Cathy Quelen scite author profile

MicroRNAs belong to a class of small noncoding RNAs of ‫ف‬ 21 nt that control the expression of many genes ( 1, 2 ). MicroRNAs are preferentially transcribed by RNA polymerase II and can be derived from individual microRNA genes, introns of protein-coding genes, or polycistronic transcripts. They are fi rst transcribed as primary microRNAs (pri-microRNAs) that CORRESPONDENCE Pierre Brousset: brousset.p@chu-toulouse.fr C. Quelen and R. Rosati contributed equally to this paper. The online version of this article contains supplemental material. Most chromosomal translocations in myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) involve oncogenes that are either up-regulated or form part of new chimeric genes. The t(2;11)(p21;q23) translocation has been cloned in 19 cases of MDS and AML. In addition to this, we have shown that this translocation is associated with a strong up-regulation of miR-125b (from 6-to 90-fold). In vitro experiments revealed that miR-125b was able to interfere with primary human CD34 + cell differentiation, and also inhibited terminal (monocytic and granulocytic) differentiation in HL60 and NB4 leukemic cell lines. Therefore, miR-125b up-regulation may represent a new mechanism of myeloid cell transformation, and myeloid neoplasms carrying the t(2;11) translocation defi ne a new clinicopathological entity. Myeloid cell diff erentiation arrest

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Specific small nucleolar RNA expression profiles in acute leukemia

Valleron

et al. 2012

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Apart from microRNAs, little is known about the regulation of expression of non-coding RNAs in cancer. We investigated whether small nucleolar RNAs (snoRNAs) accumulation displayed specific signatures in acute myeloblastic and acute lymphoblastic leukemias. Using microarrays and high-throughput quantitative PCR (qPCR), we demonstrate here that snoRNA expression patterns are negatively altered in leukemic cells compared with controls. Interestingly, a specific signature was found in acute promyelocytic leukemia (APL) with ectopic expression of SNORD112-114 snoRNAs located at the DLK1-DIO3 locus. In vitro experiments carried out on APL blasts demonstrate that transcription of these snoRNAs was lost under all-trans retinoic acid-mediated differentiation and induced by enforced expression of the PML-RARalpha fusion protein in negative leukemic cell lines. Further experiments revealed that the SNORD114-1 (14q(II-1)) variant promoted cell growth through cell cycle modulation; its expression was implicated in the G0/G1 to S phase transition mediated by the Rb/p16 pathways. This study thus reports three important observations: (1) snoRNA regulation is different in normal cells compared with cancer cells; (2) a relationship exists between a chromosomal translocation and expression of snoRNA loci; and (3) snoRNA expression can affect Rb/p16 cell cycle regulation. Taken together, these data strongly suggest that snoRNAs have a role in cancer development.

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Cathy Quelen

Myeloid cell differentiation arrest by miR-125b-1 in myelodysplasic syndrome and acute myeloid leukemia with the t(2;11)(p21;q23) translocation

Specific small nucleolar RNA expression profiles in acute leukemia

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