Abstract
Changes in microRNA expression have been linked to a wide array of pathological states. However, little is known about the regulation of microRNA expression. The let-7 microRNA is a tumor suppressor that inhibits cellular proliferation and promotes differentiation, and is frequently lost in tumors. We investigated the transcriptional regulation of two let-7 family members, let-7a-3 and let-7b, which form a microRNA cluster and are located 864 bp apart on chromosome 22q13.31. Previous reports present conflicting data on the role of the NF-κB transcription factor in regulating let-7. We cloned three fragments upstream of the let-7a-3/let-7b miRNA genomic region into a plasmid containing a luciferase reporter gene. Ectopic expression of subunits of NF-κB (p50 or p65/RelA) significantly increased luciferase activity in HeLa, 293, 293T and 3T3 cells, indicating that the let-7a-3/let-7b promoter is highly responsive to NF-κB. Mutation of a putative NF-κB binding site at bp −833 reduced basal promoter activity and decreased promoter activity in the presence of p50 or p65 overexpression. Mutation of a second putative binding site, at bp −947 also decreased promoter activity basally and in response to p65 induction, indicating that both sites contribute to NF-κB responsiveness. While the levels of the endogenous primary let-7a and let-7b transcript were induced in response to NF-κB overexpression in 293T cells, the levels of fully processed, mature let-7a and let-7b miRNAs did not increase. Instead, levels of Lin-28B, a protein that blocks let-7 maturation, were induced by NF-κB. Increased Lin-28B levels could contribute to the lack of an increase in mature let-7a and let-7b. Our results suggest that the final biological outcome of NF-κB activation on let-7 expression may vary depending upon the cellular context. We discuss our results in the context of NF-κB activity in repressing self-renewal and promoting differentiation.
Highlights
MiRNAs are non-coding, single-stranded, conserved RNAs of,22 nucleotides that function as gene regulators in both animals and plants [1]. miRNAs have been discovered to play a central role in a wide variety of biological processes
7a-3/let-7b microRNA cluster, the sequences 1 kb, 1.5 kb and 3 kb upstream of the let-7a-3 miRNA were cloned into the pGL3 vector upstream of the gene encoding firefly luciferase to generate vectors pGL3-1Kb, pGL3-1.5Kb and pGL3-3Kb, and promoter activity was monitored
Promoter activity was lower for the pGL3-3Kb plasmid suggesting that there may be repressive elements between 1.5 kb and 3 kb upstream from the let-7a-3 promoter
Summary
MiRNAs are non-coding, single-stranded, conserved RNAs of ,22 nucleotides that function as gene regulators in both animals and plants [1]. miRNAs have been discovered to play a central role in a wide variety of biological processes. MiRNAs have been discovered to play a central role in a wide variety of biological processes. They are initially transcribed as primary transcripts (pri-miRNAs) and cleaved by the RNase III enzyme Drosha into 70- to 100-nt hairpinshaped precursors [2,3]. Inhibition of let-7 in A549 lung cancer cells increases cell proliferation rates, whereas let-7 overexpression blocks cell-cycle progression [8,9]. In C. elegans, mice and humans, let-7 expression is barely detectable in embryonic stages but increases after differentiation and in mature tissue [11,12,13]. Low levels of let-7 are found in some stem cell populations, and high expression of a let-7 target gene has been used to enrich for stem cells from a mouse mammary epithelial cell line [17]
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