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2. A Streamlined Approach to Rapidly Detect SARS-CoV-2 Infection Avoiding RNA Extraction: Workflow Validation

Author

Annarosa Cussigh, Stefania Zampieri, Roberto Verardo, Adriana Cifù, Romina Martinella, Stefania Marzinotto, Francesco Curcio, Natascha Bergamin, Sara Cmet, Corrado Pipan, Catia Mio, Silvia Cattarossi, Jessica Zucco, Claudio Schneider, Barbara Marcon, and Chiara Caldana

Subjects
Medicine (General), Article Subject, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Clinical Biochemistry, 02 engineering and technology, Sensitivity and Specificity, Workflow, Coronavirus Envelope Proteins, 03 medical and health sciences, COVID-19 Testing, R5-920, 0302 clinical medicine, Limit of Detection, Nasopharynx, Genetics, Humans, Medicine, 030212 general & internal medicine, Molecular Biology, Gene, biology, Reverse Transcriptase Polymerase Chain Reaction, SARS-CoV-2, business.industry, Biochemistry (medical), RNA, General Medicine, 021001 nanoscience & nanotechnology, Proteinase K, Virology, Nucleic acid, biology.protein, RNA, Viral, RNA extraction, 0210 nano-technology, business, Viral load, Research Article
Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection has rapidly spread worldwide from the beginning of 2020. The presence of viral RNA in samples by nucleic acid (NA) molecular analysis is the only method available to diagnose COVID-19 disease and to assess patients’ viral load. Since the demand for laboratory reagents has increased, there has been a worldwide shortage of RNA extraction kits. We, therefore, developed a fast and cost-effective viral genome isolation method that, combined with quantitative RT-PCR assay, detects SARS-CoV-2 RNA in patient samples. The method relies on the addition of Proteinase K followed by a controlled heat-shock incubation and, then, E gene evaluation by RT-qPCR. It was validated for sensitivity, specificity, linearity, reproducibility, and precision. It detects as low as 10 viral copies/sample, is rapid, and has been characterized in 60 COVID-19-infected patients. Compared to automated extraction methods, our pretreatment guarantees the same positivity rate with the advantage of shortening the time of the analysis and reducing its cost. This is a rapid workflow meant to aid the healthcare system in the rapid identification of infected patients, such as during a pathogen-related outbreak. For its intrinsic characteristics, this workflow is suitable for large-scale screenings.

Published
2020

3. Novel IGFALS mutations with predicted pathogenetic effects by the analysis of AlphaFold structure

Author

Alessandra Franzoni, Federica Baldan, Nadia Passon, Catia Mio, Daniela Driul, Paola Cogo, Federico Fogolari, Federica D’Aurizio, and Giuseppe Damante

Subjects
Short stature, Endocrinology, Endocrinology, Diabetes and Metabolism, Mutation, Exome, IGFALS
Abstract

According to the American College of Medical Genetics (ACMG) classification, variants of uncertain significance (VUS) are gene variations whose impact on the disease risk is not yet known. VUS, therefore, represent an unmet need for genetic counselling. Aim of the study is the use the AlphaFold artificial intelligence algorithm to predict the impact of novel mutations of the IGFALS gene, detected in a subject with short stature and initially classified as VUS according to the ACMG classification.A short-stature girl and her parents have been investigated. IGFALS mutations have been detected through clinical exome and confirmed by Sanger sequencing. The potential presence of co-occurring gene alterations was investigated in the proband by whole exome and CGH array. Structure of the ALS protein (encoded by the IGFALS gene) was evaluated through the AlphaFold artificial intelligence algorithm.Two IGFALS variants were found in the proband: c.1349T C (p.Leu450Pro) and c.1363_1365delCTC (p.Leu455del), both classified as VUS, according to ACMG. Parents' analysis highlighted the in trans position of the two variants. AlphaFold showed that the mutated positions were found the concave side a horseshoe structure of the ALS protein, likely interfering with protein-protein interactions. According to a loss of function (LoF) effect of the two variants, reduced levels of the IGF1 and IGFBP-3 proteins, as well as a growth hormone (GH) excess were detected in the proband's serum.By using the AlphaFold structure we were able to predict two IGFALS gene mutations initially classified as VUS, as potentially pathogenetic. Our proof-of-concept showed a potential application of AlphaFold as tool to a better inform VUS interpretation of genetic tests.

Published
2022

4. Exploring the molecular insights of concurrent composite mucoepidermoid carcinoma and papillary thyroid carcinoma

Author

Cira Di Gioia, Marco Filetti, Cosimo Durante, Luana Abballe, Michela Roberto, R. Carletti, Valeria Pecce, Giorgio Grani, Rosa Falcone, Giuseppe Damante, Paolo Marchetti, Marialuisa Sponziello, Catia Mio, Antonella Verrienti, Francesco Nardi, and Valeria Ramundo

Subjects
Pathology, medicine.medical_specialty, business.industry, Endocrinology, Diabetes and Metabolism, carcinoma, mucoepidermoid, thyroid, MEDLINE, medicine.disease, Carcinoma, Papillary, Thyroid carcinoma, Endocrinology, Thyroid Cancer, Papillary, Mucoepidermoid carcinoma, Humans, Medicine, Carcinoma, Mucoepidermoid, Thyroid Neoplasms, business
Published
2020

5. Molecular defects in thyroid dysgenesis

Author

Cosimo Durante, Giorgio Grani, Giuseppe Damante, and Catia Mio

Subjects
congenital hypothyroidism, next-generation sequencing, null mice, thyroid dysgenesis, 0301 basic medicine, endocrine system, Genotype, endocrine system diseases, Thyroid Gland, 030105 genetics & heredity, Biology, medicine.disease_cause, Thyroid dysgenesis, Mice, 03 medical and health sciences, Congenital Hypothyroidism, Genetics, medicine, Animals, Humans, Endocrine system, Gene, Genetics (clinical), Genetic testing, Mutation, medicine.diagnostic_test, Thyroid, High-Throughput Nucleotide Sequencing, medicine.disease, Congenital hypothyroidism, 030104 developmental biology, medicine.anatomical_structure, Thyroid Dysgenesis, PAX8
Abstract

Congenital hypothyroidism (CH) is a neonatal endocrine disorder that might occur as itself or be associated to congenital extra-thyroidal defects. About 85% of affected subjects experience thyroid dysgenesis (TD), characterized by defect in thyroid gland development. In vivo experiments on null mice paved the way for the identification of genes involved thyroid morphogenesis and development, whose mutation has been strongly associated to TD. Most of them are thyroid-specific transcription factors expressed during early thyroid development. Despite the arduous effort in unraveling the genetics of TD in animal models, up to now these data have been discontinuously confirmed in humans and only 5% of TD have associated with known null mice-related mutations (mainly PAX8 and TSHR). Notwithstanding, the advance in genetic testing represented by the next-generation sequencing (NGS) approach is steadily increasing the list of genes whose highly penetrant mutation predisposes to TD. In this review we intend to outline the molecular bases of TD, summarizing the current knowledge on thyroid development in both mice and humans and delineating the genetic features of its monogenetic forms. We will also highlight current strategies to enhance the insight into the non-Mendelian mechanisms of abnormal thyroid development.

Published
2019

6. Challenges in promoter methylation analysis in the new era of translational oncology: a focus on liquid biopsy

Author

Catia Mio and Giuseppe Damante

Subjects
Promoter hyper-methylation, Biomarkers, Tumor, Liquid Biopsy, Cancer biomarkers, Molecular Medicine, Prospective Studies, Technological improvements, DNA Methylation, Clinical utility, Medical Oncology, Molecular Biology, Liquid biopsy
Abstract

Toward the discovery of novel reliable biomarkers, epigenetic alterations have been repeatedly proposed for the diagnosis and the development of therapeutic strategies against cancer. Indeed, for promoter methylation to actively become a tumor marker for clinical use, it must be combined with a highly informative technology evaluated in an appropriate biospecimen. Methodological standardization related to epigenetic research is, in fact, one of the most challenging tasks. Moreover, tissue-based biopsy is being complemented and, in some cases, replaced by liquid biopsy. This review will highlight the advancements made for both pre-analytical and analytical implementation for the prospective use of methylation biomarkers in clinical settings, with particular emphasis on liquid biopsy.

Published
2022

7. BET proteins regulate homologous recombination-mediated DNA repair: BRCAness and implications for cancer therapy

Author

Catia Mio, Mattia Barbina, Andrea Zanello, Giuseppe Damante, Fabio Puglisi, Marco Bolis, Lorenzo Gerratana, Federica Caponnetto, Enrico Garattini, and Carla Di Loreto

Subjects
Cancer Research, BRD4, DNA damage, Chemistry, DNA repair, RAD51, Synthetic lethality, Homologous Recombination Pathway, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Epigenetics, Homologous recombination
Abstract

Bromodomain and Extra-Terminal (BET) proteins are historically involved in regulating gene expression and BRD4 was recently found to be involved in DNA damage regulation. Aims of our study were to assess BRD4 regulation in homologous recombination-mediated DNA repair and to explore novel clinical strategies through the combinations of the pharmacological induction of epigenetic BRCAness in BRCA1 wild-type triple negative breast cancer (TNBC) cells by means of BET inhibitors and compounds already available in clinic. Performing a dual approach (chromatin immunoprecipitation and RNA interference), the direct relationship between BRD4 and BRCA1/RAD51 expression was confirmed in TNBC cells. Moreover, BRD4 pharmacological inhibition using two BET inhibitors (JQ1 and GSK525762A) induced a dose-dependent reduction in BRCA1 and RAD51 levels and is able to hinder homologous recombination-mediated DNA damage repair, generating a BRCAness phenotype in TNBC cells. Furthermore, BET inhibition impaired the ability of TNBC cells to overcome the increase in DNA damage after platinum salts (i.e., CDDP) exposure, leading to massive cell death, and triggered synthetic lethality when combined with PARP inhibitors (i.e., AZD2281). Altogether, the present study confirms that BET proteins directly regulate the homologous recombination pathway and their inhibition induced a BRCAness phenotype in BRCA1 wild-type TNBC cells. Noteworthy, being this strategy based on drugs already available for human use, it is rapidly transferable and could potentially enable clinicians to exploit platinum salts and PARP inhibitors-based treatments in a wider population of TNBC patients and not just in a specific subgroup, after validating clinical trials.

Published
2018

8. A novel de novo NIPA1 missense mutation associated to hereditary spastic paraplegia

Author

Federico Fogolari, Dora Fabbro, Giuseppe Damante, and Catia Mio

Subjects
0301 basic medicine, Adult, Genotype, Endosome, Hereditary spastic paraplegia, Magnesium transporter, Mutation, Missense, 030105 genetics & heredity, Biology, medicine.disease_cause, 03 medical and health sciences, Genetics, medicine, Missense mutation, Humans, Genetic Predisposition to Disease, Genetics (clinical), Exome sequencing, Alleles, Genetic Association Studies, Mutation, Spastic Paraplegia, Hereditary, Membrane Proteins, medicine.disease, Transmembrane domain, 030104 developmental biology, Phenotype, Amino Acid Substitution, Female, Signal transduction
Abstract

SPG6 accounts for 1% of autosomal dominant Hereditary Spastic Paraplegia (HSP) and is caused by pathogenic variants in NIPA1, which encodes a magnesium transporter located in plasma membrane and early endosomes, implicated in neuronal development and maintenance. Here we report a 39-year-old woman affected by progressive gait disturbance associated to absence seizures episodes within childhood. Clinical exome sequencing identified a likely pathogenic de novo heterozygous variant in NIPA1 (NM_144599.5 c.249 C > G; p.Asn83Lys). Molecular modelling was performed to evaluate putative functional consequence of the NIPA1 protein. Indeed, the Asn83Lys modification is predicted to induce a significant perturbation of the protein structure, altering signal transduction or small-molecule transport by modulating the length of the second transmembrane domain. This is the first study reporting a SPG6-affected patient harbouring the NIPA1 p.Asn83Lys mutation.

Published
2021

9. Missense NR2F1 variant in monozygotic twins affected with the Bosch–Boonstra–Schaaf optic atrophy syndrome

Author

Angela Valentina D'Elia, Giuseppe Damante, Maria Iascone, Laura Pezzoli, Federico Fogolari, and Catia Mio

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, lcsh:QH426-470, Adolescent, BBSOAS, monozygotic twins, NR2F1, whole exome sequencing, Mutation, Missense, Genomics, 030105 genetics & heredity, Biology, medicine.disease_cause, Clinical Reports, DNA sequencing, 03 medical and health sciences, Optic Atrophy, Autosomal Dominant, Genetics, medicine, Humans, Missense mutation, Molecular Biology, Gene, Genetics (clinical), Exome sequencing, Mutation, Binding Sites, COUP Transcription Factor I, Clinical Report, DNA, Twins, Monozygotic, DNA-binding domain, lcsh:Genetics, 030104 developmental biology, Medical genetics, Protein Binding
Abstract

Background The Bosch‐Boonstra‐Schaaf optic atrophy syndrome (BBSOAS) is an autosomal‐dominant disorder (OMIM615722) mostly characterized by optic atrophy and/or hypoplasia, mild intellectual disability, hypotonia, seizures/infantile epilepsy. This disorder is caused by loss‐of‐function alterations of NR2F1 (i.e., either whole gene deletions or single nucleotide variants) and, to date, 40 patients have been identified with deletions or mutations in this gene. Here we describe two monozygotic twins harboring a de novo missense variant in the DNA‐binding domain of NR2F1 (c.313G>A, p.Gly105Ser), with well‐characterized features associated to BBSOAS. Methods Patients’ DNA was analyzed by exome sequencing identifying the missense variant c.313G>A in NR2F1 (NM_005654.4). Furthermore, molecular modeling was performed to evaluate putative differences in DNA binding between wild‐type and mutated NR2F1. Results The missense variant is predicted to be likely pathogenetic following the ACMG (American College of Medical Genetics and Genomics)/AMP (Association for Molecular Pathology) guidelines. Indeed, dynamic simulation experiments highlighted that the Gly105Ser substitution let the formation of a hydrogen bond between the S105 side chain and R142 and a base (G5) of the DNA sequence, allowing us to hypothesize that the G105 residue might be evolutionary conserved due to the absence of a side chain, besides glycine conformational features. Therefore, the G105S variation seems to cause a stiffening and a possible deformation in the protein‐DNA complex due to the interaction of residues R142‐S105 and G5 on the DNA, compared to the wild‐type. Conclusion In summary, we described two monozygotic twins harboring a novel Gly105Ser mutation in NR2F1 DNA binding domain, displaying the classical phenotype of BBSOAS‐affected patients. Our computational data suggest a dominant negative effect of this newly characterized missense variant. To date, this is the first genetic report analyzing in silico structural consequences of NR2F1 Gly105Ser substitution., Here we describe two monozygotic twins harboring a de novo missense variant in the DNA binding domain of NR2F1, with well‐characterized features associated to BBSOAS. Following the American College of Medical Genetics and Genomics (ACMG) guidelines, the variant is classified as likely pathogenic, matching 4 out of 6 specific criteria. Furthermore, molecular dynamics simulations highlighted that the complexes mutation introduces bonds in the triad R142‐S105‐G5 DNA base which could lead to a distortion and stiffening in this region, compromising the receptor functions.

Published
2020

10. A streamlined approach to rapidly detect SARS-CoV-2 infection, avoiding RNA purification

Author

Adriana Cifù, Roberto Verardo, Corrado Pipan, Stefania Marzinotto, Claudio Schneider, Francesco Curcio, and Catia Mio

Subjects
biology, Chemistry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Nucleic acid, biology.protein, RNA, Economic shortage, Extraction methods, Viral rna, RNA extraction, Proteinase K, Virology
Abstract

In the current pandemic, the presence of SARS-CoV-2 RNA in samples by nucleic acid (NA) molecular analysis is the only method available to diagnose COVID-19 disease and to assess patients’ infectiveness. Recently, the demand for laboratory reagents has greatly increased; in particular, there is a worldwide shortage of RNA extraction kits. Here, we describe a fast, simple and inexpensive method for the detection of SARS CoV-2 RNA, which includes a pretreatment with Proteinase K and a heating-cooling cycle before the amplification. This method bypasses the RNA extraction step; it leads to a higher amount of available viral RNA compared to the automated extraction methods, and generates the same profile in the subsequent amplification phase.

Published
2020

11. A paternally inherited 1.4 kb deletion of the 11p15.5 imprinting center 2 is associated with a mild familial Silver-Russell syndrome phenotype

Author

Nadia Passon, Giuseppe Damante, Lorenzo Allegri, Elisa Bregant, Alessandra Franzoni, Andrea Riccio, Catia Mio, Eliana Demori, Daniela Driul, Federica Baldan, Mio, C., Allegri, L., Passon, N., Bregant, E., Demori, E., Franzoni, A., Driul, D., Riccio, A., Damante, G., and Baldan, F.

Subjects
Proband, Body asymmetry, Biology, Short stature, Article, Genomic Imprinting, parasitic diseases, Genetics, medicine, Humans, Imprinting (psychology), Child, Genetics (clinical), Silver–Russell syndrome, Chromosomes, Human, Pair 11, Chromosome, medicine.disease, Phenotype, Silver-Russell Syndrome, Paternal Inheritance, Female, medicine.symptom, Chromosome Deletion, Silver-Russell syndrome phenotype, Genomic imprinting
Abstract

The Silver–Russell syndrome (SRS) is a rare disorder characterized by heterogeneous clinical features, including growth retardation, typical facial dysmorphisms, and body asymmetry. Genetic alterations causative of SRS mostly affect imprinted genes located on chromosomes 7 or 11. Hypomethylation of the Imprinting Center 1 (IC1) of the chromosome 11p15.5 is the most common cause of SRS, while the Imprinting Center 2 (IC2) has been more rarely involved. Specifically, maternally inherited 11p15.5 deletions including the IC2 have been associated with the Beckwith–Wiedemann Syndrome (BWS), while paternal deletions with a variable spectrum of phenotypes. Here, we describe the case of a girl with a mild SRS phenotype associated with a paternally inherited 1.4 kb deletion of IC2. The father of the proband inherited the deletion from his mother and showed normal growth, while the paternal grandmother had the deletion on her paternal chromosome and exhibited short stature. Together with previous findings obtained in mouse and humans, our data support the notion that deletion of the paternal copy of IC2 can cause SRS.

Published
2020

12. Local occurrence and fast spread of B.1.1.7 lineage: A glimpse into Friuli Venezia Giulia

Author

Catia Mio, Chiara Dal Secco, Stefania Marzinotto, Claudio Bruno, Santa Pimpo, Elena Betto, Martina Bertoni, Corrado Pipan, Emanuela Sozio, Carlo Tascini, Giuseppe Damante, and Francesco Curcio

Subjects
RNA viruses, Coronaviruses, Molecular biology, Epidemiology, Disease Outbreaks, Sequencing techniques, Nasopharynx, DNA sequencing, Pathology and laboratory medicine, Phylogeny, Data Management, Multidisciplinary, High-Throughput Nucleotide Sequencing, Phylogenetic Analysis, Genomics, Medical microbiology, Phylogenetics, Phylogeography, Italy, Viruses, RNA, Viral, SARS CoV 2, Pathogens, Transcriptome Analysis, Research Article, Next-Generation Sequencing, Computer and Information Sciences, SARS coronavirus, Library Screening, Microbiology, Viral Evolution, Virology, Genetics, Humans, Evolutionary Systematics, Pandemics, Taxonomy, Medicine and health sciences, Molecular Biology Assays and Analysis Techniques, Evolutionary Biology, Biology and life sciences, SARS-CoV-2, Sequence Analysis, RNA, Organisms, Viral pathogens, Computational Biology, COVID-19, Genome Analysis, Organismal Evolution, United Kingdom, Microbial pathogens, Research and analysis methods, Molecular biology techniques, Microbial Evolution
Abstract

In-depth study of the entire SARS-CoV-2 genome has uncovered many mutations, which have replaced the lineage that characterized the first wave of infections all around the world. In December 2020, the outbreak of variant of concern (VOC) 202012/01 (lineage B.1.1.7) in the United Kingdom defined a turning point during the pandemic, immediately posing a worldwide threat on the Covid-19 vaccination campaign. Here, we reported the evolution of B.1.1.7 lineage-related infections, analyzing samples collected from January 1st 2021, until April 15th 2021, in Friuli Venezia Giulia, a northeastern region of Italy. A cohort of 1508 nasopharyngeal swabs was analyzed by High Resolution Melting (HRM) and 479 randomly selected samples underwent Next Generation Sequencing analysis (NGS), uncovering a steady and continuous accumulation of B.1.1.7 lineage-related specimens, joined by sporadic cases of other known lineages (i.e. harboring the Spike glycoprotein p.E484K mutation). All the SARS-CoV-2 genome has been analyzed in order to highlight all the rare mutations that may eventually result in a new variant of interest. This work suggests that a thorough monitoring of the SARS-CoV-2 genome by NGS is essential to contain any new variant that could jeopardize all the efforts that have been made so far to resolve the emergence of the pandemic.

Published
2021

13. Effects of nutraceuticals on anaplastic thyroid cancer cells

Author

Federica Baldan, Lorenzo Allegri, Sebastiano Filetti, Catia Mio, Giuseppe Damante, and Francesca Rosignolo

Subjects
0301 basic medicine, Cancer Research, Curcumin, Cellular differentiation, Genistein, Antineoplastic Agents, Apoptosis, Cell Growth Processes, Resveratrol, Thyroid Carcinoma, Anaplastic, Catechin, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Phytogenic, Cell Line, Tumor, Stilbenes, medicine, Anaplastic, Humans, Thyroid Neoplasms, Viability assay, Anaplastic thyroid cancer, Thyroid cancer, Tumor, ATC, EGCG, ATC, Nutraceuticals, Antineoplastic Agents, Phytogenic, Cell Differentiation, MicroRNAs, Dietary Supplements, Oncology, Thyroid Carcinoma, food and beverages, General Medicine, medicine.disease, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, Cancer research, EGCG
Abstract

The anaplastic thyroid carcinoma (ATC) is the most aggressive thyroid cancer with a high mortality rate. Since nutraceuticals may exert beneficial effects on tumor biology, here, effects of four of these compounds [resveratrol, genistein, curcumin and epigallocatechin-3-gallate (EGCG)] on ATC cell lines were investigated. Two ATC-derived cell lines were used: SW1736 and 8505C. Cell viability and in vitro aggressiveness was tested by MTT and soft agar assays. Apoptosis was investigated by Western Blot, using an anti-cleaved-PARP antibody. mRNA and miRNA levels were quantified by real-time PCR. All tested nutraceuticals caused in both cell lines decrease of cell viability and increase of apoptosis. In contrast, only curcumin reduced in vitro aggressiveness in both SW1736 and 8505C cell lines, while genistein and EGCG determined a reduction of colony formation only in 8505C cells. Effects on genes related to the thyroid-differentiated phenotype were also tested: resveratrol and genistein administration determined the increment of almost all tested mRNAs in both cell lines. Instead curcumin and EGCG treatments had opposite effects in the two cell lines, causing the increment of almost all the mRNAs in 8505C cells and their reduction in SW1736. Finally, effects of nutraceuticals on levels of several miRNAs, known as important in thyroid cancer progression (hsa-miR-221, hsa-miR-222, hsa-miR-21, hsa-miR-146b, hsa-miR-204), were tested. Curcumin induced a strong and significant reduction of all miR analyzed, except for has-miR-204, in both cell lines. Altogether, our results clearly indicate the anti-cancer proprieties of curcumin, suggesting the promising use of this nutraceutical in ATC treatment. Resveratrol, genistein and EGCG have heterogeneous effects on molecular features of ATC cells.

Published
2017

14. BAZ1B is a candidate gene responsible for hypothyroidism in Williams syndrome

Author

Lorenzo Allegri, Catia Mio, Mario De Felice, Federica Baldan, Giuseppe Damante, and Elena Amendola

Subjects
0301 basic medicine, endocrine system, Candidate gene, endocrine system diseases, Williams syndrome, BAZ1B, Hypothyroidism, Down-Regulation, 030105 genetics & heredity, Biology, Thyroid dysgenesis, Cell Line, 03 medical and health sciences, Neurodevelopmental disorder, Downregulation and upregulation, Genetics, medicine, Humans, Gene, Genetics (clinical), Thyroid, Chromosome, General Medicine, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Thyroid Epithelial Cells, Cancer research, Transcription Factors
Abstract

Williams syndrome (WS) is a rare neurodevelopmental disorder associated to a hemizygous deletion of 28 genes located on chromosome 7q11.23. WS affected subjects frequently suffer from several endocrine abnormalities including hypothyroidism due to defects in thyroid morphology. To date, several genes involved in thyroid dysgenesis have been identified, nonetheless, none of them is located in the 7q11.23 region. Thus, the hypothyroidism-linked molecular features in WS are not yet known. In this study we focused on one of the WS deleted gene, BAZ1B, demonstrating that its downregulation in thyroid cells leads to cell viability and survival decrement. Taking together, our results show that BAZ1B could be the mainly responsible for thyroid defects observed in some of WS patients and that these alterations are activated by PTEN-mediated mechanisms.

Published
2020

15. Correction to: Exploring the molecular insights of concurrent composite mucoepidermoid carcinoma and papillary thyroid carcinoma

Author

Michela Roberto, Cira Di Gioia, Paolo Marchetti, Antonella Verrienti, Giorgio Grani, Valeria Pecce, Luana Abballe, Cosimo Durante, Rosa Falcone, Giuseppe Damante, Catia Mio, Valeria Ramundo, Marco Filetti, Francesco Nardi, R. Carletti, and Marialuisa Sponziello

Subjects
Thyroid carcinoma, Pathology, medicine.medical_specialty, Endocrinology, Mucoepidermoid carcinoma, business.industry, Endocrinology, Diabetes and Metabolism, medicine, medicine.disease, business
Published
2020

16. Human telomerase reverse transcriptase in papillary thyroid cancer: gene expression, effects of silencing and regulation by BET inhibitors in thyroid cancer cells

Author

Stefania Bulotta, Diego Russo, Federica Baldan, Lorenzo Allegri, Valentina Maggisano, Catia Mio, Rosa Falcone, Giuseppe Damante, Marilena Celano, Marianna Maranghi, Saverio Massimo Lepore, Marialuisa Sponziello, Antonella Verrienti, Francesca Rosignolo, and Valeria Pecce

Subjects
Adult, Male, endocrine system diseases, Endocrinology, Diabetes and Metabolism, Papillary thyroid cancer, 030209 endocrinology & metabolism, BET inhibitors, phospho-AKT, siRNA anti-hTERT, 03 medical and health sciences, Benzodiazepines, Young Adult, 0302 clinical medicine, Endocrinology, Western blot, Cell Line, Tumor, Gene expression, medicine, Gene silencing, Humans, Telomerase reverse transcriptase, Thyroid Neoplasms, neoplasms, Thyroid cancer, Telomerase, Aged, medicine.diagnostic_test, Chemistry, Thyroid, Proteins, Azepines, Middle Aged, Triazoles, medicine.disease, Diabetes and Metabolism, enzymes and coenzymes (carbohydrates), medicine.anatomical_structure, Cell culture, Thyroid Cancer, Papillary, 030220 oncology & carcinogenesis, embryonic structures, Cancer research, Female, biological phenomena, cell phenomena, and immunity
Abstract

Mutations in TERT promoter have been detected in the more aggressive papillary thyroid cancers (PTCs). To elucidate the role of TERT as an eligible molecular target in these tumors, the expression of hTERT was analyzed in a series of PTCs and the effects of both pharmacological and RNA-interference-induced hTERT silencing were investigated in two human PTC cell lines (K1 and BCPAP). The expression levels of hTERT mRNA and protein were evaluated by real-time PCR and western blot assays, respectively. Effects of hTERT silencing on PTC cell lines were analyzed by MTT, migration and western blot assays. Pharmacological inhibition of hTERT was performed using two bromodomain and extra-terminal (BET) inhibitors, JQ1 and I-BET762. hTERT expression results increased in 20 out of 48 PTCs, including tumors either positive or negative for the presence of hTERT promoter and/or BRAF mutations. In K1 and BCPAP cells, hTERT silencing determined a reduction in cell viability (~50% for K1 and ~70%, for BCPAP, vs control) and migration properties that were associated with a decrease of AKT phosphorylation and β-Catenin expression. Moreover, hTERT mRNA levels were down-regulated by two BET inhibitors, JQ1 and I-BET762, which at the same dosage (0.5 and 5 µM) reduced the growth of these thyroid cancer cells. These findings demonstrate that hTERT may represent an excellent therapeutic target in subgroups of aggressive PTCs.

Published
2018

17. Nanoparticles Loaded with the BET Inhibitor JQ1 Block the Growth of Triple Negative Breast Cancer Cells In Vitro and In Vivo

Author

Stefania Catalano, Stefania Bulotta, Ines Barone, Donato Cosco, Valentina Maggisano, Salvatore Panza, Massimo Fresta, Diego Russo, Catia Mio, Sebastiano Andò, Marilena Celano, Chiara Mignogna, Giuseppe Damante, and Rocco Malivindi

Subjects
0301 basic medicine, Cancer Research, JQ1, medicine.medical_treatment, lcsh:RC254-282, Article, Targeted therapy, BET inhibitor, 03 medical and health sciences, 0302 clinical medicine, Vascularity, In vivo, medicine, Neoplasm, Triple negative breast cancer, Epigenetics, BET inhibitors, Triple-negative breast cancer, Nanoparticles, Chemistry, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, In vitro, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research, medicine.symptom
Abstract

Inhibition of bromo-and extra-terminal domain (BET) proteins, epigenetic regulators of genes involved in cell viability, has been efficiently tested in preclinical models of triple negative breast cancer (TNBC). However, the use of the selective BET-inhibitor JQ1 on humans is limited by its very short half-life. Herein, we developed, characterized and tested a novel formulation of nanoparticles containing JQ1 (N-JQ1) against TNBC in vitro and in vivo. N-JQ1, prepared using the nanoprecipitation method of preformedpoly-lactid-co-glycolic acid in an aqueous solution containing JQ1 and poloxamer-188 as a stabilizer, presented a high physico-chemical stability. Treatment of MDA-MB 157 and MDA-MB 231 TNBC cells with N-JQ1 determined a significant decrease in cell viability, adhesion and migration. Intra-peritoneal administration (5 days/week for two weeks) of N-JQ1 in nude mice hosting a xenograft TNBC after flank injection of MDA-MB-231 cells determined a great reduction in the growth and vascularity of the neoplasm. Moreover, the treatment resulted in a minimal infiltration of nearby tissues. Finally, the encapsulation of JQ1 in nanoparticles improved the anticancer efficacy of this epigenetic compound against TNBC in vitro and in vivo, opening the way to test it in the treatment of TNBC.

Published
2019

18. BET proteins regulate homologous recombination-mediated DNA repair: BRCAness and implications for cancer therapy

Author

Catia, Mio, Lorenzo, Gerratana, Marco, Bolis, Federica, Caponnetto, Andrea, Zanello, Mattia, Barbina, Carla, Di Loreto, Enrico, Garattini, Giuseppe, Damante, and Fabio, Puglisi

Subjects
BRCA1 Protein, Nuclear Proteins, Recombinational DNA Repair, Antineoplastic Agents, Cell Cycle Proteins, Triple Negative Breast Neoplasms, Azepines, Poly(ADP-ribose) Polymerase Inhibitors, Triazoles, Piperazines, Gene Expression Regulation, Neoplastic, Benzodiazepines, Cell Line, Tumor, Humans, Phthalazines, Female, RNA Interference, Rad51 Recombinase, Cisplatin, DNA Damage, Transcription Factors
Abstract

Bromodomain and Extra-Terminal (BET) proteins are historically involved in regulating gene expression and BRD4 was recently found to be involved in DNA damage regulation. Aims of our study were to assess BRD4 regulation in homologous recombination-mediated DNA repair and to explore novel clinical strategies through the combinations of the pharmacological induction of epigenetic BRCAness in BRCA1 wild-type triple negative breast cancer (TNBC) cells by means of BET inhibitors and compounds already available in clinic. Performing a dual approach (chromatin immunoprecipitation and RNA interference), the direct relationship between BRD4 and BRCA1/RAD51 expression was confirmed in TNBC cells. Moreover, BRD4 pharmacological inhibition using two BET inhibitors (JQ1 and GSK525762A) induced a dose-dependent reduction in BRCA1 and RAD51 levels and is able to hinder homologous recombination-mediated DNA damage repair, generating a BRCAness phenotype in TNBC cells. Furthermore, BET inhibition impaired the ability of TNBC cells to overcome the increase in DNA damage after platinum salts (i.e., CDDP) exposure, leading to massive cell death, and triggered synthetic lethality when combined with PARP inhibitors (i.e., AZD2281). Altogether, the present study confirms that BET proteins directly regulate the homologous recombination pathway and their inhibition induced a BRCAness phenotype in BRCA1 wild-type TNBC cells. Noteworthy, being this strategy based on drugs already available for human use, it is rapidly transferable and could potentially enable clinicians to exploit platinum salts and PARP inhibitors-based treatments in a wider population of TNBC patients and not just in a specific subgroup, after validating clinical trials.

Published
2018

19. Effects of HuR downregulation on anaplastic thyroid cancer cells

Author

Lorenzo Allegri, Federica Baldan, Catia Mio, Sebastiano Filetti, and Diego Russo

Subjects
0301 basic medicine, Cancer Research, Oncogene, medicine.drug_class, Histone deacetylase inhibitor, Cell, Articles, Cell cycle, Biology, medicine.disease, medicine.disease_cause, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, Downregulation and upregulation, 030220 oncology & carcinogenesis, medicine, Cancer research, Viability assay, Anaplastic thyroid cancer, Carcinogenesis
Abstract

Anaplastic thyroid cancer (ATC) constitutes one of the most aggressive types of human solid cancer, and is characterized by the absence of thyroid differentiation features and a marked degree of invasiveness. We have previously demonstrated that the RNA-binding protein Hu antigen R (HuR) is overexpressed in thyroid carcinoma; thus, the biological role of this RNA-binding protein was investigated in the present study using the ATC cell lines SW1736 and 8505C. In both cell lines, HuR protein levels were higher compared with in the non-tumorigenic thyroid cell line Nthy-ori-3.1. HuR silencing by RNA interference in both ATC cell lines decreased cell viability, increased apoptosis rates and reduced the capability to form colonies in soft agar. Thus, HuR plays an important role in the proliferation and aggressiveness of ATC cells. The histone deacetylase inhibitor suberoylanilide hydroxamic acid (SAHA) was able to reduce the viability of ATC cells. The results demonstrated that SAHA was able to decrease HuR expression in SW1736 and 8505C cells. Furthermore, since it is known that the transcription factor nuclear factor (NF)-κB modulates HuR expression, whether SAHA affects the nuclear (active) fraction of NF-κB in ATC cells was investigated. The data suggested that SAHA decreases ATC cell viability by reducing the active form of NF-κB, which, in turn, modulates HuR expression.

Published
2017

20. Evaluation of somatic genomic imbalances in thyroid carcinomas of follicular origin by CGH-based approaches

Author

Saverio Massimo Lepore, Diego Russo, Lorenzo Allegri, Catia Mio, Nadia Passon, Federica Baldan, and Giuseppe Damante

Subjects
0301 basic medicine, Comparative genomic hybridization, Mutation, Thyroid neoplasms, Internal Medicine, Endocrinology, Diabetes and Metabolism, Endocrinology, Somatic cell, Genomics, Computational biology, medicine.disease_cause, Thyroid carcinoma, 03 medical and health sciences, 0302 clinical medicine, Follicular phase, Adenocarcinoma, Follicular, Medicine, Humans, Thyroid Neoplasms, Thyroid cancer, Comparative Genomic Hybridization, business.industry, medicine.disease, Diabetes and Metabolism, 030104 developmental biology, 030220 oncology & carcinogenesis, Adenocarcinoma, business
Abstract

Application of distinct technologies of cancer genome analysis has provided important information for the molecular characterization of several human neoplasia, including follicular cell-derived thyroid carcinoma. Among them, comparative genomic hybridization (CGH)-based procedures have been extensively applied to evaluate genomic imbalances present in these tumours, obtaining data leading to an increase in the understanding of their complexity and diversity. In this review, after a brief overview of the most commonly used CGH-based technichs, we will describe the major results deriving from the most influential studies in the literature which used this approach to investigate the genomic aberrations of thyroid cancer cells. In most studies a small number of patients have been analyzed. Deletions and duplications at different chromosomal regions were detected in all investigated cohorts. A higher number of genomic imbalances has been detected in anaplastic or poorly differentiated thyroid carcinomas compared to well differentiated ones. Limitations in the interpretation of the results, as well the potential impact in the clinical practice are discussed. Though a quite heterogeneous picture arises from results so far available, CGH array, combined with other methodologies as well as an accurate clinical management, may offer novel opportunities for a better stratification of thyroid cancer patients.

Published
2017

21. Effects of BP-14, a novel cyclin-dependent kinase inhibitor, on anaplastic thyroid cancer cells

Author

Lorenzo Allegri, Cinzia Puppin, Catia Mio, Diego Russo, Giuseppe Damante, Federica Baldan, and Vladimír Kryštof

Subjects
0301 basic medicine, Cancer Research, Epithelial-Mesenchymal Transition, Cell Survival, Cell, Thyroid Carcinoma, Anaplastic, Thyroid cancer, 03 medical and health sciences, 0302 clinical medicine, Cyclin-dependent kinase, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, medicine, Anaplastic lymphoma kinase, Humans, Viability assay, Everolimus, Thyroid Neoplasms, Anaplastic thyroid cancer, 2-Aminopurine, Protein Kinase Inhibitors, CDK inhibitors, Cell proliferation, mTOR, Synergy, Oncology, biology, Kinase, Drug Synergism, General Medicine, Cell cycle, medicine.disease, Gene Expression Regulation, Neoplastic, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Cyclin-dependent kinase 6
Abstract

Anaplastic thyroid carcinoma (ATC) is an extremely aggressive human malignancy characterized by a marked degree of invasiveness, absense of features of thyroid differentiation and resistance to current medical treatment. It is well known that ATCs are characterized by deregulation of genes related to cell cycle regulation, i.e., cyclin-dependent kinases (CDKs) and endogenous cyclin-dependent kinase inhibitors (CDKIs). Therefore, in the present study, the effect of a novel exogenous cyclin-dependent kinase inhibitor, BP-14, was investigated in three human ATC cell lines. The ATC-derived cell lines FRO, SW1736 and 8505C were treated with BP-14 alone or in combination with the mTOR inhibitor everolimus. In all ATC cell lines, treatment with BP-14 decreased cell viability and, in two of them, BP-14 modified expression of genes involved in epithelial-mesenchymal transition. Thus, our data indicate that BP-14 is a potential new compound effective against ATC. Combined treatment with BP-14 and the mTOR inhibitor everolimus had a strong synergistic effect on cell viability in all three cell lines, suggesting that the combined used of CDK and mTOR inhibitors may be a useful strategy for ATC treatment.

Published
2015

22. Epigenetic bivalent marking is permissive to the synergy of HDAC and PARP inhibitors on TXNIP expression in breast cancer cells

Author

Federica Baldan, Giuseppe Damante, Elisa Lavarone, Fabio Puglisi, Catia Mio, Cinzia Puppin, and Carla Di Loreto

Subjects
Cancer Research, Chromatin Immunoprecipitation, medicine.drug_class, Cellular differentiation, Blotting, Western, Antineoplastic Agents, Breast Neoplasms, Biology, Poly(ADP-ribose) Polymerase Inhibitors, PARP1, Polymerase Chain Reaction, Epigenesis, Genetic, HDAC, Cell Line, Tumor, medicine, Humans, Epigenetics, Cell proliferation, Regulation of gene expression, Histone deacetylase inhibitor, Drug Synergism, General Medicine, Immunohistochemistry, Gene Expression Regulation, Neoplastic, Histone Deacetylase Inhibitors, Histone, Oncology, Cancer research, biology.protein, H3K4me3, Female, Carrier Proteins, Chromatin immunoprecipitation, TXNIP
Abstract

Studies on stem cell differentiation led to the identification of paused genes, characterized by the contemporary presence of both activator and repressor epigenetic markers (bivalent marking). TXNIP is an oncosuppressor gene the expression of which was reduced in breast cancer. In the present study, we evaluated whether the concept of epigenetic bivalent marking can be applied to TXNIP gene in breast cancer cells. Using chromatin immunoprecipitation (ChIP), three histone modifications were investigated: two associated with transcriptional activation, lysines 9-14 acetylation of H3 histone (H3K9K14ac) and lysine 4 trimethylation of H3 histone (H3K4me3), and one associated with transcriptional silencing, lysine 27 trimethylation of H3 histone (H3K27me3). According to the bivalent marking model, TXNIP gene appears to be paused in MDA157 cells (markers of active and repressed transcription are present), but are definitively silenced in MDA468 cells (presence of only markers of transcription repression). This was proven by evaluating TXNIP mRNA and protein levels after the treatment of cell lines with a histone deacetylase inhibitor (SAHA) and a poly-ADP-ribose polymerases inhibitor (PJ34). In MDA157 cells, SAHA and PJ34 showed a synergistic effect: a large increment was observed in TXNIP mRNA and protein levels. By contrast, in MDA468 cells, synergy between the two compounds was not observed. Therefore, the pausing epigenetic signature was permissive for synergy between SAHA and PJ34 on TXNIP gene expression. The synergy between SAHA and PJ34 on TXNIP expression was associated with variation in cell viability and apoptosis. In MDA157 cells, but not in MDA468 cells, combined treatment of SAHA and PJ34 induced a decrease in cell viability and an increase of apoptosis. Thus, our data support the hypothesis that TXNIP is an effective target for the treatment of breast cancer.

Published
2014

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