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The Chromosome Open Reading Frame Genes Targeted By Abnormal Micrornas in Microvesicles from Chronic Myeloid Leukemia

Lu, Li ; Li, Huiyu ; Chen, Xiaomei ; [et al.]

American Society of Hematology ; 2014

In: Blood Vol. 124, No. 21 ( 2014-12-06), p. 5509-5509

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In: Blood, American Society of Hematology, Vol. 124, No. 21 ( 2014-12-06), p. 5509-5509

Abstract: Object: Chronic myeloid leukemia (CML) is a paradigm for neoplasmas that are defined by a unique genetic aberration, the BCR-ABL1 fusion gene. Microvesicles (MVs) are secretory particles released by various cell types including tumor cells. MVs released by CML cells constitute an important part of the microenvironment of leukemia and can modulate the interaction of tumor cells. MicroRNAs (miRNAs) loaded within MVs may also provide an insight in the roles of miRNAs playing in pathological mechanisms of CML. Methods:Blood samples were gathered from patients diagnosed as CML and normal heathy adults. All patients were admitted to Wuhan Union Hospital, Tongji Medical College, Huazhong University of Science and Technology during the period from May to September in 2011. Our study was approved by the ethic committee of Wuhan Union Hospital and all subjects signed informed consent. We determined the miRNA expression profiles of CML-derived MVs using Agilent miRNA microarray analysis. Selected miRNAs obtained by microarray profiling were validated using real-time PCR. The putative target genes were predicted by bioinformatic software (TargetScan、miRanda、 PicTar、 MirTart2、PITA). Results:We identified numerous dysregulated miRNAs in MVs derived from CML patients compared with that from the controls by microarray analysis. Of the miRNAs detected, 226 dysregulated miRNAs were present in CML-MVs. With bioinformatic methods, we observed that there were 919 chromosome open reading frame (Corf) genes which were regulated by 169 aberrant MVs miRNAs from CML. Our results indicated that MVs derived from CML were enriched with different groups of altered miRNAs regulating Corf genes. It was interesting that some Corf genes were targeted by one aberrantly expressed MVs miRNAs and that several dysregulated miRNAs targeted one Corf gene. For example, 388 Corf genes were regulated by miR-513a-3p and 186 altered miRNAs targeted C15orf17. These findings suggested that Corf genes were active and complex in non-solid tumors. It was suggested that some members of the Corf genes were closely associated with cancers. For instance, C1orf43, also known as NICE-3 (a novel member of epidermal differentiation complex gene), had been reported to increase tumor cell proliferation and colony formation. In addition, deletion of C8orf4 was correlated with the risk of hematological neoplasmas. Furthermore, C16orf74, negatively associated with development of malignancies, was targeted by over-expressed miR-1299. Given that miRNAs could inhibit the expression of target genes, antineoplastic functions of C16orf74 might be suppressed. Similarly, C11orf30 that was a key oncogene was targeted by down-expressed miR-93, which facilitated C11orf30 to produce tumor-promoting roles. Interestingly, we observed that several Corf genes acting as oncogenes were regulated by over-expressed miRNAs. For instance, C6orf211 and C19orf10 were positively correlated with tumor progression and both of them were regulated by up-regulated miRNAs including miR-1246 and miR-1305. This indicated that Corf genes in diverse tumor microenvironments were likely to exert different influence on carcinogenesis. Conclusion: Briefly, we demonstrated for the first time that CML-derived MVs were enriched with dysregulated miRNAs targeting Corf genes, indicating that miRNAs regulating Corf genes were active in CML-MVs. Furthermore, Corf genes regulated by distinct sets of altered miRNAs might produce similar or alien effects on tumor progression. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V124.21.5509.5509

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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Comparison of miRNA Expression Profiles in Leukemia-Derived Microvesicles and Corresponding Leukemia Cells and Analysis of Their Roles in Leukemia

Chen, Xiaomei ; Liu, Fang ; Xiong, Wei ; [et al.]

American Society of Hematology ; 2011

In: Blood Vol. 118, No. 21 ( 2011-11-18), p. 1388-1388

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In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 1388-1388

Abstract: Abstract 1388 Microvesicles(MVs) are small exosomes of endocytic origin released by normal healthy or damaged cell types, including leukemic cells. MVs have been considered as cell dust, however, recent data bring evidences that MVs generated during cell activation or apoptosis can transfer biologic messages between different cell types. MicroRNAs (miRNAs) have been demonstrated to be aberrantly expressed in leukemia and the overall miRNA expression could differentiate normal versus leukemia. The MVs expressing miRNAs were found in the primary tumors. However it is currently unknown whether miRNA content changes in MVs derived from leukemic cells. Here we compared the miRNA expression in leukemia-derived MVs to corresponding leukemia cells and analysed their roles in leukemia. K562 cells were cultured and collected. MVs derived from K562 cells were also isolated. The presence and levels of specific miRNAs from both MVs derived from K562 cells and K562 cells were determined by Agilent miRNA microarray analysis probing for 888 miRNAs. Some selected miRNAs were verified by real time qRT-PCR. Bioinformatic software tools were used to predict the target genes of identified miRNAs and define their function. Our results showed that 77 and 122 miRNAs were only expressed in MVs and K562 cells, respectively. There were significant differences in miRNA expression profiles between MVs and K562 cells. We also found that 112 miRNAs were co-expressed in MVs and K562 cells. This observaton may suggest that compartmentalization of miRNAs from cells into to MVs, for at least some miRNAs, is an active (selective) process. Among those abnormally expressed miRNAs, some have been proposed oncomiRNAs or tumor suppressors. For example, miR-155, has been proposed as oncomiRNA, was abnormally expressed only in MVs in our study, suggesting that oncomiRNA was present in MVs. Further analysis revealed that 39 potential target genes regulated by miR-155. Among them, 4 genes involed in oncogenes and the signal genes. OncomiRNAs such as miR-27a and miR-21 expressed in both MVs and corresponding cells, indicating that MVs bear miRNA characteristic of the cell origin. MVs, released into the leukemia microenvironment, play an important role in leukemia. In contrast to oncomiRNAs, if miRNA is associated with tumor suppressive activity, it is regarded as a tumor suppressor (oncosuppressor). The aberrantly expressed miR-125a-3p, miR-125-5p,miR-27b, which have implicated as tumor suppressors, appear in both cellular and MVs of leukemia in our study. MiR-125a-3p, miR-125-5p and miR-27b regulated 308 potential target genes. To our knowledge, 10 of them are tumor suppression genes. It is possible that these aberrantly expressed tumor suppressor miRNAs decreased or lost their roles of tumor suppression, which led to decrease or loss their roles of regulating their target genes including oncogenes, consequently resulted in leukemia. Since K562 cells presented t(9;22), we further examined the predicted function of the 6 expressed miRNAs located in chrosome 9 (hsa-miR-188-5p,hsa-miR-602)and 22(hsa-let-7b,hsa-miR-1249,hsa-miR-130b,hsa-miR-185), which expressed both in the MVs and K562 cells. Using the TargetScan, we found 442 predicted targets regulated by 6 miRNAs. Those miRNAs may play roles in leukemia via these 422 genes. This study is the first to identify and define miRNA expression between K562 cells presented t(9;22), derived from K562 cells and their corresponding cells. We found significant differences in miRNA expression between MVs and corresponding leukemia. K562 cells released MVs riched in miRNAs including oncomiRNAs or tumor suppressor miRNAs into leukemia microenvironment, which play a role in leukemia via regulating their targer genes including oncogenes, consequently resulted in leukemia. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V118.21.1388.1388

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2011

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Synthesis and Cytotoxic Evaluation of Novel N-Methyl-4-phenoxypicolinamide Derivatives

Li, Wei ; Zhai, Xin ; Ding, Lu ; [et al.]

MDPI AG ; 2011

In: Molecules Vol. 16, No. 6 ( 2011-06-20), p. 5130-5141

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In: Molecules, MDPI AG, Vol. 16, No. 6 ( 2011-06-20), p. 5130-5141

Type of Medium: Online Resource

ISSN: 1420-3049

URL: Article

DOI: 10.3390/molecules16065130

Language: English

Publisher: MDPI AG

Publication Date: 2011

detail.hit.zdb_id: 2008644-1

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Mirna Expression Profile of Microvesicles Derived From K562 Cells

Xiong, Wei ; Chen, Xiaomei ; Liu, Fang ; [et al.]

American Society of Hematology ; 2011

In: Blood Vol. 118, No. 21 ( 2011-11-18), p. 4411-4411

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In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 4411-4411

Abstract: Abstract 4411 MicroRNAs (miRNAs) are small non-coding RNA sequences of about 22nt and play an important role in disease progression including carcinogenesis. Recent evidences reveal that genetic exchange of miRNAs between cells can be accomplished through microvesicles(MVs). MVs are small exosomes of endocytic origin released not only by activated platelets but also by hematologic malignancies such as leukemia. Sheded from the plasma membrane MVs move into the extracellular environment to facilitate communication between cells. MVs containing miRNAs would enable intercellular cross-talk in vivo. This prompted us to investigate specific variations of miRNA expression patterns in MVs derived from leukemia. We examined the miRNA expression profile of MVs both from chronic myeloid leukemia cell line K562 and normal human volunteers’ peripheral blood. Agilent miRNA microarray was employed for detection and then real-time PCR for verification. Bioinformatic software tools were used to predict the target genes of identified microRNAs and define their function. Our study figures out miRNAs of MVs from leukemia and normal cells and characterizes specific miRNAs expression. We found that MVs from K562 cells express 348 miRNAs of 888 miRNAs. While 77 miRNAs displayed down regulation, 134 were upregulated. Interestingly, most of the miRNAs dysregulated in MVs display up regulated expression, suggesting their prevalent roles as tumor promotors. Among the aberrantly expressed miRNAs, miR-1290 was identified whose expression levels was more than 900 times than that of normal cell derived MVs. While the expression of miR-125a-3p was up-regulated by more than 300 times. And miR-654-5p, miR-654-5p, miR-1268 and miR-1246 were up-regulated more than 200 times. Five of the disregulated miRNAs (miR-1290, miR-125a-3p, let-7a, let-7f, miR-26a) were further assayed and validated by Q-RT-PCR results which correlated well with the microarray data. Of note, upexpression of miR-663, miR-1237, miR-149, miR-634, miR-1181, miR-92b, miR-130b as well as downregulation of let-7a, let-7f, miR-26a, miR-26a, miR-26b, miR-266, miR-126, miR-93, miR-451, miR-103, miR-107, miR-27a were similar to what was previously reported about leukemia, thus supporting the general roles of these miRNAs as tumor suppressors or oncomiRNAs in leukemia. Meanwhile we noticed a reduced expression of miR-1237, miR-365, miR-223b, miR-27b, miR-151-5p, miR-23a, miR-21, miR-30e, miR-361-5p, miR-484, miR-185, miR-374a, miR-197 in our study, as recently stated in solid tumor, thus suggesting that significantly lower abundance of these miRNAs is shared in leukemia. In addition to identify the already known leukemia-associated miRNAs, we had checked out dozens of novel miRNAs without any articles published until now, namely miR-502-3p, miR-718, miR-877, miR-1470, miR-720, miR-1267, miR-127, miR-767-3p, miR-1974-v14.0, miR-361-5p, miR-374b and so on. Using bioinformatic tools (TargetScan), we predicted potential targets for those miRNAs that exhibited altered expression in MVs from leukemia cells. Of particular interest, we found that hsa-miR-125a-3p which was refered above may regulate 34 potential genes of which five are located around the chromosome open reading frame. We hypothesised that miR-125a-3p may participate in the modulation of leukemia through these genes by affecting chromosome. Taken together, our study identifies miRNAs of MVs from leukemia and normal cells and characterizes specific miRNAs expression. These findings highlight a number of miRNAs from leukemia-derived MVs that may contribute to the development of hematopoietic malignancies. Further investigation will reveal the function of these differentially expressed miRNAs and may provide potential targets for novel therapeutic strategies. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V118.21.4411.4411

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2011

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Analysis of Microvesicle Microrna Expression Profiles and Their Functional Roles in ALL Subtypes

Chen, Xiaomei ; Xiong, Wei ; Chen, Xiangjun ; [et al.]

American Society of Hematology ; 2011

In: Blood Vol. 118, No. 21 ( 2011-11-18), p. 1488-1488

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In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 1488-1488

Abstract: Abstract 1488 Microvesicles (MVs) released by leukemia cells constitute an important part of the leukemia microenvironment. As a cell-to-cell communication tool, MVs transfer microRNA(miRNA) between cells. MVs miRNAs may be valuable not only as a diagnostic tool but may also provide an insight in the role of miRNAs playing in the underlying of pathophysiologic processes of various leukemia. It is worth evaluating whether MVs possess some unique miRNA content depending on their corresponding leukemia origin that could be applicable in diagnosis. Hence, we determined the miRNA expression profiles of ALL-derived MVs using Agilent miRNA microarray analysis. The five miRNAs obtained by microarray profiling were validated using real-time PCR. The putative target genes were predicted by bioformation software. Here, we provided MVs miRNA patterns derived from the healthy controls, B-ALL cell line Nalm 6 cells and T-ALL cell line Jurkat cells. We identified 182 dysregulated miRNAs in MVs derived from Nalm 6 cells as compared with MVs from normal controls (P 〈 0.05); both up regulated(123/182) and down regulated(59/182) expressions were observed. Likewise 166 miRNAs were significantly differentially expressed in MVs derived from Jurkat cells versus MVs from normal peripheral blood (P 〈 0.05), 114 miRNAs of which (114/166) were up expression and 52 miRNAs (52/166) were down expression. We also fould that 44 miRNAs were only detected in B-ALL-derived MVs. MiR-1290, miR-1246, miR-1268, miR-1226, and miR-424 were top 5 expressed in Nalm 6 derived MVs, suggesting that those miRNAs may play an important role in B-ALL. We observed that 16 miRNAs detected only in T cell derived MVs. MiR-96 is up regulated in MVs from T-ALL cells but not expressed in B-ALL. Specific and functional target sites for miR-96, exist in the 3'-UTR of the miRNA that encodes the putative tumor suppressor transcription factor FOXO1. The expression signatures of miR-96 could discriminate B-ALL from T-ALL. In contrast, the MVs from B-ALL cell line, shared 100 miRNAs with MVs from T-ALL cell line, suggestting that those miRNAs play roles in both B-and T-ALL. Of 100 miRNAs, 99 miRNAs were high expression, indicating that miRNAs were active in ALL. This obsearvation suggusted that miRNA differential expression in MVs were partially significantly related to subtypes of acute lymphoblastic leukemia. Intriguing is that miR1290 is top higher expression both in MVs derived from Nalm6 cells and from Jurkat cells; miR-1290 is 475-fold higher expressed in Nalm 6 derived MVs versus MVs from normal cells, whereas this miRNA is 245-fold higher expressed in Jurkat cells. Five of these miRNAs were selected to be further assayed and validated by PCR. The qRT-PCR results correlated well with the microarray data. In addition, we found seven miRNAs(miR-148b, miR-484, miR-let-7f, let-7a, miR-223, miR16 and miR-27b) were located near the 11q23 chromosomal region. With bioinformatic tools (TargetScan), we predicted potential target genes for those miRNAs that exhibited altered expression in MVs from B-ALL and T-ALL. The p85 subunit of phosphatidylinositol 3-kinase (PI3-K) was found to be a potential target of miR-320. Of particular interest, we found that protein tyrosine phosphatase-like member b (PTPLB) may be a potential target of miR-1290. The 474-fold increase in miR-1290 in MVs from Nalm 6 cells, indicating that miR-1290 may participate in the modulation of leukemia by targeting PTPLB, a specific, negative regulator of p210 bcr-abl signal. In conclusion, we identified miRNAs and found that miRNA expression profiles were ALL subtype-specific. Altered miRNA expression levels may lead to an inappropriate expression of target oncoproteins or target tumor suppressors, thereby facilitating the development of leukemia. These findings expanded the potential diagnostic markers of leukemia and provided useful information to ALL pathogenesis. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V118.21.1488.1488

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2011

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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