Influência do MicroRNA let-7 e miR-17-92 como oncomiRs no câncer. / Influence of MicroRNA let-7 and miR-17-92 as oncomiRs in cancer.

Cesar Seigi Fuziwara

24 August 2010

No câncer, alterações em microRNAs (miRNAs), pequenos RNAs que regulam a tradução protéica, exerce efeito oncogênico (oncomiR). Os oncomiRs regulam genes chave para a proliferação celular e apoptose, sendo importantes para a biologia do câncer. O carcinoma papilífero de tiróide apresenta alterações genéticas alinhadas na via MAPK (RET>RAS>BRAF>ERK). Observamos que a indução do oncogene RET/PTC diminui a expressão de let-7 em células foliculares tiroidianas. Na linhagem TPC-1 (com RET/PTC-1), a introdução de let-7 diminui a proliferação celular e a fosforilaçãode ERK, indicando papel de gene supressor tumoral. No carcinoma anaplásico, avaliamos o papel da introdução do cluster miR-17-92 na linhagem ARO. Observamos que in vitro miR-17-92 atua de forma oncogênica aumentando proliferação e viabilidade celular de ARO. No entanto, estas células apresentam diminuição no crescimento em soft-agar. No xenotransplante, os tumores de ARO-miR-17-92 apresentam menor volume e expressam MMP-9 de forma reduzida, indicando também um papel de gene supressor tumoral para o cluster. / In cancer, alteration in microRNA, small RNAs (~22nt) that regulate post-transcriptionally protein levels, exerts oncogenic role (oncomiR). OncomiRs control genes involved in cell proliferation and apoptosis, influencing cancer biology. Papillary thyroid cancer displays activating genetic alterations in MAPK signaling pathway (RET>RAS>BRAF>ERK). Using conditional induction of oncogenes in thyroid cells, we observed that RET/PTC decreases let-7 miRNA expression. In papillary thyroid cancer cell TPC-1 (with RET/PTC-1) we observed that let-7 introduction inhibits cell proliferation and ERK phosphorylation, indicating tumor suppressor role for let-7. In anaplastic thyroid cancer, we evaluate the role of introduction of miR-17-92 cluster in ARO cell line. We observed in vitro that miR-17-92 increases ARO cell proliferation and viability, acting as oncogene. However, these cells show impaired soft agar growth. In xenotransplant, ARO-miR-17-92 tumors are smaller in volume and express reduced levels of MMP-9, indicating a tumor suppressor role for the cluster.

Glândula tireóide

Let-7

MicroRNA

miR-17-92

Neoplasias da tireóide

Proliferação RET/PTC

Let-7

MicroRNA

miR-17-92

Proliferation

RET-PTC

Thyroid gland

Thyroid neoplasms

Regulace transkripce mikroRNA klastru miR-17-92 v průběhu diferenciace makrofágů. / Transcriptional regulation of miR-17-92 microRNA cluster during macrophage differentiation.

Rybářová, Jana

January 2010

miR-17-92 cluster (Oncomir1) encodes seven microRNAs (miRNA, miR) regulating many biological processes including proliferation, differentiation or apoptosis. Overexpression of microRNAs encoded by miR-17-92 cluster is found in a number of tumors including acute and chronic myeloid leukemias (Dixon-McIver et al., 2008; Li et al., 2008; Venturini et al., 2007). Myeloid progenitors express miR-17-92 cluster at a high level, while macrophage differentiation associates with its downregulation. Our laboratory found, that miR-17-92 cluster is repressed by transcription factor Early growth response 2 (Egr2) upon differentiation of primary myeloid PUER progenitors, induced with transcription factor PU.1. Aim of this thesis is to further test the abovementioned data by preparing a reporter vectors set, carrying various fragments of miR-17-92 putative promoter, which enables us to study regulation of transcription of miR-17-92 cluster. This task complicated by presence of increased GC content of the miR-17-92 promoter was successfully accomplished resulting in amplification of eight fragments containing the various parts of miR-17-92 promoter including region -3.3 to 0 kb relative to the start of miR-17-5p sequence, that were inserted into pGL3 reporter vector. Transfection of pGL3 reporter vector carrying...

Identification of micro-RNAs and their messenger RNA targets in Prostate cancer and Biological fluids

Sharma, Kanika

01 January 2014

Prostate cancer is the second most common cancer in the United States that affects men today. To better treat this disease accurate biomarkers and successful therapeutic treatments are needed. A novel approach to understand the mechanisms behind prostate cancer tumor formation lies in identifying dysregulated micro-RNAs (miRNAs), which are a class of small (18-24 nucleotides) non-coding RNAs that regulate gene expression posttranscriptionally by either inhibiting protein synthesis or signaling messenger-RNA for degradation. Multiple miRNAs were discovered in our highly tumorigenic and metastatic prostate cancer progression model M12 cell line compared to its weakly tumorigenic P69 parental cell line. Various analyses such as human panel analyses, single-miR analyses and patient tumor biopsy samples were analyzed to determine dysregulated miRNAs that contributed to the progression and metastasis of prostate cancer. Together with performing experiments to identify miRNAs, a de novo next generation sequencing approach was applied to identify miRNAs naturally present in biological fluids of normal and healthy subjects. Since, these miRNAs are highly dysregulated in many diseases, including cancer, they can act as potential biomarkers or therapeutic targets to improve treatments for prostate cancer. Essential miRNAs studied for this research were miR-17-3p that is known to target the ErbB2 mRNA; miR-299-5p that directly targets osteopontin (OPN) mRNA, and miR-147b that directly targets many mRNAs, such as COL4A2, ALDH5A1, NDUFA4, SDHD, and IER5. A wide range of miRNAs were identified in six biological fluids: venous blood, menstrual blood, vaginal fluid, semen, saliva, and feces. There were some miRNAs that were common to all 6 body fluids, some unique to each body fluid, and some miRNAs that literature suggested could potentially be biomarkers or normalizers for body fluid characterization.

prostate cancer

micro-RNAs

OPN

miR-17-3p

miR-299-5p

miR-147b

ErbB2

Col4A2

Bioinformatics

Étude du mécanisme d'autorégulation entre les facteurs de transcription E2F et le microARN miR-20a

Sylvestre, Yannick

January 2007

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Facteurs de transcription E2F

Autorégulation

miARN

Cluster miR-17-92

Prolifération cellulaire

Apoptose

The Functions And Molecular Mechanisms Of Microrna-17-92 Cluster In Primary Liver Cancer.

January 2014

MiR-17-92 is an oncogenic miRNA cluster implicated in the development of several human cancers; however, it remains unknown whether miR-17-92 cluster is able to regulate hepatobiliary carcinogenesis. This study was designed to investigate the biological functions and molecular mechanisms of miR-17-92 cluster in primary liver cancer.<br>In-situ hybridization and qRT-PCR analysis showed that miR-17-92 cluster is highly expressed in human cholangiocarcinoma cells compared to the non-neoplastic biliary epithelial cells. Forced overexpression of the miR-17-92 cluster or its members, miR-92a and miR-19a, in cultured human cholangiocarcinoma cells enhanced tumor cell proliferation, colony formation and invasiveness, in vitro. Overexpression of miR-17-92 cluster or miR-92a also enhanced cholangiocarcinoma growth in vivo in SCID hairless outbred mice. The tumor suppressor PTEN was identified as a bona fide target of both miR-92a and miR-19a in cholangiocarcinoma cells. Accordingly, overexpression of PTEN open reading frame protein (devoid of 3’UTR) prevented miR-92a- or miR-19a-induced cholangiocarcinoma cell growth. Microarray analysis revealed additional targets of miR-17-92 cluster in human cholangiocarcinoma cells, including APAF-1 and PRDM2. Moreover, we observed that the expression of miR-17-92 cluster is regulated by IL-6/Stat3, a key oncogenic signaling pathway pivotal in cholangiocarcinogenesis. Taken together, our findings in this study disclose a novel IL-6/Stat3 miR-17-92 cluster PTEN signaling axis that is crucial for cholangiocarcinogenesis and tumor progression.<br>We also found the miR-17-92 is highly expressed in tumor tissue compared to non-tumor adjacent tissue in hepatocellular carcinoma patient tissue. Forced overexpression of the miR-17-92 cluster in cultured human hepatocellular carcinoma cells enhanced tumor growth in vitro; on contrast, inhibition of miR-17-92 cluster inhibited cell growth. MiR-17-92 cluster promote diethylnitrosamine-induced hepatocarcinogenesis in liver-specific miR-17-92 cluster transgenic mice. Binding sequence and mice whole genome microarray analysis revealed about 300 possible targets. RNA-sequencing data analysis showed both individual miRNAs and the host gene of miR-17-92 cluster was highly expressed in hepatocellular carcinoma patients and had negative correlation with several genes (CREBL2, PRRG1, and NTN4), among which, CREBL2 may play an important role in the hepatocarcinogenesis. / acase@tulane.edu

MiR-17-92 Cluster

Hepatocellular Carcinoma

Cholangiocarcinoma

School of Medicine

Pathology and Laboratory Medicine

Ph.D

Cross-Talk Between Epigenetic Regulation And Mir-17~92 Cluster Expression In Idiopathic Pulmonary Fibrosis (IPF)

Dakhlallah, Duaa

18 March 2011

No description available.

Biology

Biomedical Research

Molecular Biology

IPF

miRNA

fibrosis

Lung desease

miR-17~92 cluster

Le Cluster Mir-17-92, rôle dans la régulation de la réponse inflammatoire au cours de la polyarthrite rhumatoïde / The cluster Mir-17-92, role in the regulation of inflammatory response in rheumatoid arthritis

Philippe, Lucas

06 April 2012

La polyarthrite rhumatoïde (PR) est la maladie auto-immune la plus fréquente d’une prévalence de 1%. Les cellules résidentes de la cavité synoviale, les fibroblast-like synoviocytes (FLS), sont des acteurs majeurs de la PR. Leur activation par des récepteurs de l’immunité innée participe à l’acquisition d’un phénotype agressif menant à la destruction ostéo-articulaire. Dans cette étude, nous avons évalué le rôle régulateur de miARN sur les voies de signalisation des Toll-like receptors (TLR). L’activation de TLR2 et de TLR4 dans les FLS induit la diminution de l’expression de plusieurs miARN, dont miR-19a et b (miR-19), alors que TLR2 est surexprimé. Nous avons pu ainsi montrer que miR-19 régule Tlr2 et que la transfection de mir-19 dans les FLS activés induit une diminution de l’expression de TLR2 et de la synthèse d’IL-6 et de MMP-3. Mir-19 appartient au cluster miR-17~92, dont l’expression est abaissée dans les FLS. Il code pour 6 miARN dont miR-20a. miR-20a est également sous-régulé après activation de TLR2 et TLR4 dans les FLS et les THP-1. Nous avons montré que miR-20a régule directement l’expression d’Ask1, impliquée et surexprimée après activation de TLR4. La transfection de miR-20a in vitro nous a permis de montrer que miR-20a contrôle l’expression d’ASK1 et induit une inhibition de la synthèse de cytokines majeures de la PR dans les FLS et les THP-1. Des résultats équivalents ont été obtenus ex vivo chez la souris. Ces travaux ont permis d’identifier dans les FLS rhumatoïdes des miARN anti-inflammatoires dont la baisse d’expression permet une augmentation de l’expression de TLR2 et d’ASK1. Ces miARN pourraient donc constituer de nouvelles cibles thérapeutiques. / Rheumatoid arthritis (RA) is the most frequently autoimmune disease with a prevalence of 1%. Resident cells of joints, the fibroblast-like synoviocytes (FLS), act as key players in RA. Their activation through Pattern-recognition receptors leads to an aggressive phenotype, leading in the osteo-articular destruction of the joints. In this study, we aimed to discuss the link between Toll-like receptors (TLR) and miRNA pathway. We established the down-regulation of a few miRNA when FLS were activated through TLR2 and TLR4, including miR-19a and miR-19b (miR-19). We showed that miR-19 regulates directly Tlr2 and that transfection of miR-19 mimics leads to a decrease of IL-6 and MMP-3 synthesis in FLS. miR-19 belongs to the cluster miR-17~92, which is also down-regulated in activated FLS. This primary transcript encodes for 6 miRNA, including miR-20a, which is also down regulated upon TLR2 and TLR4 activation in FLS and further in THP-1, a monocyte cell-line. Then, we validated the predicted regulation of miR-20a on Ask1, an important kinase involved in TLR4 pathway. The transfection of miR-20a mimics in vitro represses ASK1 expression and inhibits several major cytokines in RA both in FLS and THP-1. Further, we confirmed these results on ex vivo experiments on peritoneal macrophages. These works allowed us to identify new anti-inflammatory miRNA that are downregulated and allow overexpression of TLR2 and ASK1 in RA FLS. These results open new experiments on in vivo models. All together, these data give new insights for identify new therapeutics in RA.

MicroARN

Immunité innée

Toll-like receptor

Polyarthrite rhumatoïde

Synoviocytes

Régulation

Cluster miR-17~92

Réponse inflammatoire

Rheumatoid arthritis

Autoimmune disease

MiRNA

Toll-like receptor

Fibroblast-like synoviocytes

Cluster miR-17~92

Inflammatory response

Regulation

571.96

616.7

Gene regulatory mechanisms underlying microglial dysfunction in Alzheimer’s disease

Daily, Kylene Patricia

19 September 2022

No description available.

Immunology

Neurosciences

Alzheimer's disease

neurodegeneration

microglia

neuroinflammation

autophagy

inflammasome

Caspase-4

Caspase-11

methylation

microRNA

miR-17

NBR1

Le Cluster Mir-17-92, rôle dans la régulation de la réponse inflammatoire au cours de la polyarthrite rhumatoïde

Philippe, Lucas

06 April 2012

La polyarthrite rhumatoïde (PR) est la maladie auto-immune la plus fréquente d'une prévalence de 1%. Les cellules résidentes de la cavité synoviale, les fibroblast-like synoviocytes (FLS), sont des acteurs majeurs de la PR. Leur activation par des récepteurs de l'immunité innée participe à l'acquisition d'un phénotype agressif menant à la destruction ostéo-articulaire. Dans cette étude, nous avons évalué le rôle régulateur de miARN sur les voies de signalisation des Toll-like receptors (TLR). L'activation de TLR2 et de TLR4 dans les FLS induit la diminution de l'expression de plusieurs miARN, dont miR-19a et b (miR-19), alors que TLR2 est surexprimé. Nous avons pu ainsi montrer que miR-19 régule Tlr2 et que la transfection de mir-19 dans les FLS activés induit une diminution de l'expression de TLR2 et de la synthèse d'IL-6 et de MMP-3. Mir-19 appartient au cluster miR-17~92, dont l'expression est abaissée dans les FLS. Il code pour 6 miARN dont miR-20a. miR-20a est également sous-régulé après activation de TLR2 et TLR4 dans les FLS et les THP-1. Nous avons montré que miR-20a régule directement l'expression d'Ask1, impliquée et surexprimée après activation de TLR4. La transfection de miR-20a in vitro nous a permis de montrer que miR-20a contrôle l'expression d'ASK1 et induit une inhibition de la synthèse de cytokines majeures de la PR dans les FLS et les THP-1. Des résultats équivalents ont été obtenus ex vivo chez la souris. Ces travaux ont permis d'identifier dans les FLS rhumatoïdes des miARN anti-inflammatoires dont la baisse d'expression permet une augmentation de l'expression de TLR2 et d'ASK1. Ces miARN pourraient donc constituer de nouvelles cibles thérapeutiques.

MicroARN

Immunité innée

Toll-like receptor

Polyarthrite rhumatoïde

Synoviocytes

Régulation

Cluster miR-17~92

Réponse inflammatoire

miR‐17/20 Controls Prolyl Hydroxylase 2 (PHD2)/Hypoxia‐Inducible Factor 1 (HIF1) to Regulate Pulmonary Artery Smooth Muscle Cell Proliferation

Chen, Tianji, Zhou, Qiyuan, Tang, Haiyang, Bozkanat, Melike, Yuan, Jason X.‐J., Raj, J. Usha, Zhou, Guofei

05 December 2016

Background-Previously we found that smooth muscle cell (SMC)-specific knockout of miR-17 similar to 92 attenuates hypoxia-induced pulmonary hypertension. However, the mechanism underlying miR-17 similar to 92-mediated pulmonary artery SMC (PASMC) proliferation remains unclear. We sought to investigate whether miR-17 similar to 92 regulates hypoxia-inducible factor (HIF) activity and PASMC proliferation via prolyl hydroxylases (PHDs). Methods and Results-We show that hypoxic sm-17 similar to 92(-/-) mice have decreased hematocrit, red blood cell counts, and hemoglobin contents. The sm-17 similar to 92 (-/-) mouse lungs express decreased mRNA levels of HIF targets and increased levels of PHD2. miR-17 similar to 92 inhibitors suppress hypoxia-induced levels of HIF1 alpha, VEGF, Glut1, HK2, and PDK1 but not HIF2 alpha in vitro in PASMC. Overexpression of miR-17 in PASMC represses PHD2 expression, whereas miR-17/20a inhibitors induce PHD2 expression. The 3'-UTR of PHD2 contains a functional miR-17/20a seed sequence. Silencing of PHD2 induces HIF1a and PCNA protein levels, whereas overexpression of PHD2 decreases HIF1 alpha and cell proliferation. SMC-specific knockout of PHD2 enhances hypoxia-induced vascular remodeling and exacerbates established pulmonary hypertension in mice. PHD2 activator R59949 reverses vessel remodeling in existing hypertensive mice. PHDs are dysregulated in PASMC isolated from pulmonary arterial hypertension patients. Conclusions-Our results suggest that PHD2 is a direct target of miR-17/20a and that miR-17 similar to 92 contributes to PASMC proliferation and polycythemia by suppression of PHD2 and induction of HIF1 alpha.

hypoxia

hypoxia-inducible factor 1

miR-17(similar to)92

prolyl hydroxylase 2

pulmonary artery smooth muscle cell

pulmonary hypertension

pulmonary hypertension

smooth muscle cell