Your search keyword '"Storti CB"' showing total 6 results

1. HJURP is recruited to double-strand break sites and facilitates DNA repair by promoting chromatin reorganization.

Author

Serafim RB, Cardoso C, Storti CB, da Silva P, Qi H, Parasuram R, Navegante G, Peron JPS, Silva WA Jr, Espreafico EM, Paçó-Larson ML, Price BD, and Valente V

Subjects

Humans, Centromere metabolism, Centromere Protein A genetics, Centromere Protein A metabolism, Chromosomal Proteins, Non-Histone genetics, Chromosomal Proteins, Non-Histone metabolism, DNA Repair genetics, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Chromatin genetics, Glioma genetics

Abstract

HJURP is overexpressed in several cancer types and strongly correlates with patient survival. However, the mechanistic basis underlying the association of HJURP with cancer aggressiveness is not well understood. HJURP promotes the loading of the histone H3 variant, CENP-A, at the centromeric chromatin, epigenetically defining the centromeres and supporting proper chromosome segregation. In addition, HJURP is associated with DNA repair but its function in this process is still scarcely explored. Here, we demonstrate that HJURP is recruited to DSBs through a mechanism requiring chromatin PARylation and promotes epigenetic alterations that favor the execution of DNA repair. Incorporation of HJURP at DSBs promotes turnover of H3K9me3 and HP1, facilitating DNA damage signaling and DSB repair. Moreover, HJURP overexpression in glioma cell lines also affected global structure of heterochromatin independently of DNA damage induction, promoting genome-wide reorganization and assisting DNA damage response. HJURP overexpression therefore extensively alters DNA damage signaling and DSB repair, and also increases radioresistance of glioma cells. Importantly, HJURP expression levels in tumors are also associated with poor response of patients to radiation. Thus, our results enlarge the understanding of HJURP involvement in DNA repair and highlight it as a promising target for the development of adjuvant therapies that sensitize tumor cells to irradiation., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

2. Upregulation of the novel lncRNA U731166 is associated with migration, invasion and vemurafenib resistance in melanoma.

Author

Siena ÁDD, Barros II, Storti CB, de Biagi Júnior CAO, da Costa Carvalho LA, Maria-Engler SS, Sousa JF, and Silva WA Jr

Subjects

Cell Line, Tumor, Cell Proliferation, Drug Resistance, Neoplasm genetics, Humans, Neoplasm Invasiveness genetics, Up-Regulation genetics, Vemurafenib pharmacology, Melanoma drug therapy, Melanoma genetics, Melanoma metabolism, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism

Abstract

Our previous work using a melanoma progression model composed of melanocytic cells (melanocytes, primary and metastatic melanoma samples) demonstrated various deregulated genes, including a few known lncRNAs. Further analysis was conducted to discover novel lncRNAs associated with melanoma, and candidates were prioritized for their potential association with invasiveness or other metastasis-related processes. In this sense, we found the intergenic lncRNA U73166 (ENSG00000230454) and decided to explore its effects in melanoma. For that, we silenced the lncRNA U73166 expression using shRNAs in a melanoma cell line. Next, we experimentally investigated its functions and found that migration and invasion had significantly decreased in knockdown cells, indicating an essential association of lncRNA U73166 for cancer processes. Additionally, using naïve and vemurafenib-resistant cell lines and data from a patient before and after resistance, we found that vemurafenib-resistant samples had a higher expression of lncRNA U73166. Also, we retrieved data from the literature that indicates lncRNA U73166 may act as a mediator of RNA processing and cell invasion, probably inducing a more aggressive phenotype. Therefore, our results suggest a relevant role of lncRNA U73166 in metastasis development. We also pointed herein the lncRNA U73166 as a new possible biomarker or target to help overcome clinical vemurafenib resistance., (© 2022 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published

2022

3. Expression Profiling of Glioblastoma Cell Lines Reveals Novel Extracellular Matrix-Receptor Genes Correlated With the Responsiveness of Glioma Patients to Ionizing Radiation.

Author

Serafim RB, da Silva P, Cardoso C, Di Cristofaro LFM, Netto RP, de Almeida R, Navegante G, Storti CB, de Sousa JF, de Souza FC, Panepucci R, Moreira CG, Penna LS, Silva WA Jr, and Valente V

Abstract

Glioblastoma (GBM) is the most lethal and frequent type of brain tumor, leading patients to death in approximately 14 months after diagnosis. GBM treatment consists in surgical removal followed by radio and chemotherapy. However, tumors commonly relapse and the treatment promotes only a slight increase in patient survival. Thus, uncovering the cellular mechanisms involved in GBM resistance is of utmost interest, and the use of cell lines has been shown to be an extremely important tool. In this work, the exploration of RNAseq data from different GBM cell lines revealed different expression signatures, distinctly correlated with the behavior of GBM cell lines regarding proliferation indexes and radio-resistance. U87MG and U138MG cells, which presented expressively reduced proliferation and increased radio-resistance, showed a particular expression signature encompassing enrichment in many extracellular matrix (ECM) and receptor genes. Contrasting, U251MG and T98G cells, that presented higher proliferation and sensibility to radiation, exhibited distinct signatures revealing consistent enrichments for DNA repair processes and although several genes from the ECM-receptor pathway showed up-regulation, enrichments for this pathway were not detected. The ECM-receptor is a master regulatory pathway that is known to impact several cellular processes including: survival, proliferation, migration, invasion, and DNA damage signaling and repair, corroborating the associations we found. Furthermore, searches to The Cancer Genome Atlas (TCGA) repository revealed prognostic correlations with glioma patients for the majority of genes highlighted in the signatures and led to the identification of 31 ECM-receptor genes individually correlated with radiation responsiveness. Interestingly, we observed an association between the number of upregulated genes and survivability greater than 5 years after diagnosis, where almost all the patients that presented 21 or more upregulated genes were deceased before 5 years. Altogether our findings suggest the clinical relevance of ECM-receptor genes signature found here for radiotherapy decision and as biomarkers of glioma prognosis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Serafim, da Silva, Cardoso, Di Cristofaro, Netto, de Almeida, Navegante, Storti, de Sousa, de Souza, Panepucci, Moreira, Penna, Silva and Valente.)

Published

2021

4. Non-Syndromic Intellectual Disability and Its Pathways: A Long Noncoding RNA Perspective.

Author

Barros II, Leão V, Santis JO, Rosa RCA, Brotto DB, Storti CB, Siena ÁDD, Molfetta GA, and Silva WA Jr

Abstract

Non-syndromic intellectual disability (NS-ID or idiopathic) is a complex neurodevelopmental disorder that represents a global health issue. Although many efforts have been made to characterize it and distinguish it from syndromic intellectual disability (S-ID), the highly heterogeneous aspect of this disorder makes it difficult to understand its etiology. Long noncoding RNAs (lncRNAs) comprise a large group of transcripts that can act through various mechanisms and be involved in important neurodevelopmental processes. In this sense, comprehending the roles they play in this intricate context is a valuable way of getting new insights about how NS-ID can arise and develop. In this review, we attempt to bring together knowledge available in the literature about lncRNAs involved with molecular and cellular pathways already described in intellectual disability and neural function, to better understand their relevance in NS-ID and the regulatory complexity of this disorder.

Published

2021

5. Telomere-associated genes and telomeric lncRNAs are biomarker candidates in lung squamous cell carcinoma (LUSC).

Author

Storti CB, de Oliveira RA, de Carvalho M, Hasimoto EN, Cataneo DC, Cataneo AJM, De Faveri J, Vasconcelos EJR, Dos Reis PP, and Cano MIN

Subjects

Adenocarcinoma classification, Adenocarcinoma pathology, Biomarkers, Tumor genetics, Brazil, Carcinoma, Non-Small-Cell Lung classification, Carcinoma, Non-Small-Cell Lung pathology, Cell Cycle Proteins genetics, Cell Proliferation genetics, DNA-Binding Proteins genetics, Gene Expression Regulation, Neoplastic genetics, Humans, Neoplasms, Squamous Cell classification, Neoplasms, Squamous Cell pathology, Nuclear Proteins genetics, RNA genetics, RNA, Long Noncoding genetics, Shelterin Complex, Telomerase genetics, Telomere-Binding Proteins genetics, Transcription Factors genetics, Transcriptome genetics, Adenocarcinoma genetics, Carcinoma, Non-Small-Cell Lung genetics, Neoplasms, Squamous Cell genetics, Telomere genetics

Abstract

In the past decade, research efforts were made to identify molecular biomarkers useful as therapeutic targets in Non-Small Cell Lung Cancer (NSCLC), the most frequent type of lung carcinoma. NSCLC presents different histological subtypes being the most prevalent LUSC (Lung Squamous Cell Cancer) and LUAD (Lung Adenocarcinoma), and only a subset of LUAD patients' present tumors expressing known targetable genetic alterations. Telomeres and its components, including telomerase, the enzyme that replenishes telomeres, have been considered potential cancer biomarkers due to their crucial role in cell proliferation and genome stability. Our study aims to quantify expression changes affecting telomere-associated genes and ncRNAs associated with telomere regulation and maintenance in NSCLC. We first assessed the transcriptome (RNA-Seq) data of NSCLC patients from The Cancer Genome Atlas (TCGA) and then we tested the expression of telomere-associated genes and telomeric ncRNAs (TERC, telomerase RNA component, and TERRA, telomere repeat-containing RNA) in Brazilian NCSLC patient samples by quantitative RT-PCR, using matched normal adjacent tissue samples as the control. We also estimated the mean size of terminal restriction fragments (TRF) of some Brazilian NSCLC patients using telomeric Southern blot. The TCGA analysis identified alterations in the expression profile of TERT and telomere damage repair genes, mainly in the LUSC subtype. The study of Brazilian NSCLC samples by RT-qPCR showed that LUSC and LUAD express high amounts of TERT and that although the mean TRF size of tumor samples was shorter compared to normal cells, telomeres in NSCLC are probably maintained by telomerase. Also, the expression analysis of Brazilian NSCLC samples identified statistically significant alterations in the expression of genes involved with telomere damage repair, as well as in TERC and TERRA, mainly in the LUSC subtype. We, therefore, concluded that telomere maintenance genes are significantly deregulated in NSCLC, representing potential biomarkers in the LUSC subtype., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

6. A calmodulin-like protein (LCALA) is a new Leishmania amazonensis candidate for telomere end-binding protein.

Author

Morea EGO, Viviescas MA, Fernandes CAH, Matioli FF, Lira CBB, Fernandez MF, Moraes BS, da Silva MS, Storti CB, Fontes MRM, and Cano MIN

Subjects

Amino Acid Sequence genetics, Calmodulin chemistry, DNA, Single-Stranded chemistry, DNA, Single-Stranded genetics, Humans, Leishmania pathogenicity, Leishmaniasis parasitology, Protein Binding, Telomere, Telomere-Binding Proteins genetics, Calmodulin genetics, Leishmania genetics, Leishmaniasis genetics, Telomere-Binding Proteins chemistry

Abstract

Background: Leishmania spp. telomeres are composed of 5'-TTAGGG-3' repeats associated with proteins. We have previously identified LaRbp38 and LaRPA-1 as proteins that bind the G-rich telomeric strand. At that time, we had also partially characterized a protein: DNA complex, named LaGT1, but we could not identify its protein component., Methods and Results: Using protein-DNA interaction and competition assays, we confirmed that LaGT1 is highly specific to the G-rich telomeric single-stranded DNA. Three protein bands, with LaGT1 activity, were isolated from affinity-purified protein extracts in-gel digested, and sequenced de novo using mass spectrometry analysis. In silico analysis of the digested peptide identified them as a putative calmodulin with sequences identical to the T. cruzi calmodulin. In the Leishmania genome, the calmodulin ortholog is present in three identical copies. We cloned and sequenced one of the gene copies, named it LCalA, and obtained the recombinant protein. Multiple sequence alignment and molecular modeling showed that LCalA shares homology to most eukaryotes calmodulin. In addition, we demonstrated that LCalA is nuclear, partially co-localizes with telomeres and binds in vivo the G-rich telomeric strand. Recombinant LCalA can bind specifically and with relative affinity to the G-rich telomeric single-strand and to a 3'G-overhang, and DNA binding is calcium dependent., Conclusions: We have described a novel candidate component of Leishmania telomeres, LCalA, a nuclear calmodulin that binds the G-rich telomeric strand with high specificity and relative affinity, in a calcium-dependent manner., General Significance: LCalA is the first reported calmodulin that binds in vivo telomeric DNA., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017