Your search keyword '"Gelati M."' showing total 31 results

1. Human neural stem cells derived from fetal human brain communicate with each other and rescue ischemic neuronal cells through tunneling nanotubes

Author

Capobianco, D. L., De Zio, R., Profico, D. C., Gelati, M., Simone, L., D’Erchia, A. M., Di Palma, F., Mormone, E., Bernardi, P., Sbarbati, A., Gerbino, A., Pesole, G., Vescovi, A. L., Svelto, M., and Pisani, F.

Published

2024

2. Current status and new avenues of stem cell-based preclinical and therapeutic approaches in amyotrophic lateral sclerosis

Author

Mazzini, L, De Marchi, F, Buzanska, L, Follenzi, A, Glover, J, Gelati, M, Lombardi, I, Maioli, M, Mesa-Herrera, F, Mitrečić, D, Olgasi, C, Pivoriūnas, A, Sanchez-Pernaute, R, Sgromo, C, Zychowicz, M, Vescovi, A, Ferrari, D, Mazzini L., De Marchi F., Buzanska L., Follenzi A., Glover J. C., Gelati M., Lombardi I., Maioli M., Mesa-Herrera F., Mitrečić D., Olgasi C., Pivoriūnas A., Sanchez-Pernaute R., Sgromo C., Zychowicz M., Vescovi A., Ferrari D., Mazzini, L, De Marchi, F, Buzanska, L, Follenzi, A, Glover, J, Gelati, M, Lombardi, I, Maioli, M, Mesa-Herrera, F, Mitrečić, D, Olgasi, C, Pivoriūnas, A, Sanchez-Pernaute, R, Sgromo, C, Zychowicz, M, Vescovi, A, Ferrari, D, Mazzini L., De Marchi F., Buzanska L., Follenzi A., Glover J. C., Gelati M., Lombardi I., Maioli M., Mesa-Herrera F., Mitrečić D., Olgasi C., Pivoriūnas A., Sanchez-Pernaute R., Sgromo C., Zychowicz M., Vescovi A., and Ferrari D.

Abstract

Introduction: Cell therapy development represents a critical challenge in amyotrophic lateral sclerosis (ALS) research. Despite more than 20 years of basic and clinical research, no definitive safety and efficacy results of cell-based therapies for ALS have been published. Areas covered: This review summarizes advances using stem cells (SCs) in pre-clinical studies to promote clinical translation and in clinical trials to treat ALS. New technologies have been developed and new experimental in vitro and animal models are now available to facilitate pre-clinical research in this field and to determine the most promising approaches to pursue in patients. New clinical trial designs aimed at developing personalized SC-based treatment with biological endpoints are being defined. Expert opinion: Knowledge of the basic biology of ALS and on the use of SCs to study and potentially treat ALS continues to grow. However, a consensus has yet to emerge on how best to translate these results into therapeutic applications. The selection and follow-up of patients should be based on clinical, biological, and molecular criteria. Planning of SC-based clinical trials should be coordinated with patient profiling genetically and molecularly to achieve personalized treatment. Much work within basic and clinical research is still needed to successfully transition SC therapy in ALS.

Published

2024

3. Preliminary data of intracerebroventricular transplantation of human-Neural Stem Cells in a mouse model of Amyotrophic Lateral Sclerosis

Author

Vulcano, E, Lombardi, I, Rasà, D, Ferrero, C, Perciballi, E, Ferro, S, Carletti Rose, M, Gelati, M, Profico, D, Mazzini, L, Vercelli, A, Vescovi, A, Boido, M, Ferrari, D, Vulcano Edvige, Lombardi Ivan, Rasà Daniela, Ferrero Clelia, Perciballi Elisa, Ferro Sara, Carletti Rose Mary, Gelati Maurizio, Profico Daniela, Mazzini Letizia, Vercelli Alessandro, Vescovi Angelo Luigi, Boido Marina, Ferrari Daniela, Vulcano, E, Lombardi, I, Rasà, D, Ferrero, C, Perciballi, E, Ferro, S, Carletti Rose, M, Gelati, M, Profico, D, Mazzini, L, Vercelli, A, Vescovi, A, Boido, M, Ferrari, D, Vulcano Edvige, Lombardi Ivan, Rasà Daniela, Ferrero Clelia, Perciballi Elisa, Ferro Sara, Carletti Rose Mary, Gelati Maurizio, Profico Daniela, Mazzini Letizia, Vercelli Alessandro, Vescovi Angelo Luigi, Boido Marina, and Ferrari Daniela

Published

2024

4. Phase I clinical trial of intracerebroventricular transplantation of allogeneic neural stem cells in people with progressive multiple sclerosis

Author

Leone, M, Gelati, M, Profico, D, Gobbi, C, Pravata, E, Copetti, M, Conti, C, Abate, L, Amoruso, L, Apollo, F, Balzano, R, Bicchi, I, Carella, M, Ciampini, A, Colosimo, C, Crociani, P, D'Aloisio, G, Di Viesti, P, Ferrari, D, Fogli, D, Fontana, A, Frondizi, D, Grespi, V, Kuhle, J, Laborante, A, Lombardi, I, Muzi, G, Paci, F, Placentino, G, Popolizio, T, Ricciolini, C, Sabatini, S, Silveri, G, Spera, C, Stephenson, D, Stipa, G, Tinella, E, Zarrelli, M, Zecca, C, Ventura, Y, D'Alessandro, A, Peruzzotti-Jametti, L, Pluchino, S, Vescovi, A, Leone M. A., Gelati M., Profico D. C., Gobbi C., Pravata E., Copetti M., Conti C., Abate L., Amoruso L., Apollo F., Balzano R. F., Bicchi I., Carella M., Ciampini A., Colosimo C., Crociani P., D'Aloisio G., Di Viesti P., Ferrari D., Fogli D., Fontana A., Frondizi D., Grespi V., Kuhle J., Laborante A., Lombardi I., Muzi G., Paci F., Placentino G., Popolizio T., Ricciolini C., Sabatini S., Silveri G., Spera C., Stephenson D., Stipa G., Tinella E., Zarrelli M., Zecca C., Ventura Y., D'Alessandro A., Peruzzotti-Jametti L., Pluchino S., Vescovi A. L., Leone, M, Gelati, M, Profico, D, Gobbi, C, Pravata, E, Copetti, M, Conti, C, Abate, L, Amoruso, L, Apollo, F, Balzano, R, Bicchi, I, Carella, M, Ciampini, A, Colosimo, C, Crociani, P, D'Aloisio, G, Di Viesti, P, Ferrari, D, Fogli, D, Fontana, A, Frondizi, D, Grespi, V, Kuhle, J, Laborante, A, Lombardi, I, Muzi, G, Paci, F, Placentino, G, Popolizio, T, Ricciolini, C, Sabatini, S, Silveri, G, Spera, C, Stephenson, D, Stipa, G, Tinella, E, Zarrelli, M, Zecca, C, Ventura, Y, D'Alessandro, A, Peruzzotti-Jametti, L, Pluchino, S, Vescovi, A, Leone M. A., Gelati M., Profico D. C., Gobbi C., Pravata E., Copetti M., Conti C., Abate L., Amoruso L., Apollo F., Balzano R. F., Bicchi I., Carella M., Ciampini A., Colosimo C., Crociani P., D'Aloisio G., Di Viesti P., Ferrari D., Fogli D., Fontana A., Frondizi D., Grespi V., Kuhle J., Laborante A., Lombardi I., Muzi G., Paci F., Placentino G., Popolizio T., Ricciolini C., Sabatini S., Silveri G., Spera C., Stephenson D., Stipa G., Tinella E., Zarrelli M., Zecca C., Ventura Y., D'Alessandro A., Peruzzotti-Jametti L., Pluchino S., and Vescovi A. L.

Abstract

We report the analysis of 1 year of data from the first cohort of 15 patients enrolled in an open-label, first-in-human, dose-escalation phase I study (ClinicalTrials.gov: NCT03282760, EudraCT2015-004855-37) to determine the feasibility, safety, and tolerability of the transplantation of allogeneic human neural stem/progenitor cells (hNSCs) for the treatment of secondary progressive multiple sclerosis. Participants were treated with hNSCs delivered via intracerebroventricular injection in combination with an immunosuppressive regimen. No treatment-related deaths nor serious adverse events (AEs) were observed. All participants displayed stability of clinical and laboratory outcomes, as well as lesion load and brain activity (MRI), compared with the study entry. Longitudinal metabolomics and lipidomics of biological fluids identified time- and dose-dependent responses with increased levels of acyl-carnitines and fatty acids in the cerebrospinal fluid (CSF). The absence of AEs and the stability of functional and structural outcomes are reassuring and represent a milestone for the safe translation of stem cells into regenerative medicines.

Published

2023

5. Human neural stem cells drug product: Microsatellite instability analysis

Author

Grespi, V, Caprera, C, Ricciolini, C, Bicchi, I, Muzi, G, Corsi, M, Ascani, S, Vescovi, A, Gelati, M, Grespi V., Caprera C., Ricciolini C., Bicchi I., Muzi G., Corsi M., Ascani S., Vescovi A. L., Gelati M., Grespi, V, Caprera, C, Ricciolini, C, Bicchi, I, Muzi, G, Corsi, M, Ascani, S, Vescovi, A, Gelati, M, Grespi V., Caprera C., Ricciolini C., Bicchi I., Muzi G., Corsi M., Ascani S., Vescovi A. L., and Gelati M.

Abstract

Introduction In central nervous system neurodegenerative disorders, stem cell-based therapies should be considered as a promising therapeutic approach. The safe use of human Neural Stem Cells (hNSCs) for the treatment of several neurological diseases is currently under evaluation of phase I/II clinical trials. Clinical application of hNSCs require the development of GMP standardized protocols capable of generating high quantities of reproducible and well characterized stem cells bearing stable functional and genetic properties. Aim The aim of this study was to evaluate possible instabilities or modifications of the microsatellite loci in different culture passages because high culture passages represent an in vitro replicative stress leading to senescence. Experimental method: The hNSCs were characterized at different culture time points, from passage 2 to passage 25, by genetic typing at ten microsatellite loci. Conclusion We showed that genetic stability at microsatellite loci is maintained by the cells even at high passages adding a further demonstration of the safety of our hNSCs GMP culture method.

Published

2022

6. Culturing and Expansion of “Clinical Grade” Neural Stem Cells from the Fetal Human Central Nervous System

Author

Deleyrolle, LP, Gelati, M, Profico, D, Ferrari, D, Vescovi, A, Gelati M., Profico D. C., Ferrari D., Vescovi A. L., Deleyrolle, LP, Gelati, M, Profico, D, Ferrari, D, Vescovi, A, Gelati M., Profico D. C., Ferrari D., and Vescovi A. L.

Abstract

NSCs have been demonstrated to be very useful in grafts into the mammalian central nervous system to investigate the exploitation of NSC for the therapy of neurodegenerative disorders in animal models of neurodegenerative diseases. To push cell therapy in CNS on stage of clinical application, it is necessary to establish a continuous and standardized, clinical grade (i.e., produced following the good manufacturing practice guidelines) human neural stem cell lines. In this chapter we will illustrate some of the protocols for the production and characterization routinely used into our GMP “cell factory” for the production of “clinical grade” human neural stem cell lines already in use in clinical trials on neurodegenerative diseases, particularly amyotrophic lateral sclerosis (ALS— Clinicaltrials.gov number NCT01640067) and secondary progressive multiple sclerosis (SPMS— Clinicaltrials.gov number NCT03282760).

Published

2022

7. Human Neural Stem Cell-Based Drug Product: Clinical and Nonclinical Characterization

Author

Profico, D, Gelati, M, Ferrari, D, Sgaravizzi, G, Ricciolini, C, Projetti Pensi, M, Muzi, G, Cajola, L, Copetti, M, Ciusani, E, Pugliese, R, Gelain, F, Vescovi, A, Profico D. C., Gelati M., Ferrari D., Sgaravizzi G., Ricciolini C., Projetti Pensi M., Muzi G., Cajola L., Copetti M., Ciusani E., Pugliese R., Gelain F., Vescovi A. L., Profico, D, Gelati, M, Ferrari, D, Sgaravizzi, G, Ricciolini, C, Projetti Pensi, M, Muzi, G, Cajola, L, Copetti, M, Ciusani, E, Pugliese, R, Gelain, F, Vescovi, A, Profico D. C., Gelati M., Ferrari D., Sgaravizzi G., Ricciolini C., Projetti Pensi M., Muzi G., Cajola L., Copetti M., Ciusani E., Pugliese R., Gelain F., and Vescovi A. L.

Abstract

Translation of cell therapies into clinical practice requires the adoption of robust production protocols in order to optimize and standardize the manufacture and cryopreservation of cells, in compliance with good manufacturing practice regulations. Between 2012 and 2020, we conducted two phase I clinical trials (EudraCT 2009-014484-39, EudraCT 2015-004855-37) on amyotrophic lateral sclerosis secondary progressive multiple sclerosis patients, respectively, treating them with human neural stem cells. Our production process of a hNSC-based medicinal product is the first to use brain tissue samples extracted from fetuses that died in spontaneous abortion or miscarriage. It consists of selection, isolation and expansion of hNSCs and ends with the final pharmaceutical formulation tailored to a specific patient, in compliance with the approved clinical protocol. The cells used in these clinical trials were analyzed in order to confirm their microbiological safety; each batch was also tested to assess identity, potency and safety through morphological and functional assays. Preclinical, clinical and in vitro nonclinical data have proved that our cells are safe and stable, and that the production process can provide a high level of reproducibility of the cultures. Here, we describe the quality control strategy for the characterization of the hNSCs used in the above-mentioned clinical trials.

Published

2022

8. Generation of an induced pluripotent stem cell line CSSi015-A (9553), carrying a point mutation c.2915C > T in the human calcium sensing receptor (CasR) gene

Author

Rotundo, G, Turco, E, Ruotolo, G, Torrente, I, Candido, O, Lopez, G, Ferrari, D, Caputi, C, Mastrangelo, M, Pisani, F, Gelati, M, Guarnieri, V, Vescovi, A, Rosati, J, Turco, EM, Vescovi, AL, Rotundo, G, Turco, E, Ruotolo, G, Torrente, I, Candido, O, Lopez, G, Ferrari, D, Caputi, C, Mastrangelo, M, Pisani, F, Gelati, M, Guarnieri, V, Vescovi, A, Rosati, J, Turco, EM, and Vescovi, AL

Abstract

Familial Hypocalciuric Hypercalcemia (FHH1) is a rare autosomal dominant disease with low penetrance, caused by inactivating mutations of the calcium-sensing receptor (CaSR) gene, characterized by significant hypercalcemia, inappropriately normal serum PTH levels and a low urinary calcium level. Human induced pluripotent stem cells (hiPSCs) from a patient carrying a previously identified heterozygous mutation, a p.T972M amino acid substitution in cytoplasmic tail of CasR, were produced using a virus, xeno-free and non-integrative protocol.

Published

2023

9. Foetal Allogeneic Intracerebroventricular Neural Stem Cell Transplantation in People with Secondary Progressive Multiple Sclerosis: A phase I dose-escalation clinical trial

Author

Leone, MA, primary, Gelati, M, additional, Profico, DC, additional, Conti, C, additional, Spera, C, additional, Muzi, G, additional, Grespi, V, additional, Bicchi, I, additional, Ricciolini, C, additional, Ferrari, D, additional, Zarrelli, M, additional, Amoruso, L, additional, Placentino, G, additional, Crociani, P, additional, Apollo, F, additional, Di Viesti, P, additional, Fogli, D, additional, Popolizio, T, additional, Colosimo, C, additional, Frondizi, D, additional, Stipa, G, additional, Tinella, E, additional, Ciampini, A, additional, Sabatini, S, additional, Paci, F, additional, Silveri, G, additional, Gobbi, C, additional, Pravatà, E, additional, Zecca, E, additional, Balzano, RF, additional, Kuhle, J, additional, Copetti, M, additional, Fontana, A, additional, Carella, M, additional, D’Aloisio, G, additional, Abate, L, additional, Ventura Carmenate, Y, additional, Pluchino, S, additional, Peruzzotti-Jametti, L, additional, and Vescovi, AL, additional

Published

2022

10. W239 Plasma expression of circ_ZNF609 and miR-615 in endurance runners

Author

Montagnana, M., primary, Benati, M., additional, Danese, E., additional, Salvagno, G.L., additional, Tarperi, C., additional, Paviati, E., additional, Gelati, M., additional, Schena, F., additional, and Lippi, G., additional

Published

2022

11. Production of CSSi013-A (9360) iPSC line from an asymptomatic subject carrying an heterozygous mutation in TDP-43 protein

Author

D'Anzi, A, Perciballi, E, Ruotolo, G, Ferrari, D, Notaro, A, Lombardi, I, Gelati, M, Frezza, K, Bernardini, L, Torrente, I, De Luca, A, La Bella, V, Luigi Vescovi, A, Rosati, J, D'Anzi, Angela, Perciballi, Elisa, Ruotolo, Giorgia, Ferrari, Daniela, Notaro, Antonietta, Lombardi, Ivan, Gelati, Maurizio, Frezza, Katia, Bernardini, Laura, Torrente, Isabella, De Luca, Alessandro, La Bella, Vincenzo, Luigi Vescovi, Angelo, Rosati, Jessica, D'Anzi, A, Perciballi, E, Ruotolo, G, Ferrari, D, Notaro, A, Lombardi, I, Gelati, M, Frezza, K, Bernardini, L, Torrente, I, De Luca, A, La Bella, V, Luigi Vescovi, A, Rosati, J, D'Anzi, Angela, Perciballi, Elisa, Ruotolo, Giorgia, Ferrari, Daniela, Notaro, Antonietta, Lombardi, Ivan, Gelati, Maurizio, Frezza, Katia, Bernardini, Laura, Torrente, Isabella, De Luca, Alessandro, La Bella, Vincenzo, Luigi Vescovi, Angelo, and Rosati, Jessica

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a fatal disease affecting both upper and lower motoneurons. The transactive response DNA binding protein (TARDBP) gene, encoding for TDP-43, is one of the most commonly mutated gene associated with familial cases of ALS (10%). We generated a human induced pluripotent stem cell (hiPSC) line from the fibroblasts of an asymptomatic subject carrying the TARDBP p.G376D mutation. This mutation is very rare and was described in a large Apulian family, in which all ALS affected members are carriers of the mutation. The subject here described is the first identified asymptomatic carrier of the mutation.

Published

2022

12. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients

Author

Perciballi, E, Bovio, F, Rosati, J, Arrigoni, F, D'Anzi, A, Lattante, S, Gelati, M, De Marchi, F, Lombardi, I, Ruotolo, G, Forcella, M, Mazzini, L, D'Alfonso, S, Corrado, L, Sabatelli, M, Conte, A, De Gioia, L, Martino, S, Vescovi, A, Fusi, P, Ferrari, D, Perciballi, Elisa, Bovio, Federica, Rosati, Jessica, Arrigoni, Federica, D'Anzi, Angela, Lattante, Serena, Gelati, Maurizio, De Marchi, Fabiola, Lombardi, Ivan, Ruotolo, Giorgia, Forcella, Matilde, Mazzini, Letizia, D'Alfonso, Sandra, Corrado, Lucia, Sabatelli, Mario, Conte, Amelia, De Gioia, Luca, Martino, Sabata, Vescovi, Angelo Luigi, Fusi, Paola, Ferrari, Daniela, Perciballi, E, Bovio, F, Rosati, J, Arrigoni, F, D'Anzi, A, Lattante, S, Gelati, M, De Marchi, F, Lombardi, I, Ruotolo, G, Forcella, M, Mazzini, L, D'Alfonso, S, Corrado, L, Sabatelli, M, Conte, A, De Gioia, L, Martino, S, Vescovi, A, Fusi, P, Ferrari, D, Perciballi, Elisa, Bovio, Federica, Rosati, Jessica, Arrigoni, Federica, D'Anzi, Angela, Lattante, Serena, Gelati, Maurizio, De Marchi, Fabiola, Lombardi, Ivan, Ruotolo, Giorgia, Forcella, Matilde, Mazzini, Letizia, D'Alfonso, Sandra, Corrado, Lucia, Sabatelli, Mario, Conte, Amelia, De Gioia, Luca, Martino, Sabata, Vescovi, Angelo Luigi, Fusi, Paola, and Ferrari, Daniela

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1L145F and SOD1S135N, carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

13. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients

Author

Perciballi, E., Bovio, F., Rosati, J., Arrigoni, F., D'Anzi, A., Lattante, Serena, Gelati, M., De Marchi, F., Lombardi, I., Ruotolo, G., Forcella, M., Mazzini, L., D'Alfonso, S., Corrado, L., Sabatelli, Mario, Conte, A., De Gioia, L., Martino, S., Vescovi, A. L., Fusi, P., Ferrari, D., Lattante S. (ORCID:0000-0003-2891-0340), Sabatelli M. (ORCID:0000-0001-6635-4985), Perciballi, E., Bovio, F., Rosati, J., Arrigoni, F., D'Anzi, A., Lattante, Serena, Gelati, M., De Marchi, F., Lombardi, I., Ruotolo, G., Forcella, M., Mazzini, L., D'Alfonso, S., Corrado, L., Sabatelli, Mario, Conte, A., De Gioia, L., Martino, S., Vescovi, A. L., Fusi, P., Ferrari, D., Lattante S. (ORCID:0000-0003-2891-0340), and Sabatelli M. (ORCID:0000-0001-6635-4985)

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1L145F and SOD1S135N, carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

14. Production of CSSi013-A (9360) iPSC line from an asymptomatic subject carrying an heterozygous mutation in TDP-43 protein

Author

Angela D'Anzi, Elisa Perciballi, Giorgia Ruotolo, Daniela Ferrari, Antonietta Notaro, Ivan Lombardi, Maurizio Gelati, Katia Frezza, Laura Bernardini, Isabella Torrente, Alessandro De Luca, Vincenzo La Bella, Angelo Luigi Vescovi, Jessica Rosati, D'Anzi, Angela, Perciballi, Elisa, Ruotolo, Giorgia, Ferrari, Daniela, Notaro, Antonietta, Lombardi, Ivan, Gelati, Maurizio, Frezza, Katia, Bernardini, Laura, Torrente, Isabella, De Luca, Alessandro, La Bella, Vincenzo, Luigi Vescovi, Angelo, Rosati, Jessica, D'Anzi, A, Perciballi, E, Ruotolo, G, Ferrari, D, Notaro, A, Lombardi, I, Gelati, M, Frezza, K, Bernardini, L, Torrente, I, De Luca, A, La Bella, V, Luigi Vescovi, A, and Rosati, J

Subjects

DNA-Binding Proteins, Heterozygote, DNA-Binding Protein, Amyotrophic Lateral Sclerosis, Induced Pluripotent Stem Cells, Mutation, Humans, Cell Biology, General Medicine, Induced Pluripotent Stem Cell, Developmental Biology, Amyotrophic Lateral Sclerosi, Human

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a fatal disease affecting both upper and lower motoneurons. The transactive response DNA binding protein (TARDBP) gene, encoding for TDP-43, is one of the most commonly mutated gene associated with familial cases of ALS (10%). We generated a human induced pluripotent stem cell (hiPSC) line from the fibroblasts of an asymptomatic subject carrying the TARDBP p.G376D mutation. This mutation is very rare and was described in a large Apulian family, in which all ALS affected members are carriers of the mutation. The subject here described is the first identified asymptomatic carrier of the mutation.

Published

2022

15. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients

Author

Elisa Perciballi, Federica Bovio, Jessica Rosati, Federica Arrigoni, Angela D’Anzi, Serena Lattante, Maurizio Gelati, Fabiola De Marchi, Ivan Lombardi, Giorgia Ruotolo, Matilde Forcella, Letizia Mazzini, Sandra D’Alfonso, Lucia Corrado, Mario Sabatelli, Amelia Conte, Luca De Gioia, Sabata Martino, Angelo Luigi Vescovi, Paola Fusi, Daniela Ferrari, Perciballi, E, Bovio, F, Rosati, J, Arrigoni, F, D'Anzi, A, Lattante, S, Gelati, M, De Marchi, F, Lombardi, I, Ruotolo, G, Forcella, M, Mazzini, L, D'Alfonso, S, Corrado, L, Sabatelli, M, Conte, A, De Gioia, L, Martino, S, Vescovi, A, Fusi, P, and Ferrari, D

Subjects

amyotrophic lateral sclerosis, energetic metabolism, SOD1 expression, Physiology, ALS, p.L144F, p.S134N, SOD1 mutations, seahorse, p.L145F, p.S135N, mitochondria, Clinical Biochemistry, Cell Biology, Settore MED/03 - GENETICA MEDICA, Biochemistry, SOD1 mutation, metabolic studies, amyotrophic lateral sclerosi, Molecular Biology

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1L145F and SOD1S135N, carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

16. Human Neural Stem Cell-Based Drug Product: Clinical and Nonclinical Characterization

Author

Daniela Celeste Profico, Maurizio Gelati, Daniela Ferrari, Giada Sgaravizzi, Claudia Ricciolini, Massimo Projetti Pensi, Gianmarco Muzi, Laura Cajola, Massimiliano Copetti, Emilio Ciusani, Raffaele Pugliese, Fabrizio Gelain, Angelo Luigi Vescovi, Profico, D, Gelati, M, Ferrari, D, Sgaravizzi, G, Ricciolini, C, Projetti Pensi, M, Muzi, G, Cajola, L, Copetti, M, Ciusani, E, Pugliese, R, Gelain, F, and Vescovi, A

Subjects

Cryopreservation, standardization, GMP, Organic Chemistry, Amyotrophic Lateral Sclerosis, Reproducibility of Results, General Medicine, Catalysis, Computer Science Applications, Inorganic Chemistry, neural stem cell, Neural Stem Cells, ATMP production, Humans, Physical and Theoretical Chemistry, quality control, Molecular Biology, Spectroscopy

Abstract

Translation of cell therapies into clinical practice requires the adoption of robust production protocols in order to optimize and standardize the manufacture and cryopreservation of cells, in compliance with good manufacturing practice regulations. Between 2012 and 2020, we conducted two phase I clinical trials (EudraCT 2009-014484-39, EudraCT 2015-004855-37) on amyotrophic lateral sclerosis secondary progressive multiple sclerosis patients, respectively, treating them with human neural stem cells. Our production process of a hNSC-based medicinal product is the first to use brain tissue samples extracted from fetuses that died in spontaneous abortion or miscarriage. It consists of selection, isolation and expansion of hNSCs and ends with the final pharmaceutical formulation tailored to a specific patient, in compliance with the approved clinical protocol. The cells used in these clinical trials were analyzed in order to confirm their microbiological safety; each batch was also tested to assess identity, potency and safety through morphological and functional assays. Preclinical, clinical and in vitro nonclinical data have proved that our cells are safe and stable, and that the production process can provide a high level of reproducibility of the cultures. Here, we describe the quality control strategy for the characterization of the hNSCs used in the above-mentioned clinical trials.

Published

2022

17. Human neural stem cells drug product: Microsatellite instability analysis

Author

Valentina Grespi, Cecilia Caprera, Claudia Ricciolini, Ilaria Bicchi, Gianmarco Muzi, Matteo Corsi, Stefano Ascani, Angelo Luigi Vescovi, Maurizio Gelati, Grespi, V, Caprera, C, Ricciolini, C, Bicchi, I, Muzi, G, Corsi, M, Ascani, S, Vescovi, A, and Gelati, M

Subjects

Multidisciplinary, Neural Stem Cells, Humans, Neural Stem Cell, Cell Differentiation, Microsatellite Instability, Human, Stem Cell Transplantation

Abstract

Introduction In central nervous system neurodegenerative disorders, stem cell-based therapies should be considered as a promising therapeutic approach. The safe use of human Neural Stem Cells (hNSCs) for the treatment of several neurological diseases is currently under evaluation of phase I/II clinical trials. Clinical application of hNSCs require the development of GMP standardized protocols capable of generating high quantities of reproducible and well characterized stem cells bearing stable functional and genetic properties. Aim The aim of this study was to evaluate possible instabilities or modifications of the microsatellite loci in different culture passages because high culture passages represent an in vitro replicative stress leading to senescence. Experimental method: The hNSCs were characterized at different culture time points, from passage 2 to passage 25, by genetic typing at ten microsatellite loci. Conclusion We showed that genetic stability at microsatellite loci is maintained by the cells even at high passages adding a further demonstration of the safety of our hNSCs GMP culture method.

Published

2022

18. Current status and new avenues of stem cell-based preclinical and therapeutic approaches in amyotrophic lateral sclerosis.

Author

Mazzini L, De Marchi F, Buzanska L, Follenzi A, Glover JC, Gelati M, Lombardi I, Maioli M, Mesa-Herrera F, Mitrečić D, Olgasi C, Pivoriūnas A, Sanchez-Pernaute R, Sgromo C, Zychowicz M, Vescovi A, and Ferrari D

Subjects

Humans, Animals, Disease Models, Animal, Clinical Trials as Topic, Amyotrophic Lateral Sclerosis therapy, Amyotrophic Lateral Sclerosis genetics, Stem Cell Transplantation

Abstract

Introduction: Cell therapy development represents a critical challenge in amyotrophic lateral sclerosis (ALS) research. Despite more than 20 years of basic and clinical research, no definitive safety and efficacy results of cell-based therapies for ALS have been published., Areas Covered: This review summarizes advances using stem cells (SCs) in pre-clinical studies to promote clinical translation and in clinical trials to treat ALS. New technologies have been developed and new experimental in vitro and animal models are now available to facilitate pre-clinical research in this field and to determine the most promising approaches to pursue in patients. New clinical trial designs aimed at developing personalized SC-based treatment with biological endpoints are being defined., Expert Opinion: Knowledge of the basic biology of ALS and on the use of SCs to study and potentially treat ALS continues to grow. However, a consensus has yet to emerge on how best to translate these results into therapeutic applications. The selection and follow-up of patients should be based on clinical, biological, and molecular criteria. Planning of SC-based clinical trials should be coordinated with patient profiling genetically and molecularly to achieve personalized treatment. Much work within basic and clinical research is still needed to successfully transition SC therapy in ALS.

Published

2024

19. Effects of Recombinant SARS-CoV-2 Spike Protein Variants on Platelet Morphology and Activation.

Author

Vettori M, Carpenè G, Salvagno GL, Gelati M, Dima F, Celegon G, Favaloro EJ, and Lippi G

Subjects

Humans, SARS-CoV-2, Collagen, Spike Glycoprotein, Coronavirus, COVID-19

Abstract

Platelets are central elements of hemostasis and also play a pivotal role in the pathogenesis of thrombosis in coronavirus disease 2019. This study was planned to investigate the effects of different severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) recombinant spike protein variants on platelet morphology and activation. Citrated whole blood collected from ostensibly healthy subjects was challenged with saline (control sample) and with 2 and 20 ng/mL final concentration of SARS-CoV-2 recombinant spike protein of Ancestral, Alpha, Delta, and Omicron variants. Platelet count was found to be decreased with all SARS-CoV-2 recombinant spike protein variants and concentrations tested, achieving the lowest values with 20 ng/mL Delta recombinant spike protein. The mean platelet volume increased in all samples irrespective of SARS-CoV-2 recombinant spike protein variants and concentrations tested, but especially using Delta and Alpha recombinant spike proteins. The values of both platelet function analyzer-200 collagen-adenosine diphosphate and collagen-epinephrine increased in all samples irrespective of SARS-CoV-2 recombinant spike protein variants and concentrations tested, and thus reflecting platelet exhaustion, and displaying again higher increases with Delta and Alpha recombinant spike proteins. Most samples where SARS-CoV-2 recombinant spike proteins were added were flagged as containing platelet clumps. Morphological analysis revealed the presence of a considerable number of activated platelets, platelet clumps, platelet-monocyte, and platelet-neutrophils aggregates, especially in samples spiked with Alpha and Delta recombinant spike proteins at 20 ng/mL. These results provide support to the evidence that SARS-CoV-2 is capable of activating platelets through its spike protein, though such effect varies depending on different spike protein variants., Competing Interests: None declared., (Thieme. All rights reserved.)

Published

2024

20. Analytical evaluation of the novel Mindray high sensitivity cardiac troponin I immunoassay on CL-1200i.

Author

Lippi G, Pighi L, Paviati E, Demonte D, De Nitto S, Gelati M, Montagnana M, Gandini G, Henry BM, and Salvagno GL

Subjects

Humans, Immunoassay methods, Immunoassay standards, Female, Male, Adult, Middle Aged, Luminescent Measurements methods, Luminescent Measurements standards, Aged, Reproducibility of Results, Reference Values, Troponin I blood, Troponin I analysis, Limit of Detection

Abstract

Objectives: The current study was designed to evaluate the analytical performance of the new Mindray highly sensitive cardiac troponin I (hs-cTnI) chemiluminescent immunoassay on Mindray CL-1200i, as a thorough validation of novel hs-cTnI methods is required before introduction into clinical practice., Methods: The evaluation of the analytical performance of this hs-cTnI immunoassay encompassed the calculation of the limit of blank (LOB), limit of detection (LOD), functional sensitivity, imprecision, linearity, 99th percentile upper reference limit (URL) and concordance with another previously validated hs-cTnI chemiluminescent immunoassay., Results: The LOB and LOD were 0.32 and 0.35 ng/L, whilst the functional sensitivity (expressed as cTnI value with <10 % imprecision), was 0.35 ng/L. The linearity was excellent throughout a wide range of clinically measurable values (r=1.00 between 0.8 and 9,726.9 ng/mL). The intra-assay, inter-assay and total imprecision were 1.1-1.3 %, 5.5-8.1 % and 5.6-8.2 %, respectively. The 99th percentile URL calculated using residual plasma from 246 ostensibly healthy blood donors was 9.2 ng/L (4.3 ng/L in women vs. 12.3 ng/L in men). The Spearman's correlation between Mindray hs-cTnI and Access hs-TnI was 0.97, with mean bias of 7.2 % (95 % CI, 2.6-11.9 %)., Conclusions: Although we failed to confirm the very optimistic analytical characteristics previously reported for this method, our evaluation of the novel Mindray hs-cTnI immunoassay on CL-1200i demonstrated that the overall performance is comparable to that of other commercially available hs-cTnI techniques, making it a viable alternative to other methods., (© 2024 Walter de Gruyter GmbH, Berlin/Boston.)

Published

2024

21. Phase I clinical trial of intracerebroventricular transplantation of allogeneic neural stem cells in people with progressive multiple sclerosis.

Author

Leone MA, Gelati M, Profico DC, Gobbi C, Pravatà E, Copetti M, Conti C, Abate L, Amoruso L, Apollo F, Balzano RF, Bicchi I, Carella M, Ciampini A, Colosimo C, Crociani P, D'Aloisio G, Di Viesti P, Ferrari D, Fogli D, Fontana A, Frondizi D, Grespi V, Kuhle J, Laborante A, Lombardi I, Muzi G, Paci F, Placentino G, Popolizio T, Ricciolini C, Sabatini S, Silveri G, Spera C, Stephenson D, Stipa G, Tinella E, Zarrelli M, Zecca C, Ventura Y, D'Alessandro A, Peruzzotti-Jametti L, Pluchino S, and Vescovi AL

Subjects

Humans, Transplantation, Autologous, Multiple Sclerosis, Chronic Progressive drug therapy, Multiple Sclerosis therapy, Neural Stem Cells, Hematopoietic Stem Cell Transplantation

Abstract

We report the analysis of 1 year of data from the first cohort of 15 patients enrolled in an open-label, first-in-human, dose-escalation phase I study (ClinicalTrials.gov: NCT03282760, EudraCT2015-004855-37) to determine the feasibility, safety, and tolerability of the transplantation of allogeneic human neural stem/progenitor cells (hNSCs) for the treatment of secondary progressive multiple sclerosis. Participants were treated with hNSCs delivered via intracerebroventricular injection in combination with an immunosuppressive regimen. No treatment-related deaths nor serious adverse events (AEs) were observed. All participants displayed stability of clinical and laboratory outcomes, as well as lesion load and brain activity (MRI), compared with the study entry. Longitudinal metabolomics and lipidomics of biological fluids identified time- and dose-dependent responses with increased levels of acyl-carnitines and fatty acids in the cerebrospinal fluid (CSF). The absence of AEs and the stability of functional and structural outcomes are reassuring and represent a milestone for the safe translation of stem cells into regenerative medicines., Competing Interests: Declaration of interests S.P. is founder, CSO, and shareholder (>5%) of CITC Ltd. and Chair of the Scientific Advisory Board at ReNeuron plc., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

22. Plasma Bile Acid Profiling and Modulation of Secreted Mucin 5AC in Cholangiocarcinoma.

Author

Danese E, Lievens PM, Padoan A, Peserico D, Galavotti R, Negrini D, Gelati M, Conci S, Ruzzenente A, Salvagno GL, and Lippi G

Subjects

Humans, Bile Acids and Salts, Mucin 5AC, Case-Control Studies, Bile Ducts, Intrahepatic, Cholangiocarcinoma, Bile Duct Neoplasms

Abstract

Studies investigating the potential role of circulating bile acids (BAs) as diagnostic biomarkers for cholangiocarcinoma (CCA) are sparse and existing data do not adjust for confounding variables. Furthermore, the mechanism by which BAs affect the expression of the oncogenic mucin 5AC (MUC5AC) has never been investigated. We performed a case-control study to characterise the profile of circulating BAs in patients with CCA ( n = 68) and benign biliary disease (BBD, n = 48) with a validated liquid chromatography-tandem mass spectrometry technique. Odd ratios (OR) for CCA associations were calculated with multivariable logistic regression models based on a directed acyclic graph structure learning algorithm. The most promising BAs were then tested in an in vitro study to investigate their interplay in modulating MUC5AC expression. The total concentration of BAs was markedly higher in patients with CCA compared with BBD controls and accompanied by a shift in BAs profile toward a higher proportion of primary conjugated BAs (OR = 1.50, CI: 1.14 to 1.96, p = 0.003), especially taurochenodeoxycholic acid (TCDCA, OR = 42.29, CI: 3.54 to 504.63, p = 0.003) after multiple adjustments. Western blot analysis of secreted MUC5AC in human primary cholangiocytes treated with primary conjugated BAs or with TCDCA alone allowed us to identify a novel 230 kDa isoform, possibly representing a post-translationally modified MUC5AC specie.

Published

2023

23. Effects of Different Types of Recombinant SARS-CoV-2 Spike Protein on Circulating Monocytes' Structure.

Author

Vettori M, Dima F, Henry BM, Carpenè G, Gelati M, Celegon G, Salvagno GL, and Lippi G

Subjects

Humans, Spike Glycoprotein, Coronavirus genetics, SARS-CoV-2, Monocytes, COVID-19

Abstract

This study investigated the biological effects on circulating monocytes after challenge with SARS-CoV-2 recombinant spike protein. Whole blood collected from seven ostensibly healthy healthcare workers was incubated for 15 min with 2 and 20 ng/mL final concentration of recombinant spike protein of Ancestral, Alpha, Delta, and Omicron variants. Samples were analyzed with Sysmex XN and DI-60 analyzers. Cellular complexity (i.e., the presence of granules, vacuoles and other cytoplasmic inclusions) increased in all samples challenged with the recombinant spike protein of the Ancestral, Alpha, and Delta variants, but not in those containing Omicron. The cellular content of nucleic acids was constantly decreased in most samples, achieving statistical significance in those containing 20 ng/mL of Alpha and Delta recombinant spike proteins. The heterogeneity of monocyte volumes significantly increased in all samples, achieving statistical significance in those containing 20 ng/mL of recombinant spike protein of the Ancestral, Alpha and Delta variants. The monocyte morphological abnormalities after spike protein challenge included dysmorphia, granulation, intense vacuolization, platelet phagocytosis, development of aberrant nuclei, and cytoplasmic extrusions. The SARS-CoV-2 spike protein triggers important monocyte morphological abnormalities, more evident in cells challenged with recombinant spike protein of the more clinically severe Alpha and Delta variants.

Published

2023

24. Generation of an induced pluripotent stem cell line CSSi015-A (9553), carrying a point mutation c.2915C > T in the human calcium sensing receptor (CasR) gene.

Author

Rotundo G, Turco EM, Ruotolo G, Torrente I, Candido O, Lopez G, Ferrari D, Caputi C, Mastrangelo M, Pisani F, Gelati M, Guarnieri V, Vescovi AL, and Rosati J

Subjects

Humans, Point Mutation, Receptors, Calcium-Sensing genetics, Receptors, Calcium-Sensing metabolism, Mutation, Calcium, Induced Pluripotent Stem Cells metabolism, Hypercalcemia genetics

Abstract

Familial Hypocalciuric Hypercalcemia (FHH1) is a rare autosomal dominant disease with low penetrance, caused by inactivating mutations of the calcium-sensing receptor (CaSR) gene, characterized by significant hypercalcemia, inappropriately normal serum PTH levels and a low urinary calcium level. Human induced pluripotent stem cells (hiPSCs) from a patient carrying a previously identified heterozygous mutation, a p.T972M amino acid substitution in cytoplasmic tail of CasR, were produced using a virus, xeno-free and non-integrative protocol., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Jessica Rosati reports financial support was provided by Ministry of Health., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

25. Type 2 Diabetes Related Mitochondrial Defects in Peripheral Mononucleated Blood Cells from Overweight Postmenopausal Women.

Author

Calabria E, Muollo V, Cavedon V, Capovin T, Saccenti L, Passarotti F, Ghiotto L, Milanese C, Gelati M, Rudi D, Salvagno GL, Lippi G, Tam E, Schena F, and Pogliaghi S

Abstract

Type 2 diabetes (T2D) is a multisystem disease that is the subject of many studies, but the earliest cause of the disease has yet to be elucidated. Mitochondrial impairment has been associated with diabetes in several tissues. To extend the association between T2D and mitochondrial impairment to blood cells, we investigated T2D-related changes in peripheral mononucleated blood cells’ (PBMCs) mitochondrial function in two groups of women (CTRL vs. T2D; mean age: 54.1 ± 3.8 vs. 60.9 ± 4.8; mean BMI 25.6 ± 5.2 vs. 30.0 ± 5), together with a panel of blood biomarkers, anthropometric measurements and physiological parameters (VO2max and strength tests). Dual-energy X-ray absorptiometry (DXA) scan analysis, cardio-pulmonary exercise test and blood biomarkers confirmed hallmarks of diabetes in the T2D group. Mitochondrial function assays performed with high resolution respirometry highlighted a significant reduction of mitochondrial respiration in the ADP-stimulated state (OXPHOS; −30%, p = 0.006) and maximal non-coupled respiration (ET; −30%, p = 0.004) in PBMCs samples from the T2D group. The total glutathione antioxidant pool (GSHt) was significantly reduced (−38%: p = 0.04) in plasma samples from the T2D group. The fraction of glycated hemoglobin (Hb1Ac) was positively associated with markers of inflammation (C-reactive protein-CRP r = 0.618; p = 0.006) and of dyslipidemia (triglycerides-TG r = 0.815; p < 0.0001). The same marker (Hb1Ac) was negatively associated with mitochondrial activity levels (OXPHOS r = −0.502; p = 0.034; ET r = −0.529; p = 0.024). The results obtained in overweight postmenopausal women from analysis of PBMCs mitochondrial respiration and their association with anthropometric and physiological parameters indicate that PBMC could represent a reliable model for studying T2D-related metabolic impairment and could be useful for testing the effectiveness of interventions targeting mitochondria.

Published

2023

26. Human Neural Stem Cell-Based Drug Product: Clinical and Nonclinical Characterization.

Author

Profico DC, Gelati M, Ferrari D, Sgaravizzi G, Ricciolini C, Projetti Pensi M, Muzi G, Cajola L, Copetti M, Ciusani E, Pugliese R, Gelain F, and Vescovi AL

Subjects

Humans, Reproducibility of Results, Cryopreservation, Quality Control, Neural Stem Cells, Amyotrophic Lateral Sclerosis drug therapy

Abstract

Translation of cell therapies into clinical practice requires the adoption of robust production protocols in order to optimize and standardize the manufacture and cryopreservation of cells, in compliance with good manufacturing practice regulations. Between 2012 and 2020, we conducted two phase I clinical trials (EudraCT 2009-014484-39, EudraCT 2015-004855-37) on amyotrophic lateral sclerosis secondary progressive multiple sclerosis patients, respectively, treating them with human neural stem cells. Our production process of a hNSC-based medicinal product is the first to use brain tissue samples extracted from fetuses that died in spontaneous abortion or miscarriage. It consists of selection, isolation and expansion of hNSCs and ends with the final pharmaceutical formulation tailored to a specific patient, in compliance with the approved clinical protocol. The cells used in these clinical trials were analyzed in order to confirm their microbiological safety; each batch was also tested to assess identity, potency and safety through morphological and functional assays. Preclinical, clinical and in vitro nonclinical data have proved that our cells are safe and stable, and that the production process can provide a high level of reproducibility of the cultures. Here, we describe the quality control strategy for the characterization of the hNSCs used in the above-mentioned clinical trials.

Published

2022

27. Human neural stem cells drug product: Microsatellite instability analysis.

Author

Grespi V, Caprera C, Ricciolini C, Bicchi I, Muzi G, Corsi M, Ascani S, Vescovi AL, and Gelati M

Subjects

Cell Differentiation, Humans, Stem Cell Transplantation, Microsatellite Instability, Neural Stem Cells

Abstract

Introduction: In central nervous system neurodegenerative disorders, stem cell-based therapies should be considered as a promising therapeutic approach. The safe use of human Neural Stem Cells (hNSCs) for the treatment of several neurological diseases is currently under evaluation of phase I/II clinical trials. Clinical application of hNSCs require the development of GMP standardized protocols capable of generating high quantities of reproducible and well characterized stem cells bearing stable functional and genetic properties., Aim: The aim of this study was to evaluate possible instabilities or modifications of the microsatellite loci in different culture passages because high culture passages represent an in vitro replicative stress leading to senescence. Experimental method: The hNSCs were characterized at different culture time points, from passage 2 to passage 25, by genetic typing at ten microsatellite loci., Conclusion: We showed that genetic stability at microsatellite loci is maintained by the cells even at high passages adding a further demonstration of the safety of our hNSCs GMP culture method., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

28. Production of CSSi013-A (9360) iPSC line from an asymptomatic subject carrying an heterozygous mutation in TDP-43 protein.

Author

D'Anzi A, Perciballi E, Ruotolo G, Ferrari D, Notaro A, Lombardi I, Gelati M, Frezza K, Bernardini L, Torrente I, De Luca A, La Bella V, Luigi Vescovi A, and Rosati J

Subjects

DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Heterozygote, Humans, Mutation genetics, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis metabolism, Induced Pluripotent Stem Cells metabolism

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a fatal disease affecting both upper and lower motoneurons. The transactive response DNA binding protein (TARDBP) gene, encoding for TDP-43, is one of the most commonly mutated gene associated with familial cases of ALS (10%). We generated a human induced pluripotent stem cell (hiPSC) line from the fibroblasts of an asymptomatic subject carrying the TARDBP p.G376D mutation. This mutation is very rare and was described in a large Apulian family, in which all ALS affected members are carriers of the mutation. The subject here described is the first identified asymptomatic carrier of the mutation., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

29. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients.

Author

Perciballi E, Bovio F, Rosati J, Arrigoni F, D'Anzi A, Lattante S, Gelati M, De Marchi F, Lombardi I, Ruotolo G, Forcella M, Mazzini L, D'Alfonso S, Corrado L, Sabatelli M, Conte A, De Gioia L, Martino S, Vescovi AL, Fusi P, and Ferrari D

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1 L145F and SOD1 S135N , carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1 L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1 S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

30. Repeated Passive Mobilization to Stimulate Vascular Function in Individuals of Advanced Age Who Are Chronically Bedridden: A Randomized Controlled Trial.

Author

Pedrinolla A, Magliozzi R, Colosio AL, Danese E, Gelati M, Rossi S, Pogliaghi S, Calabrese M, Muti E, Cè E, Longo S, Esposito F, Lippi G, Schena F, and Venturelli M

Subjects

Aged, Aged, 80 and over, Female, Femoral Artery physiology, Hemodynamics physiology, Humans, Male, Range of Motion, Articular, Leg physiology, Movement physiology

Abstract

Background: Vascular dysfunction and associated disorders are major side effects of chronic bed rest, yet passive mobilization as a potential treatment has only been theorized so far. This study investigated the effects of passive mobilization treatment on vascular function in older, chronically bedridden people., Method: The study sample was 45 chronically bedridden people of advanced age (mean age: 87 years; 56% female; mean bed rest: 4 years) randomly assigned to a treatment (n = 23) or a control group (CTRL, n = 22). The treatment group received passive mobilization twice daily (30 minutes, 5 times/wk) for 4 weeks. A kinesiologist performed passive mobilization by passive knee flexion/extension at 1 Hz in one leg (treated leg [T-leg] vs control leg [Ctrl-leg]). The CTRL group received routine treatment. The primary outcome was changes in peak blood flow (∆peak) as measured with the single passive leg movement test at the common femoral artery., Results: ∆Peak was increased in both legs in the Treatment group (+90.9 mL/min, p < .001, in T-leg and +25.7 mL/min, p = .039 in Ctrl-leg). No difference in peak blood flow after routine treatment was found in the CTRL group., Conclusion: Improvement in vascular function after 4 weeks of passive mobilization was recorded in the treatment group. Passive mobilization may be advantageously included in standard clinical practice as an effective strategy to treat vascular dysfunction in persons with severely limited mobility., (© The Author(s) 2021. Published by Oxford University Press on behalf of The Gerontological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

31. Culturing and Expansion of "Clinical Grade" Neural Stem Cells from the Fetal Human Central Nervous System.

Author

Gelati M, Profico DC, Ferrari D, and Vescovi AL

Subjects

Amyotrophic Lateral Sclerosis therapy, Animals, Cells, Cultured, Central Nervous System, Fetus, Humans, Neurodegenerative Diseases, Stem Cell Transplantation, Neural Stem Cells

Abstract

NSCs have been demonstrated to be very useful in grafts into the mammalian central nervous system to investigate the exploitation of NSC for the therapy of neurodegenerative disorders in animal models of neurodegenerative diseases. To push cell therapy in CNS on stage of clinical application, it is necessary to establish a continuous and standardized, clinical grade (i.e., produced following the good manufacturing practice guidelines) human neural stem cell lines.In this chapter we will illustrate some of the protocols for the production and characterization routinely used into our GMP "cell factory" for the production of "clinical grade" human neural stem cell lines already in use in clinical trials on neurodegenerative diseases, particularly amyotrophic lateral sclerosis (ALS- Clinicaltrials.gov number NCT01640067) and secondary progressive multiple sclerosis (SPMS- Clinicaltrials.gov number NCT03282760)., (© 2022. Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022