Your search keyword '"Simona Brillante"' showing total 15 results

1. miR‐181a/b downregulation: a mutation‐independent therapeutic approach for inherited retinal diseases

Author

Sabrina Carrella, Martina Di Guida, Simona Brillante, Davide Piccolo, Ludovica Ciampi, Irene Guadagnino, Jorge Garcia Piqueras, Mariateresa Pizzo, Elena Marrocco, Marta Molinari, Georgios Petrogiannakis, Sara Barbato, Yulia Ezhova, Alberto Auricchio, Brunella Franco, Elvira De Leonibus, Enrico Maria Surace, Alessia Indrieri, and Sandro Banfi

Subjects

inherited retinal diseases, miR‐181, mitochondria, photoreceptor, therapy, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Inherited retinal diseases (IRDs) are a group of diseases whose common landmark is progressive photoreceptor loss. The development of gene‐specific therapies for IRDs is hampered by their wide genetic heterogeneity. Mitochondrial dysfunction is proving to constitute one of the key pathogenic events in IRDs; hence, approaches that enhance mitochondrial activities have a promising therapeutic potential for these conditions. We previously reported that miR‐181a/b downregulation boosts mitochondrial turnover in models of primary retinal mitochondrial diseases. Here, we show that miR‐181a/b silencing has a beneficial effect also in IRDs. In particular, the injection in the subretinal space of an adeno‐associated viral vector (AAV) that harbors a miR‐181a/b inhibitor (sponge) sequence (AAV2/8‐GFP‐Sponge‐miR‐181a/b) improves retinal morphology and visual function both in models of autosomal dominant (RHO‐P347S) and of autosomal recessive (rd10) retinitis pigmentosa. Moreover, we demonstrate that miR‐181a/b downregulation modulates the level of the mitochondrial fission‐related protein Drp1 and rescues the mitochondrial fragmentation in RHO‐P347S photoreceptors. Overall, these data support the potential use of miR‐181a/b downregulation as an innovative mutation‐independent therapeutic strategy for IRDs, which can be effective both to delay disease progression and to aid gene‐specific therapeutic approaches.

Published

2022

2. The VersaLive platform enables microfluidic mammalian cell culture for versatile applications

Author

Giovanni Marco Nocera, Gaetano Viscido, Stefania Criscuolo, Simona Brillante, Fabrizia Carbone, Leopoldo Staiano, Sabrina Carrella, and Diego di Bernardo

Subjects

Biology (General), QH301-705.5

Abstract

VersaLive is a versatile microfluidic platform with flexible input modes and low-volume media reservoirs that can be used for time-lapse live cell imaging, immunostaining, cell recovery, cell lysis and plasmid transfection.

Published

2022

3. A ZFYVE19 gene mutation associated with neonatal cholestasis and cilia dysfunction: case report with a novel pathogenic variant

Author

Claudia Mandato, Maria Anna Siano, Lucia Nazzaro, Monica Gelzo, Paola Francalanci, Francesca Rizzo, Ylenia D’Agostino, Manuela Morleo, Simona Brillante, Alessandro Weisz, Brunella Franco, and Pietro Vajro

Subjects

Cholestasis, Ciliopathy, ZFYVE19, Children, Medicine

Abstract

Abstract Background ZFYVE19 (Zinc Finger FYVE-Type Containing 19) mutations have most recently been associated to a novel type of high gamma-glutamyl transpeptidase (GGT), non-syndromic, neonatal-onset intrahepatic chronic cholestasis possibly associated to cilia dysfunction. Herein, we report a new case with further studies of whole exome sequencing (WES) and immunofluorescence in primary cilia of her cultured fibroblasts which confirm the observation. Results A now 5-year-old girl born to clinically healthy consanguineous Moroccan parents was assessed at 59 days of life due to severe cholestatic jaundice with increased serum bile acids and GGT, and preserved hepatocellular synthetic function. Despite fibrosis/cirrhosis and biliary ducts proliferation on liver biopsy suggested an extrahepatic biliary obstacle, normal intra-operatory cholangiography excluded biliary atresia. Under choleretic treatment, she maintained a clinically stable anicteric cholestasis but developped hyperlipidemia. After exclusion of the main causes of cholestasis by multiple tests, abnormal concentrations of sterols and WES led to a diagnosis of hereditary sitosterolemia (OMIM #618666), likely unrelated to her cholestasis. Further sequencing investigation revealed a homozygous non-sense mutation (p.Arg223Ter) in ZFYVE19 leading to a 222 aa truncated protein and present in both heterozygous parents. Immunofluorescence analysis of primary cilia on cultured skin fibroblasts showed a ciliary phenotype mainly defined by fragmented cilia and centrioles abnormalities. Conclusions Our findings are consistent with and expands the recent evidence linking ZFYVE19 to a novel, likely non-syndromic, high GGT-PFIC phenotype with neonatal onset. Due to the possible role of ZFYVE19 in cilia function and the unprecedented coexistence of a coincidental hereditary sterol disorder in our case, continuous monitoring will be necessary to substantiate type of liver disease progression and/or possible emergence of a multisystemic involvement. What mentioned above confirms that the application of WES in children with undiagnosed cholestasis may lead to the identification of new causative genes, widening the knowledge on the pathophysiology.

Published

2021

4. From the Sea for the Sight: Marine Derived Products for Human Vision

Author

Simona Brillante, Christian Galasso, Chiara Lauritano, and Sabrina Carrella

Subjects

marine natural products, opsins, retina diseases, mutation-independent, therapy, optogenetics, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Visual impairment, at different degrees, produce a reduction of patient wellness which negatively impact in many aspects of working and social activities. Eye diseases can have common cellular damages or dysfunctions (e.g., inflammation, oxidative stress, neuronal degeneration), and can target several eye compartments, primarily cornea and retina. Marine organisms exhibit high chemical diversity due to the wide range of marine ecosystems where they live; thus, molecules of marine origin are gaining increasing attention for the development of new mutation-independent therapeutic strategies, to reduce the progression of retina pathologies having a multifactorial nature and characterized by high genetic heterogeneity. This review aims to describe marine natural products reported in the recent literature that showed promising therapeutic potential for the development of new drugs to be used to contrast the progression of eye pathologies. These natural compounds exhibited beneficial and protective properties on different in vitro cell systems and on in vivo models, through different mechanisms of action, including anti-inflammatory, antioxidant, antiangiogenic/vasoprotective or cytoprotective effects. We report compounds produced by several marine source (e.g., sponges, algae, shrimps) that can be administrated as food or with target-specific strategies. In addition, we describe and discuss the uses of opsin family proteins from marine organisms for the optimization of new optogenetic therapeutic strategies.

Published

2022

5. Author Correction: The VersaLive platform enables microfluidic mammalian cell culture for versatile applications

Author

Giovanni Marco Nocera, Gaetano Viscido, Stefania Criscuolo, Simona Brillante, Fabrizia Carbone, Leopoldo Staiano, Sabrina Carrella, and Diego di Bernardo

Subjects

Biology (General), QH301-705.5

Published

2022

6. Integrated Genomics Identifies miR-181/TFAM Pathway as a Critical Driver of Drug Resistance in Melanoma

Author

Anna Barbato, Antonella Iuliano, Mariagrazia Volpe, Romina D’Alterio, Simona Brillante, Filomena Massa, Rossella De Cegli, Sabrina Carrella, Massimiliano Salati, Annapina Russo, Giulia Russo, Sara Riccardo, Davide Cacchiarelli, Mariaelena Capone, Gabriele Madonna, Paolo A. Ascierto, Brunella Franco, Alessia Indrieri, and Pietro Carotenuto

Subjects

miR-181, melanoma, mitochondria, TFAM, microRNA, target therapy, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

MicroRNAs (miRNAs) are attractive therapeutic targets and promising candidates as molecular biomarkers for various therapy-resistant tumors. However, the association between miRNAs and drug resistance in melanoma remains to be elucidated. We used an integrative genomic analysis to comprehensively study the miRNA expression profiles of drug-resistant melanoma patients and cell lines. MicroRNA-181a and -181b (miR181a/b) were identified as the most significantly down-regulated miRNAs in resistant melanoma patients and cell lines. Re-establishment of miR-181a/b expression reverses the resistance of melanoma cells to the BRAF inhibitor dabrafenib. Introduction of miR-181 mimics markedly decreases the expression of TFAM in A375 melanoma cells resistant to BRAF inhibitors. Furthermore, melanoma growth was inhibited in A375 and M14 resistant melanoma cells transfected with miR-181a/b mimics, while miR-181a/b depletion enhanced resistance in sensitive cell lines. Collectively, our study demonstrated that miR-181a/b could reverse the resistance to BRAF inhibitors in dabrafenib resistant melanoma cell lines. In addition, miR-181a and -181b are strongly down-regulated in tumor samples from patients before and after the development of resistance to targeted therapies. Finally, melanoma tissues with high miR-181a and -181b expression presented favorable outcomes in terms of Progression Free Survival, suggesting that miR-181 is a clinically relevant candidate for therapeutic development or biomarker-based therapy selection.

Published

2021

7. Biallelic variants in CENPF causing a phenotype distinct from Stromme syndrome

Author

Gerarda Cappuccio, Simona Brillante, Roberta Tammaro, Michele Pinelli, Margherita Lucia De Bernardi, Maria Grazia Gensini, Emilia K. Bijlsma, Tamara T. Koopmann, Mariette J. V. Hoffer, Kimberly McDonald, Laura G. Hendon, Sofia Douzgou, Charulata Deshpande, Stefano D'Arrigo, Annalaura Torella, Vincenzo Nigro, Brunella Franco, Nicola Brunetti‐Pierri, Cappuccio, Gerarda, Brillante, Simona, Tammaro, Roberta, Pinelli, Michele, De Bernardi, Margherita Lucia, Gensini, Maria Grazia, Bijlsma, Emilia K, Koopmann, Tamara T, Hoffer, Mariette J V, Mcdonald, Kimberly, Hendon, Laura G, Douzgou, Sofia, Deshpande, Charulata, D'Arrigo, Stefano, Torella, Annalaura, Nigro, Vincenzo, Franco, Brunella, and Brunetti-Pierri, Nicola

Subjects

Male, duodenal atresia, Stromme syndrome, Chromosomal Proteins, Non-Histone, Microfilament Proteins, Intestinal Atresia, CENPF, cilia, Eye Abnormalitie, Phenotype, Strømme syndrome, Intellectual Disability, Mutation, Microcephaly, Genetics, Humans, Female, anterior chamber defect, Eye Abnormalities, Genetics (clinical), Human

Abstract

Biallelic loss-of-function (LoF) variants in CENPF gene are responsible for Stromme syndrome, a condition presenting with intestinal atresia, anterior ocular chamber anomalies, and microcephaly. Through an international collaboration, four individuals (three males and one female) carrying CENPF biallelic variants, including two missense variants in homozygous state and four LoF variants, were identified by exome sequencing. All individuals had variable degree of developmental delay/intellectual disability and microcephaly (ranging from -2.9 SDS to -5.6 SDS) and a recognizable pattern of dysmorphic facial features including inverted-V shaped interrupted eyebrows, epicanthal fold, depressed nasal bridge, and pointed chin. Although one of the cases had duodenal atresia, all four individuals did not have the combination of internal organ malformations of Stromme syndrome (intestinal atresia and anterior eye segment abnormalities). Immunofluorescence analysis on skin fibroblasts on one of the four cases with the antibody for ARL13B that decorates primary cilia revealed shorter primary cilia that are consistent with a ciliary defect. This case-series of individuals with biallelic CENPF variants suggests the spectrum of clinical manifestations of the disorder that may be related to CENPF variants is broad and can include phenotypes lacking the cardinal features of Stromme syndrome.

Published

2022

8. Targeting the MITF/APAF-1 axis as salvage therapy for MAPK inhibitors in resistant melanoma

Author

Pietro Carotenuto, Alessia Romano, Anna Barbato, Paola Quadrano, Simona Brillante, Mariagrazia Volpe, Luigi Ferrante, Roberta Tammaro, Manuela Morleo, Rossella De Cegli, Antonella Iuliano, Marialuisa Testa, Fabrizio Andreone, Gennaro Ciliberto, Eduardo Clery, Giancarlo Troncone, Giuseppe Palma, Claudio Arra, Antonio Barbieri, Mariaelena Capone, Gabriele Madonna, Paolo A. Ascierto, Luisa Lanfrancone, Alessia Indrieri, Brunella Franco, Carotenuto, Pietro, Romano, Alessia, Barbato, Anna, Quadrano, Paola, Brillante, Simona, Volpe, Mariagrazia, Ferrante, Luigi, Tammaro, Roberta, Morleo, Manuela, De Cegli, Rossella, Iuliano, Antonella, Testa, Marialuisa, Andreone, Fabrizio, Ciliberto, Gennaro, Clery, Eduardo, Troncone, Giancarlo, Palma, Giuseppe, Arra, Claudio, Barbieri, Antonio, Capone, Mariaelena, Madonna, Gabriele, Ascierto, Paolo A, Lanfrancone, Luisa, Indrieri, Alessia, and Franco, Brunella

Subjects

Salvage Therapy, Microphthalmia-Associated Transcription Factor, Apoptosi, Protein Kinase Inhibitor, Apoptosis, melanoma drug resistance, MAPK inhibitors, drug repositioning, MITF, APAF-1, epigenetic drugs, apoptosome, drug repositioning, apoptosome-independent cell death, General Biochemistry, Genetics and Molecular Biology, Gene Expression Regulation, Neoplastic, Cell Line, Tumor, Humans, Protein Kinase Inhibitors, CP: Cancer, Melanoma, Human

Abstract

Melanoma is a deadly form of cancer characterized by remarkable therapy resistance. Analyzing the transcriptome of MAPK inhibitor sensitive- and resistant-melanoma, we discovered that APAF-1 is negatively regulated by MITF in resistant tumors. This study identifies the MITF/APAF-1 axis as a molecular driver of MAPK inhibitor resistance. A drug-repositioning screen identified quinacrine and methylbenzethonium as potent activators of apoptosis in a context that mimics drug resistance mediated by APAF-1 inactivation. The compounds showed anti-tumor activity in invitro and invivo models, linked to suppression of MITF function. Both drugs profoundly sensitize melanoma cells to MAPK inhibitors, regulating key signaling networks in melanoma, including the MITF/APAF-1 axis. Significant activity of the two compounds in inhibiting specific epigenetic modulators of MITF/APAF-1 expression, such as histone deacetylases, was observed. In summary, we demonstrate that targeting the MITF/APAF-1 axis may overcome resistance and could be exploited as a potential therapeutic approach to treat resistant melanoma.

Published

2022

9. A ZFYVE19 gene mutation associated with neonatal cholestasis and cilia dysfunction: case report with a novel pathogenic variant

Author

Lucia Nazzaro, Manuela Morleo, Ylenia D’Agostino, Pietro Vajro, Alessandro Weisz, Monica Gelzo, Simona Brillante, Maria Siano, Brunella Franco, Paola Francalanci, Francesca Rizzo, Claudia Mandato, Mandato, C., Siano, M. A., Nazzaro, L., Gelzo, M., Francalanci, P., Rizzo, F., D'Agostino, Y., Morleo, M., Brillante, S., Weisz, A., Franco, B., and Vajro, P.

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Ciliopathy, Cholestasis, Intrahepatic, 030105 genetics & heredity, Gene mutation, 03 medical and health sciences, Liver disease, Children, Cholestasis, ZFYVE19, Child, Preschool, Cilia, Female, Humans, Mutation, Oncogene Proteins, Biliary atresia, medicine, Pharmacology (medical), Neonatal cholestasis, Child, Preschool, Genetics (clinical), Exome sequencing, Intrahepatic, medicine.diagnostic_test, business.industry, Research, Oncogene Protein, General Medicine, medicine.disease, 030104 developmental biology, Cholestasi, Liver biopsy, Medicine, business, Human

Abstract

Background ZFYVE19 (Zinc Finger FYVE-Type Containing 19) mutations have most recently been associated to a novel type of high gamma-glutamyl transpeptidase (GGT), non-syndromic, neonatal-onset intrahepatic chronic cholestasis possibly associated to cilia dysfunction. Herein, we report a new case with further studies of whole exome sequencing (WES) and immunofluorescence in primary cilia of her cultured fibroblasts which confirm the observation. Results A now 5-year-old girl born to clinically healthy consanguineous Moroccan parents was assessed at 59 days of life due to severe cholestatic jaundice with increased serum bile acids and GGT, and preserved hepatocellular synthetic function. Despite fibrosis/cirrhosis and biliary ducts proliferation on liver biopsy suggested an extrahepatic biliary obstacle, normal intra-operatory cholangiography excluded biliary atresia. Under choleretic treatment, she maintained a clinically stable anicteric cholestasis but developped hyperlipidemia. After exclusion of the main causes of cholestasis by multiple tests, abnormal concentrations of sterols and WES led to a diagnosis of hereditary sitosterolemia (OMIM #618666), likely unrelated to her cholestasis. Further sequencing investigation revealed a homozygous non-sense mutation (p.Arg223Ter) in ZFYVE19 leading to a 222 aa truncated protein and present in both heterozygous parents. Immunofluorescence analysis of primary cilia on cultured skin fibroblasts showed a ciliary phenotype mainly defined by fragmented cilia and centrioles abnormalities. Conclusions Our findings are consistent with and expands the recent evidence linking ZFYVE19 to a novel, likely non-syndromic, high GGT-PFIC phenotype with neonatal onset. Due to the possible role of ZFYVE19 in cilia function and the unprecedented coexistence of a coincidental hereditary sterol disorder in our case, continuous monitoring will be necessary to substantiate type of liver disease progression and/or possible emergence of a multisystemic involvement. What mentioned above confirms that the application of WES in children with undiagnosed cholestasis may lead to the identification of new causative genes, widening the knowledge on the pathophysiology.

Published

2021

10. Drug Repurposing to Target the Apoptosome in MAPKi-Resistant Melanoma

Author

Giancarlo Troncone, Marieelena Capone, Luigi Ferrante, Rossella De Cegli, Claudio Arra, Paolo A. Ascierto, Paola Quadrano, Gabriele Madonna, Gennaro Ciliberto, Pietro Carotenuto, Mariagrazia Volpe, Alessia Romano, Antonella Iuliano, Giuseppe De Palma, Anna Barbato, Manuela Morleo, Alessia Indrieri, Roberta Tammaro, Antonio Barbieri, Simona Brillante, Luisa Lanfrancone, Eduardo Clery, and Brunella Franco

Subjects

Neuroblastoma RAS viral oncogene homolog, MAPK/ERK pathway, Oncogene, Melanoma, Cancer cell, medicine, Cancer research, Cancer, Context (language use), Biology, medicine.disease, Microphthalmia-associated transcription factor

Abstract

Melanoma is a deadly form of cancer characterized by high aggressiveness and remarkable therapy-resistance. The inactivation of apoptosis constitutes a common strategy adopted by cancer cells to survive death-stimulating drugs. We examined the transcriptome of human melanoma samples responders and resistant to MAPK inhibitors and discovered that APAF-1, the main component of apoptosome, is downregulated in resistant tumors. The decreased expression of APAF-1 was correlated with high levels of the melanoma survival oncogene MITF . We therefore demonstrated that the MITF/APAF-1 axis could be relevant in driving resistance to MAPK inhibitor treatments. A drug-repositioning screen identified Quinacrine and Methylbenzethonium as potent activators of apoptosis in a context that mimics drug resistance mediated by APAF-1 inactivation. Our findings demonstrated the pro-apoptotic and tumor-suppressor activity of the compounds in a large panel of melanoma cells, including patient-derived cells and in vivo models, where the two drugs showed remarkable suppression of MITF function. Quinacrine and Methylbenzethonium profoundly sensitize BRAF and NRAS mutant melanoma cells to MAPK-pathway inhibitors, thus indicating their pharmacological relevance in melanoma. Transcriptomic profiles of melanoma cells revealed that both compounds regulate key-signaling networks in melanoma, including the MITF gene network. In summary, we demonstrate that inhibiting a driver of MAPK inhibitor resistance could improve current approaches of targeted melanoma therapy.

Published

2021

11. Regulation of autophagosome biogenesis by OFD1-mediated selective autophagy

Author

Simona Brillante, Carmine Settembre, Manuela Morleo, Luigi Ferrante, Viviana Buonomo, Paolo Grumati, Daniela Iaconis, Brunella Franco, Alessandro Palma, Umberto Formisano, Fabrizia Carbone, Angela Serena Maione, Morleo, M, Brillante, S, Formisano, U, Ferrante, L, Carbone, F, Iaconis, D, Palma, A, Buonomo, V, Maione, A, Grumati, P, Settembre, C, Franco, B, Morleo, M., Brillante, S., Formisano, U., Ferrante, L., Carbone, F., Iaconis, D., Palma, A., Buonomo, V., Maione, A. S., Grumati, P., Settembre, C., and Franco, B.

Subjects

Male, Autophagosome, GABARAP, ATG8, Cellular homeostasis, Biology, General Biochemistry, Genetics and Molecular Biology, autophagy receptor, Mice, 03 medical and health sciences, 0302 clinical medicine, OFD1, polycystic kidney, selective autophagy, Autophagy, Animals, Humans, Molecular Biology, 030304 developmental biology, Polycystic Kidney Diseases, 0303 health sciences, General Immunology and Microbiology, General Neuroscience, Autophagosomes, Proteins, Autophagy-Related Protein 8 Family, ULK1, Autophagy-related protein 13, Cell biology, Mice, Inbred C57BL, Apoptosis Regulatory Proteins, Lysosomes, Microtubule-Associated Proteins, 030217 neurology & neurosurgery, Biogenesis

Abstract

Autophagy is a lysosome-dependent degradation pathway essential to maintain cellular homeostasis. Therefore, either defective or excessive autophagy may be detrimental for cells and tissues. The past decade was characterized by significant advances in molecular dissection of stimulatory autophagy inputs; however, our understanding of the mechanisms that restrain autophagy is far from complete. Here, we describe a negative feedback mechanism that limits autophagosome biogenesis based on the selective autophagy-mediated degradation of ATG13, a component of the ULK1 autophagy initiation complex. We demonstrate that the centrosomal protein OFD1 acts as bona fide autophagy receptor for ATG13 via direct interaction with the Atg8/LC3/GABARAP family of proteins. We also show that patients with Oral-Facial-Digital type I syndrome, caused by mutations in the OFD1 gene, display excessive autophagy and that genetic inhibition of autophagy in a mouse model of the disease, significantly ameliorates polycystic kidney, a clinical manifestation of the disorder. Collectively, our data report the discovery of an autophagy self-regulated mechanism and implicate dysregulated autophagy in the pathogenesis of renal cystic disease in mammals.

Published

2021

12. The HOPS Complex Subunit VPS39 controls ciliogenesis through autophagy

Author

Daniela Iaconis, Brunella Franco, Claudia Crina, Alessia Indrieri, Simona Brillante, Manuela Morleo, Iaconis, Daniela, Crina, Claudia, Brillante, Simona, Indrieri, Alessia, Morleo, Manuela, and Franco, Brunella

Subjects

Oryzias, Vesicular Transport Proteins, Autophagy-Related Proteins, Biology, Kidney, Ciliopathies, 03 medical and health sciences, 0302 clinical medicine, Microtubule, Intraflagellar transport, Ciliogenesis, Genetics, Autophagy, Animals, Humans, Cilia, Molecular Biology, Genetics (clinical), 030304 developmental biology, Vacuolar protein sorting, 0303 health sciences, Cilium, Kidney metabolism, General Medicine, Cell biology, Vacuoles, General Article, 030217 neurology & neurosurgery, Protein Binding

Abstract

Primary cilia are microtubule-based organelles that assemble and protrude from the surface of most mammalian cells during quiescence. The biomedical relevance of cilia is indicated by disorders ascribed to cilia dysfunction, known as ciliopathies, that display distinctive features including renal cystic disease. In this report, we demonstrate that vacuolar protein sorting 39 (VPS39), a component of the homotypic fusion and vacuole protein sorting (HOPS) complex, acts as a negative regulator of ciliogenesis in human renal cells, by controlling the localization of the intraflagellar transport 20 protein at the base of cilia through autophagy. Moreover, we show that VPS39 controls ciliogenesis through autophagy also in vivo in renal tubules of medaka fish. These observations suggest a direct involvement of the HOPS complex in the regulation of autophagy-mediated ciliogenesis and eventually in target selection. Interestingly, we show that the impact of autophagy modulation on ciliogenesis is cell-type dependent and strictly related to environmental stimuli. This report adds a further tile to the cilia-autophagy connection and suggests that VPS39 could represent a new biological target for the recovery of the cilia-related phenotypes observed in the kidneys of patients affected by ciliopathies.

Published

2020

13. Integrated Genomics Identifies miR-181/TFAM Pathway as a Critical Driver of Drug Resistance in Melanoma

Author

Romina D’Alterio, Anna Barbato, Gabriele Madonna, Annapina Russo, Mariaelena Capone, Giulia Russo, Pietro Carotenuto, Sara Riccardo, Alessia Indrieri, Rossella De Cegli, Filomena Massa, Paolo A. Ascierto, Brunella Franco, Sabrina Carrella, Antonella Iuliano, Davide Cacchiarelli, Massimiliano Salati, Mariagrazia Volpe, Simona Brillante, Barbato, A., Iuliano, A., Volpe, M., D'Alterio, R., Brillante, S., Massa, F., De Cegli, R., Carrella, S., Salati, M., Russo, A., Russo, G., Riccardo, S., Cacchiarelli, D., Capone, M., Madonna, G., Ascierto, P. A., Franco, B., Indrieri, A., and Carotenuto, P.

Subjects

Male, 0301 basic medicine, Drug resistance, lcsh:Chemistry, 0302 clinical medicine, RNA, Neoplasm, cancer resistance, lcsh:QH301-705.5, Melanoma, TFAM, Spectroscopy, microRNA, Dabrafenib, BRAF inhibitors, Genomics, General Medicine, Transfection, Neoplasm Proteins, Computer Science Applications, mitochondria, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, 030220 oncology & carcinogenesis, Biomarker (medicine), Female, medicine.drug, BRAF inhibitor, Biology, Article, Catalysis, Mitochondrial Proteins, Inorganic Chemistry, 03 medical and health sciences, Cell Line, Tumor, medicine, Humans, Physical and Theoretical Chemistry, neoplasms, Molecular Biology, target therapy, Organic Chemistry, biomarkers, Biomarker, medicine.disease, MicroRNAs, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, miR-181, Drug Resistance, Neoplasm, Cell culture, Cancer research, Transcription Factors

Abstract

MicroRNAs (miRNAs) are attractive therapeutic targets and promising candidates as molecular biomarkers for various therapy-resistant tumors. However, the association between miRNAs and drug resistance in melanoma remains to be elucidated. We used an integrative genomic analysis to comprehensively study the miRNA expression profiles of drug-resistant melanoma patients and cell lines. MicroRNA-181a and -181b (miR181a/b) were identified as the most significantly down-regulated miRNAs in resistant melanoma patients and cell lines. Re-establishment of miR-181a/b expression reverses the resistance of melanoma cells to the BRAF inhibitor dabrafenib. Introduction of miR-181 mimics markedly decreases the expression of TFAM in A375 melanoma cells resistant to BRAF inhibitors. Furthermore, melanoma growth was inhibited in A375 and M14 resistant melanoma cells transfected with miR-181a/b mimics, while miR-181a/b depletion enhanced resistance in sensitive cell lines. Collectively, our study demonstrated that miR-181a/b could reverse the resistance to BRAF inhibitors in dabrafenib resistant melanoma cell lines. In addition, miR-181a and -181b are strongly down-regulated in tumor samples from patients before and after the development of resistance to targeted therapies. Finally, melanoma tissues with high miR-181a and -181b expression presented favorable outcomes in terms of Progression Free Survival, suggesting that miR-181 is a clinically relevant candidate for therapeutic development or biomarker-based therapy selection.

Published

2021

14. 74P Targeting mitochondria as a novel therapeutic strategy in biliary tract cancer

Author

Giancarlo Troncone, Sara Riccardo, Mariagrazia Volpe, Pietro Carotenuto, Massimiliano Salati, Alessia Indrieri, L. Reggiani Bonetti, Brunella Franco, I. Antonella, P. Quadrano, Davide Cacchiarelli, Simona Brillante, L. Mirante, Anna Barbato, Massimo Dominici, and M. Salatiello

Subjects

Biliary tract cancer, Oncology, business.industry, Cancer research, Medicine, Hematology, Mitochondrion, business, Therapeutic strategy

Published

2020

15. Src inhibitors act through different mechanisms in Non-Small Cell Lung Cancer models depending on EGFR and RAS mutational status

Author

Roberta Marciano, Concetta Di Mauro, Antonio Randazzo, Sabino De Placido, Luigi Formisano, Sandro Cosconati, Bianca Maria Veneziani, Roberto Bianco, Nunzia Montuori, Sarah J. Parsons, Roberta De Rosa, Simona Brillante, Alberto Servetto, Lucia Raimondo, Valentina D’Amato, Roberta Clara Orsini, Formisano, L, D'Amato, V, Servetto, A, Brillante, S, Raimondo, L, Di Mauro, C, Marciano, R, Clara Orsini, R, Cosconati, Sandro, Randazzo, A, Parsons, Sj, Montuori, N, Maria Veneziani, B, De Placido, S, Rosa, R, Bianco, R., Formisano, Luigi, Valentina D'Amato, Null, Servetto, Alberto, Brillante, Simona, Raimondo, Lucia, Mauro, Concetta Di, Marciano, Roberta, Orsini, Roberta Clara, Randazzo, Antonio, Parsons, Sarah, Montuori, Nunzia, Veneziani, BIANCA MARIA, Placido, Sabino De, Rosa, Roberta, and Bianco, Roberto

Subjects

Lung Neoplasms, Cell Survival, Blotting, Western, Dasatinib, Cetuximab, Mice, Nude, Pharmacology, NSCLC, T790M, Erlotinib Hydrochloride, Gefitinib, Carcinoma, Non-Small-Cell Lung, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, medicine, Animals, Humans, Benzodioxoles, Protein Kinase Inhibitors, MEK inhibitors, EGFR inhibitors, Mice, Inbred BALB C, MEK inhibitor, business.industry, Xenograft Model Antitumor Assays, 3. Good health, Tumor Burden, respiratory tract diseases, ErbB Receptors, EGFR inhibitor, src-Family Kinases, Oncology, Drug resistance, Mutation, Quinazolines, ras Proteins, RNA Interference, business, Bosutinib, medicine.drug, Proto-oncogene tyrosine-protein kinase Src, Research Paper, Src

Abstract

Resistance to the EGFR tyrosine kinase inhibitors (TKIs) gefitinib and erlotinib, often related to Ras or secondary EGFR mutations, is a relevant clinical issue in Non- Small Cell Lung Cancer (NSCLC). Although Src TK has been involved in such resistance, clinical development of its inhibitors has been so far limited. To better define the molecular targets of the Src TKIs saracatinib, dasatinib and bosutinib, we used a variety of in vitro/in vivo studies. Kinase assays supported by docking analysis demonstrated that all the compounds directly inhibit EGFR TK variants. However, in live cells only saracatinib efficiently reduced EGFR activation, while dasatinib was the most effective agent in inhibiting Src TK. Consistently, a pronounced anti-proliferative effect was achieved with saracatinib, in EGFR mutant cells, or with dasatinib, in wt EGFR/Ras mutant cells, poorly dependent on EGFR and erlotinib-resistant. We then identified the most effective drug combinations to overcome resistance to EGFR inhibitors, both in vitro and in nude mice: in T790M EGFR erlotinib-resistant cells, saracatinib with the anti-EGFR mAb cetuximab; in Ras mutant erlotinib-resistant models, dasatinib with the MEK inhibitor selumetinib. Src inhibitors may act with different mechanisms in NSCLCs, depending on EGFR/Ras mutational profile, and may be integrated with EGFR or MEK inhibitors for different cohorts of NSCLCs.