Nicola Brown scite author profile

BackgroundThe recurrent immunoglobulin translocation, t(4;14)(p16;q32) occurs in 15% of multiple myeloma patients and is associated with poor prognosis, through an unknown mechanism. The t(4;14) up-regulates fibroblast growth factor receptor 3 (FGFR3) and multiple myeloma SET domain (MMSET) genes. The involvement of MMSET in the pathogenesis of t(4;14) multiple myeloma and the mechanism or genes deregulated by MMSET upregulation are still unclear. Design and MethodsThe expression of MMSET was analyzed using a novel antibody. The involvement of MMSET in t(4;14) myelomagenesis was assessed by small interfering RNA mediated knockdown combined with several biological assays. In addition, the differential gene expression of MMSET-induced knockdown was analyzed with expression microarrays. MMSET gene targets in primary patient material was analyzed by expression microarrays. ResultsWe found that MMSET isoforms are expressed in multiple myeloma cell lines, being exclusively up-regulated in t(4;14)-positive cells. Suppression of MMSET expression affected cell proliferation by both decreasing cell viability and cell cycle progression of cells with the t(4;14) translocation. These findings were associated with reduced expression of genes involved in the regulation of cell cycle progression (e.g. CCND2, CCNG1, BRCA1, AURKA and CHEK1), apoptosis (CASP1, CASP4 and FOXO3A) and cell adhesion (ADAM9 and DSG2). Furthermore, we identified genes involved in the latter processes that were differentially expressed in t(4;14) multiple myeloma patient samples. ConclusionsIn conclusion, dysregulation of MMSET affects the expression of several genes involved in the regulation of cell cycle progression, cell adhesion and survival.

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PML nuclear bodies in the pathogenesis of acute promyelocytic leukemia: active players or innocent bystanders?

Brown

Ramalho²,

Pedersen³

et al. 2009

Front Biosci

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The promyelocytic leukemia gene (PML) encodes a protein which localizes to PML-nuclear bodies (NBs), sub-nuclear multi-protein structures, which have been implicated in diverse biological functions such as apoptosis, cell proliferation and senescence. However, the exact biochemical and molecular basis of PML function up until now has not been defined. Strikingly, over a decade ago, PML-NBs were found to be disrupted in acute promyelocytic leukemia (APL) in which PML is fused to the gene encoding retinoic acid receptor alpha (RARA) due to the t(15;17) chromosomal translocation, generating the PML-RARA chimeric protein. The treatment of APL patients with all-transretinoic acid (ATRA) and arsenic trioxide which target the PML-RARA oncoprotein results in clinical remission, associated with blast cell differentiation and reformation of the PML NBs, thus linking NB integrity with disease status. This review focuses on the current theories for molecular and biochemical functions of the PML-NBs, which would imply a role in the pathogenesis of APL, whilst also discussing the intriguing possibility that their disruption may not be in itself a significant oncogenic event.

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Transfection of siRNAs in Multiple Myeloma Cell Lines

Brito

Brown

Morgan

2010

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RNA interference (RNAi), a valuable tool to specifically silence gene expression, is becoming an indispensable weapon in the arsenal of functional genomics, target validation and gene-specific therapeutic research. We have shown that Streptolysin-O (SLO) reversible permeabilization is an efficient method to deliver small interfering RNAs (siRNAs) to hard-to-transfect human myeloma cell lines. In addition, we have shown that transfection of siRNAs, using the SLO reversible permeabilization, specifically and efficiently induces gene silencing in myeloma cell lines.

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Nicola Brown

MMSET deregulation affects cell cycle progression and adhesion regulons in t(4;14) myeloma plasma cells

PML nuclear bodies in the pathogenesis of acute promyelocytic leukemia: active players or innocent bystanders?

Transfection of siRNAs in Multiple Myeloma Cell Lines

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