Silvia Ceschi scite author profile

The regulation of conformational arrangements of gene promoters is a physiological mechanism that has been associated with the fine control of gene expression. Indeed, it can drive the time and the location for the selective recruitment of proteins of the transcriptional machinery. Here, we address this issue at the KIT proximal promoter where three G-quadruplex forming sites are present (kit1, kit2 and kit*). On this model, we focused on the interplay between G-quadruplex (G4) formation and SP1 recruitment. By site directed mutagenesis, we prepared a library of plasmids containing mutated sequences of the WT KIT promoter that systematically exploited different G4 formation attitudes and SP1 binding properties. Our transfection data showed that the three different G4 sites of the KIT promoter impact on SP1 binding and protein expression at different levels. Notably, kit2 and kit* structural features represent an on-off system for KIT expression through the recruitment of transcription factors. The use of two G4 binders further helps to address kit2-kit* as a reliable target for pharmacological intervention.

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Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

Ceschi

Berselli

Cozzaglio

et al. 2022

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G-quadruplex (G4) structures that can form at guanine-rich genomic sites, including telomeres and gene promoters, are actively involved in genome maintenance, replication, and transcription, through finely tuned interactions with protein networks. In the present study, we identified the intermediate filament protein Vimentin as a binder with nanomolar affinity for those G-rich sequences that give rise to at least two adjacent G4 units, named G4 repeats. This interaction is supported by the N-terminal domains of soluble Vimentin tetramers. The selectivity of Vimentin for G4 repeats versus individual G4s provides an unprecedented result. Based on GO enrichment analysis performed on genes having putative G4 repeats within their core promoters, we suggest that Vimentin recruitment at these sites may contribute to the regulation of gene expression during cell development and migration, possibly by reshaping the local higher-order genome topology, as already reported for lamin B.

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A two-quartet G-quadruplex topology of human KIT2 is conformationally selected by a perylene derivative

et al. 2020

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KIT promoter: Structure, function and targeting

Ceschi

Sissi

2020

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Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

Ceschi

Berselli

Giantin

et al. 2021

Preprint

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G-quadruplex (G4) structures that can form at guanine-rich genomic sites, including telomeres and gene promoters, are actively involved in genome maintenance, replication, and transcription, through finely tuned interactions with protein networks. In the present study, we identified the intermediate filament protein Vimentin as a binder with nanomolar affinity for those G-rich sequences that give rise to at least two adjacent G4 units, named G4 repeats. This interaction is supported by the N-terminal domains of soluble Vimentin tetramers. The selectivity of Vimentin for G4 repeats vs individual G4s provides an unprecedented result. Based on GO enrichment analysis performed on genes having putative G4 repeats within their core promoters, we suggest that Vimentin recruitment at these sites may contribute to the regulation of gene expression during cell development and migration, possibly by reshaping the local higher-order genome topology, as already reported for lamin B.

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Pathogenic CANVAS (AAGGG)_nrepeats stall DNA replication due to the formation of alternative DNA structures

Hisey

Radchenko

Ceschi

et al. 2023

Preprint

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CANVAS is a recently characterized repeat expansion disease, most commonly caused by homozygous expansions of an intronic (A2G3)nrepeat in the RFC1 gene. There are a multitude of repeat motifs found in the human population at this locus, some of which are pathogenic and others benign. In this study, we conducted structure-functional analyses of the main pathogenic (A2G3)nand the main nonpathogenic (A4G)nrepeats. We found that the pathogenic, but not the nonpathogenic, repeat presents a potent, orientation-dependent impediment to DNA polymerizationin vitro. The pattern of the polymerization blockage is consistent with triplex or quadruplex formation in the presence of magnesium or potassium ions, respectively. Chemical probing of both repeats in supercoiled DNA reveals triplex H-DNA formation by the pathogenic repeat. Consistently, bioinformatic analysis of the S1-END-seq data from human cell lines shows preferential H-DNA formation genome-wide by (A2G3)nmotifs over (A4G)nmotifsin vivo. Finally, the pathogenic, but not the non-pathogenic, repeat stalls replication fork progression in yeast and human cells. We hypothesize that CANVAS-causing (A2G3)nrepeat represents a challenge to genome stability by folding into alternative DNA structures that stall DNA replication.

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G-quadruplexes formation within the promoter of TEAD4 oncogene and their interaction with Vimentin

et al. 2022

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G-quadruplexes (G4s) are nucleic acid secondary structures detected within human chromosomes, that cluster at gene promoters and enhancers. This suggests that G4s may play specific roles in the regulation of gene expression. Within a distinct subgroup of G-rich domains, the formation of two or more adjacent G4 units (G4-repeats) is feasible. Recently it was shown that Vimentin, a protein highly expressed within mesenchymal cells, selectively recognizes these arrangements. Putative G4-repeats have been searched within the human gene proximal promoters by the bioinformatics tool QPARSE and they resulted to be enriched at genes related to epithelial-to-mesenchymal transition (EMT). This suggested that Vimentin binding at these sites might be relevant for the maintenance of the mesenchymal phenotype. Among all the identified sequences, in the present study we selected the one located within the promoter of the TEAD4 oncogene. TEAD4 codifies for a transcriptional enhancer factor, TEAD4, that actively promotes EMT, supporting, cell proliferation and migration. Moreover, in colorectal cancer cells TEAD4 directly enhances the expression of Vimentin. Thus, the possible interaction of Vimentin with TEAD4 promoter could highlight a positive feedback loop between these two factors, associated to important tumor metastasis related events. Here, we exploited spectroscopic and electrophoretic measurements under different conditions to address the folding behavior of the selected sequence. This allowed us to validate the folding of TEAD4 promoter into a G4-repeat able to interact with Vimentin.

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Silvia Ceschi

Consumer’s Preference and Willingness to Pay for Apple Attributes: A Choice Experiment in Large Retail Outlets in Bologna (Italy)

G-Quadruplex Modulation of SP1 Functional Binding Sites at the KIT Proximal Promoter

Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

A two-quartet G-quadruplex topology of human KIT2 is conformationally selected by a perylene derivative

KIT promoter: Structure, function and targeting

Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

Pathogenic CANVAS (AAGGG)_nrepeats stall DNA replication due to the formation of alternative DNA structures

G-quadruplexes formation within the promoter of TEAD4 oncogene and their interaction with Vimentin

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Silvia Ceschi

Consumer’s Preference and Willingness to Pay for Apple Attributes: A Choice Experiment in Large Retail Outlets in Bologna (Italy)

G-Quadruplex Modulation of SP1 Functional Binding Sites at the KIT Proximal Promoter

Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

A two-quartet G-quadruplex topology of human KIT2 is conformationally selected by a perylene derivative

KIT promoter: Structure, function and targeting

Vimentin binds to G-quadruplex repeats found at telomeres and gene promoters

Pathogenic CANVAS (AAGGG)nrepeats stall DNA replication due to the formation of alternative DNA structures

G-quadruplexes formation within the promoter of TEAD4 oncogene and their interaction with Vimentin

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Product

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Pathogenic CANVAS (AAGGG)_nrepeats stall DNA replication due to the formation of alternative DNA structures