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Target Concepts:
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Query: UMLS:C0026764 (
multiple myeloma
)
36,148
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
During tumorigenesis, selective proliferative advantage in certain cell subsets is associated with accumulation of multiple genetic alterations. For instance,
multiple myeloma
is characterized by frequent karyotypic instability at the earliest stage, progressing to extreme genetic abnormalities as the disease progresses. These successive genetic alterations can be attributed, in part, to defects in DNA repair pathways, perhaps based on epigenetic gene silencing of proteins involved in DNA damage repair. Here we report epigenetic hypermethylation of the hHR23B gene, a key component of the nucleotide excision repair in response to DNA damage, in interleukin-6 (IL-6)-responsive
myeloma
KAS-6/1 cells. This hypermethylation was significantly abated by
Zebularine
, a potent demethylating agent, with a consequent increase in the hHR23B mRNA level. Subsequent removal of this drug and supplementation with IL-6 in the culture medium re-established DNA hypermethylation of the hHR23B gene and silencing of mRNA expression levels. The inclination of DNA to be remethylated, at least within the hHR23B gene promoter region, reflects an epigenetic driving force by the cytogenetic/tumorigenic status of KAS-6/1
myeloma
. The IL-6 response of KAS-6/1
myeloma
also raises a question of whether the proneoplastic growth factor, such as IL-6, supports the epigenetic silencing of important DNA repair genes via promoter hypermethylation during the development of
multiple myeloma
.
...
PMID:Epigenetic silencing of the human nucleotide excision repair gene, hHR23B, in interleukin-6-responsive multiple myeloma KAS-6/1 cells. 1555 Mar 78
The generation of reactive oxygen species (ROS) by mitochondrial electron transport chain (ETC) and oxidative phosphorylation activity, has been linked to modifications of multiple molecular processes, including lipid peroxidation, signaling pathway and transcription factor modulation, and oxidative damage to DNA. Oxidative damage by endogenous ROS has been associated with the etiology of various pathological states. There are numerous reports that levels of manganese superoxide dismutase enzyme (MnSOD), an antioxidant enzyme responsible for the attenuation of ROS, are lowered in cancer cells, but the reasons for this reduction are poorly defined. Epigenetic silencing of genes involved in tumor suppression and DNA repair is known to occur in a variety of malignant cell types. Here we report that in the human
multiple myeloma
cell line KAS 6/1, the SOD-2 gene, encoding manganese superoxide dismutase, is epigenetically silenced as a result of promoter hypermethylation. The DNA methyltransferase inhibitor
Zebularine
reverses SOD-2 promoter methylation, increasing gene expression and enzyme levels. Infection of KAS 6/1 cells with a recombinant adenovirus carrying the MnSOD cDNA reduced the cell proliferation rate by approximately one-half, confirming the detrimental effects of epigenetic silencing of SOD-2 expression.
...
PMID:Epigenetic silencing of manganese superoxide dismutase (SOD-2) in KAS 6/1 human multiple myeloma cells increases cell proliferation. 1590 83
Cytosine methylation, an epigenetic form of regulating gene transcription, has gained importance upon the discovery that genes involved in the carcinogenic process may be regulated by this mechanism and, moreover, that certain cancers respond to treatment with demethylation-promoting drugs. Typically, the use of DNA methyltransferase inhibitor drugs results in the up-regulation of important tumor suppressor genes, previously down-regulated by the existence of abnormal cytosine methylation within their promoters. Here, we show microarray and RT-PCR results indicating that many genes are down-regulated upon treatment of KAS 6/1
multiple myeloma
cells with
Zebularine
, a demethylating agent. Our findings suggest that, in addition to the typical methylation inhibitor-induced up-regulation of genes, removal of methylation in some genes may have a profound down-regulating effect upon their expression. The analysis of gene function showed that, of the down-regulated genes, 38 are associated with cell proliferation and/or cancer. Our analysis of the promoters of the subset of selected genes containing CpG islands showed that the distribution of cis elements differs between genes up- and down-regulated by methylation. Finally, we propose a model which shows how genes containing methylation sites within their basic promoters and/or enhancer sequences are susceptible to down-regulation, whereas genes methylated within silencer regions are up-regulated, thus providing a model as to how DNA methylation could induce such opposing effects on transcription.
...
PMID:Epigenetic Up-regulation of Gene Expression in KAS 6/1 Human Multiple Myeloma Cells. 3139 31
