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Your search keyword '"Lorenzati, M. A."' showing total 3 results
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3 results on '"Lorenzati, M. A."'

2. Allele-specific silencing as treatment for gene duplication disorders: proof-of-principle in autosomal dominant leukodystrophy

Author

Giorgio, Elisa, Lorenzati, Martina, Rivetti di Val Cervo, Pia, Brussino, Alessandro, Cernigoj, Manuel, Della Sala, Edoardo, Bartoletti Stella, Anna, Ferrero, Marta, Caiazzo, Massimiliano, Capellari, Sabina, Cortelli, Pietro, Conti, Luciano, Cattaneo, Elena, Buffo, Annalisa, Brusco, Alfredo, Afd Pharmaceutics, Pharmaceutics, Giorgio E., Lorenzati M., Di Val Cervo P.R., Brussino A., Cernigoj M., Sala E.D., Stella A.B., Ferrero M., Caiazzo M., Capellari S., Cortelli P., Conti L., Cattaneo E., Buffo A., Brusco A., Afd Pharmaceutics, Pharmaceutics, Giorgio, E., Lorenzati, M., Di Val Cervo, P. R., Brussino, A., Cernigoj, M., Sala, E. D., Stella, A. B., Ferrero, M., Caiazzo, M., Capellari, S., Cortelli, P., Conti, L., Cattaneo, E., Buffo, A., and Brusco, A.

Subjects
0301 basic medicine, leukodystrophy, Small interfering RNA, Pelizaeus-Merzbacher Disease, Genetic Vectors, Single-nucleotide polymorphism, Biology, 03 medical and health sciences, 0302 clinical medicine, ADLD, RNA interference, Gene Duplication, medicine, Gene silencing, Animals, Humans, Gene Silencing, Allele, RNA, Small Interfering, Gene, Alleles, Cells, Cultured, Genetics, Neurons, Lamin Type B, Leukodystrophy, Lentivirus, Genetic Diseases, Inborn, RNA therapeutics, RNA therapeutic, Fibroblasts, medicine.disease, Rats, Minor allele frequency, LMNB1, 030104 developmental biology, siRNA, Case-Control Studies, Neurology (clinical), 030217 neurology & neurosurgery
Abstract

Allele-specific silencing by RNA interference (ASP-siRNA) holds promise as a therapeutic strategy for downregulating a single mutant allele with minimal suppression of the corresponding wild-type allele. This approach has been effectively used to target autosomal dominant mutations and single nucleotide polymorphisms linked with aberrantly expanded trinucleotide repeats. Here, we propose ASP-siRNA as a preferable choice to target duplicated disease genes, avoiding potentially harmful excessive downregulation. As a proof-of-concept, we studied autosomal dominant adult-onset demyelinating leukodystrophy (ADLD) due to lamin B1 (LMNB1) duplication, a hereditary, progressive and fatal disorder affecting myelin in the CNS. Using a reporter system, we screened the most efficient ASP-siRNAs preferentially targeting one of the alleles at rs1051644 (average minor allele frequency: 0.45) located in the 3′ untranslated region of the gene. We identified four siRNAs with a high efficacy and allele-specificity, which were tested in ADLD patient-derived fibroblasts. Three of the small interfering RNAs were highly selective for the target allele and restored both LMNB1 mRNA and protein levels close to control levels. Furthermore, small interfering RNA treatment abrogates the ADLD-specific phenotypes in fibroblasts and in two disease-relevant cellular models: murine oligodendrocytes overexpressing human LMNB1, and neurons directly reprogrammed from patients’ fibroblasts. In conclusion, we demonstrated that ASP-silencing by RNA interference is a suitable and promising therapeutic option for ADLD. Moreover, our results have a broad translational value extending to several pathological conditions linked to gene-gain in copy number variations.

Published
2018

3. A high-content drug screening strategy to identify protein level modulators for genetic diseases: A proof-of-principle in autosomal dominant leukodystrophy

Author

Elvira Sondo, Edoardo Della Sala, Marta Ferrero, Martina Lorenzati, Cristina Morerio, Alfredo Brusco, Pietro Cortelli, Nicoletta Pedemonte, Emanuela Pesce, Elisa Giorgio, Elisa Pozzi, Giusy Borrelli, Annalisa Buffo, Giorgio E., Pesce E., Pozzi E., Sondo E., Ferrero M., Morerio C., Borrelli G., Della Sala E., Lorenzati M., Cortelli P., Buffo A., Pedemonte N., and Brusco A.

Subjects
Alvespimycin, Drug Evaluation, Preclinical, rare disease, CHO Cells, Biology, Hsp90 inhibitor, 03 medical and health sciences, Mice, Cricetulus, ADLD, Cricetinae, Genetics, medicine, Animals, Humans, pharmacological screening, Vector (molecular biology), lamin B1, Gene, Genetics (clinical), 030304 developmental biology, therapy, 0303 health sciences, Lamin Type B, Chinese hamster ovary cell, 030305 genetics & heredity, Leukodystrophy, LMNB1, alvespimycin, dosage-sensitive gene, Neurodegenerative Diseases, medicine.disease, Rats, Cell culture, Cancer research, NIH 3T3 Cells, Lamin
Abstract

In genetic diseases, the most prevalent mechanism of pathogenicity is an altered expression of dosage-sensitive genes. Drugs that restore physiological levels of these genes should be effective in treating the associated conditions. We developed a screening strategy, based on a bicistronic dual-reporter vector, for identifying compounds that modulate proteins levels, and used it in a pharmacological screening approach. To provide a proof-of-principle, we chose Autosomal Dominant LeukoDystrophy (ADLD), an ultra-rare adult-onset neurodegenerative disorder caused by lamin B1 (LMNB1) overexpression. We used a stable CHO cell line simultaneously expresses an AcGFP reporter fused to LMNB1 and a Ds-Red normalizer. Using high-content imaging analysis, we screened a library of 717 biologically active compounds and approved drugs, and identified alvespimycin, an HSP90 inhibitor, as a positive hit. We confirmed that alvespimycin can reduce LMNB1 levels by 30-80% in five different cell lines (fibroblasts, NIH3T3, CHO, COS-7 and rat primary glial cells). In ADLD fibroblasts, alvespimycin reduced cytoplasmic LMNB1 by about 50%. We propose this approach for effectively identifying potential drugs for treating genetic diseases associated with deletions/duplications, and paving the way towards phase II clinical trials. This article is protected by copyright. All rights reserved.

Published
2020

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