A novel G-quadruplex-forming GGA repeat region in the c-myb promoter is a critical regulator of promoter activity

Palumbo, Sunny; Memmott, Regan M.; Uribe, Diana; Krotova-Khan, Yulia; Hurley, Laurence H.; Ebbinghaus, Scot

doi:10.1093/nar/gkm1069

Cited by 172 publications

(188 citation statements)

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“…G-quadruplexes are found within DNAs in eukaryotic telomeres (66); the promoter regions of some cancer-related genes, including BCL2 (67), KIT (68), MYB (69), MYC (70), HIF1A (71), hTERT (72), KRAS (73), RB (74), and VEGF (75); immunoglobulin gene switch regions (76); and ribosomal genes (77). G4-intercalating agents have been assessed for anticancer ther-apy (57,50,51).…”

Section: Discussionmentioning

confidence: 99%

An RNA-binding Protein, Lin28, Recognizes and Remodels G-quartets in the MicroRNAs (miRNAs) and mRNAs It Regulates

O’Day

Imai

et al. 2015

Journal of Biological Chemistry

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Background: Lin28 is an evolutionary conserved RNA-binding protein that regulates miRNAs and mRNAs; Lin28 overexpression is linked to poor prognosis in cancer. Results: Lin28 binds to guanine-rich miRNAs and mRNAs that contain G-quartet structural features and remodels these structures. Conclusion: Lin28 recognition of G-quartets is a unifying feature of Lin28-regulated RNAs. Significance: Small molecules that bind to G-quartets might be useful inhibitors of Lin28 function.

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Section: Discussionmentioning

confidence: 99%

An RNA-binding Protein, Lin28, Recognizes and Remodels G-quartets in the MicroRNAs (miRNAs) and mRNAs It Regulates

O’Day

Imai

et al. 2015

Journal of Biological Chemistry

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“…VEGF, 7 c-myb 8 and ILPR (insulin gene). 9 Due to its potential as a cancer-specific target, there is considerable interest in developing small ligands that stabilize G4-DNA.…”

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confidence: 99%

Cellular uptake and binding of guanidine-modified phthalocyanines to KRAS/HRASG-quadruplexes

et al. 2010

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Guanidino-modified phthalocyanines are evaluated in vitro (polymerase-stop assays and FRET) and in cultured cells as G4-DNA ligands and modulators of gene transcription.The hypothesis that G-quadruplex DNA (or G4-DNA) is involved in transcription regulation is gaining support. 1 Recent studies have shown that, in addition to the telomeres, G4-DNA motifs are found with a high frequency in the regions surrounding transcription start sites of many genes. 2 G-quadruplex structures have been identified in protooncogenes as well as in 5 0 -untranslated regions of mRNA. 3 Several studies have suggested that G4-DNA affects the transcription of several genes including c-MYC, 4 c-kit, 5 KRAS, 6 VEGF, 7 c-myb 8 and ILPR (insulin gene). 9 Due to its potential as a cancer-specific target, there is considerable interest in developing small ligands that stabilize G4-DNA. 10 Structure-selective G-quadruplex ligands typically have shape and charge complementarity with the stacked G-tetrads that constitute G-quadruplex DNA. For example, pyridinium and ammonium-containing porphyrazine derivatives exhibited improved G-quadruplex specificity as compared to the widely studied, yet non-selective ligand 5,10,15,20-tetra(N-methyl-4pyridyl) porphine (TMPyP4). 11,12 However, no information regarding the cellular uptake or promoter binding of these compounds was reported. Here, we report G4-DNA binding, cellular uptake, and promoter deactivation of a new class of cationic phthalocyanines called guanidino phthalocyanines (GPcs). 13 We have used polymerase-stop assays, CD spectroscopy, and a fluorescence quenching assay to characterize the G-quadruplex affinity and specificity of tetrakis-(diisopropylguanidine) phthalocyanine ''DIGP'' (1), and its Zn-containing derivative ''Zn-DIGP'' (2) (Scheme 1). To facilitate a direct comparison of porphyrin versus phthalocyanine scaffolds, a porphyrin containing four diisopropyl guanidinium groups at meso positions ''DIGPor'' (3) was synthesized and evaluated.Scheme 1 Structures of investigated compounds and common names.

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“…[48] These sequences are also highly susceptible to S1 nuclease cleavage, [49] DNA repair, [50] and can fold into stable non-duplex structures in vitro. [48,51,52] In the case of a 14-nucleotide repeated sequence [20][21][22][23][24][25][26][27] Alternatively, two-, three-, or four DNA strands can associate in intermolecular G-quadruplex structures.…”

Section: Evidence For G-quadruplex Dna As a Modulator Of Gene Expressionmentioning

confidence: 99%

“…Recently, a trinucleotide repeat (GGA) capable of forming G-quadruplex structure(s) was shown to have both transcriptional activation and repressor activities in the context of the c-MYB promoter. [52] Another early example of a putative G-quadruplex-containing promoter is the non-repetitive nuclease hypersensitive element 'NHEIII 1 ' located 142 bp upstream of the P1 promoter of the c-MYC gene. By using a combination of DNA point mutations and small molecule binding interactions, a correlation between G-quadruplex stabilization and the suppression of promoter activity was established by the Hurley Lab.…”

Section: Evidence For Telomeric G-quadruplex Dnamentioning

confidence: 99%

Targeting G-Quadruplex DNA with Small Molecules

Luedtke¹

2009

Chimia

101

105

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Despite a recent explosion of interest in G-quadruplex DNA, most fundamental questions regarding the possible presence and function of these intriguing structures in vivo remain unanswered. Cell-permeable G-quadruplex specific probes should provide researchers with new tools for studying these alternately folded DNA structures and their potential involvement in gene expression, chromosome stability, viral integration, and recombination. In this review, a survey of the binding affinity, specificity, and biological/pharmacological activities of some well-characterized G-quadruplex ligands is presented along with the potential importance of G-quadruplex DNA in vivo.134 CHIMIA 2009, 63, No. 3 Young AcAdemics in switzerlAnd PArt ii doi:10.2533doi:10. /chimia.2009doi:10. .134 Chimia 63 (2009 Despite a recent explosion of interest in G-quadruplex DNA, most fundamental questions regarding the possible presence and function of these intriguing structures in vivo remain unanswered. Cell-permeable Gquadruplex specific probes should provide researchers with new tools for studying these alternately folded DNA structures and their potential involvement in gene expression, chromosome stability, viral integration, and recombination. In this review, a survey of the binding affinity, specificity, and biological/pharmacological activities of some well-characterized G-quadruplex ligands is presented along with the potential importance of G-quadruplex DNA in vivo.

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A novel G-quadruplex-forming GGA repeat region in the c-myb promoter is a critical regulator of promoter activity

Cited by 172 publications

References 58 publications

An RNA-binding Protein, Lin28, Recognizes and Remodels G-quartets in the MicroRNAs (miRNAs) and mRNAs It Regulates

An RNA-binding Protein, Lin28, Recognizes and Remodels G-quartets in the MicroRNAs (miRNAs) and mRNAs It Regulates

Cellular uptake and binding of guanidine-modified phthalocyanines to KRAS/HRASG-quadruplexes

Targeting G-Quadruplex DNA with Small Molecules

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