blood of ITP patients, Patients and methods: Genotyping was determined by PCR based technique and direct sequencing. The diagnosis and response criteria of the ITP were defined according to International Working Group criteria. We evaluated Th1/Th2 ratio in peripheral blood of 15 normal donors and 25 ITP patients by intracellular flow cytometry. Intracellular IL-4 (Th2 cytokine) and IFN-γ (Th1 cytokine) production was assessed in CD4+ T lymphocytes activated by phorbol 12-myristate 13-acetate and ionomycin by flow cytometry. This study was approved by the IRB of our hospital. Results: The platelet count ranged from 1´109/L to 98´109/L with a mean count of 32´109/L at the initial diagnosis. Eighty-three patients (56.1%) had bleeding tendency and 24 patients (16.2%) had severe thrombocytopenia ( 〈 10 ´109/L). Steroid treatment was given to 86 patients (58.1%), and eradication of Helicobacter pylori was performed in 38 patients (25.7%), while splenectomy was performed in only 18 patients (12.2%). As compared to control group, chronic ITP patients had significantly higher frequency of the IL-4R576 non-QQ (low function type) than QQ (high function type) (29.7% vs 15.2%, P 〈 0.05). ITP patients with IL-4-590 CC genotype (low expression type) showed lower platelet counts than those with IL-4-590 non-CC genotype (high expression type) (21±17 X109/mL vs 33±27 X109/mL, p 〈 0.05). ITP patients with IFN-γ+874 non-AA genotype (high expression type) showed lower response rate to steroid treatment than those with IFN-γ+874 AA genotype (low expression type) (76.9% vs 97.5%, p 〈 0.05). We examined the association between Th1/Th2 polymorphisms and Th1/Th2 ratio in both normal donors and ITP patients. Th1/Th2 ratio was not significantly different among IFN-γ+874T/A, IFN-γR-611G/A, IL-4-590C/T, and IL-4Ra Q576R polymorphisms in normal donors. In contrast, ITP patients with IL-4Ra576 non-QQ genotype (low function type) had higher tendency of Th1/Th2 ratio compared to IL-4Ra576 QQ genotype (high function type) (111.2±216.1 vs. 20.8±21.6, p = 0.12). Conclusion: These findings suggested that Th1 polarization of Th1/Th2 cytokine and cytokine receptor polymorphisms affect the susceptibility and severity of chronic ITP. Especially, IL-4Ra576 QQ genotype may be closely associated with the risk of ITP and Th1 polarization. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.2245.2245

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Integrin α7 and Extracellular Matrix Laminin 211 Interaction Promotes Proliferation of Acute Myeloid Leukemia Cells and Is Associated with Granulocytic Sarcoma

Kobayashi, Nobuhiko ; Oda, Tsukasa ; Takizawa, Makiko ; [et al.]

MDPI AG ; 2020

In: Cancers Vol. 12, No. 2 ( 2020-02-05), p. 363-

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In: Cancers, MDPI AG, Vol. 12, No. 2 ( 2020-02-05), p. 363-

Abstract: Acute myeloid leukemia (AML) with granulocytic sarcoma (GS) is characterized by poor prognosis; however, its underlying mechanism is unclear. Bone marrow samples from 64 AML patients (9 with GS and 55 without GS) together with AML cell lines PL21, THP1, HL60, Kasumi-1, and KG-1 were used to elucidate the pathology of AML with GS. RNA-Seq analyses were performed on samples from seven AML patients with or without GS. Gene set enrichment analyses revealed significantly upregulated candidates on the cell surface of the GS group. Expression of the adhesion integrin α7 (ITGA7) was significantly higher in the GS group, as seen by RT-qPCR (p = 0.00188) and immunohistochemistry of bone marrow formalin-fixed, paraffin-embedded (FFPE) specimens. Flow cytometry revealed enhanced proliferation of PL21 and THP1 cells containing surface ITGA7 in the presence of laminin 211 and stimulated ERK phosphorylation; this effect was abrogated following ITGA7 knockdown or ERK inhibition. Overall, high ITGA7 expression was associated with poor patient survival (p = 0.0477). In summary, ITGA7 is highly expressed in AML with GS, and its ligand (laminin 211) stimulates cell proliferation through ERK signaling. This is the first study demonstrating the role of integrin α7 and extracellular matrix interactions in AML cell proliferation and extramedullary disease development.

Type of Medium: Online Resource

ISSN: 2072-6694

URL: Article

DOI: 10.3390/cancers12020363

Language: English

Publisher: MDPI AG

Publication Date: 2020

detail.hit.zdb_id: 2527080-1

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