Your search keyword '"Vescovi A. L."' showing total 348 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. CONCERTO: Readout and control electronics

Author

Bourrion, O., Hoarau, C., Bounmy, J., Tourres, D., Bouly, C. Vescovi J. -L., Ponchant, N., Beelen, A., Calvo, M., Catalano, A., Goupy, J., Lagache, G., Macías-Pérez, J. -F., Marpaud, J., and Monfardini, A.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors

Abstract

The CONCERTO spectral-imaging instrument was installed at the Atacama Pathfinder EXperiment (APEX) 12-meter telescope in April 2021. It has been designed to look at radiation emitted by ionised carbon atoms, [CII], and use the "intensity Mapping" technique to set the first constraints on the power spectrum of dusty star-forming galaxies. The instrument features two arrays of 2152 pixels constituted of Lumped Element Kinectic Inductance Detectors (LEKID) operated at cryogenic temperatures, cold optics and a fast Fourier Transform Spectrometer (FTS). To readout and operate the instrument, a newly designed electronic system hosted in five microTCA crates and composed of twelve readout boards and two control boards was designed and commissioned. The architecture and the performances are presented in this paper.

Published

2022

3. Different states of stemness of glioblastoma stem cells sustain glioblastoma subtypes indicating novel clinical biomarkers and high-efficacy customized therapies

Author

Visioli, Alberto, Trivieri, Nadia, Mencarelli, Gandino, Giani, Fabrizio, Copetti, Massimiliano, Palumbo, Orazio, Pracella, Riccardo, Cariglia, Maria Grazia, Barile, Chiara, Mischitelli, Luigi, Soriano, Amata Amy, Palumbo, Pietro, Legnani, Federico, DiMeco, Francesco, Gorgoglione, Leonardo, Pesole, Graziano, Vescovi, Angelo L., and Binda, Elena

Published

2023

4. Growth factor independence underpins a paroxysmal, aggressive Wnt5aHigh/EphA2Low phenotype in glioblastoma stem cells, conducive to experimental combinatorial therapy

Author

Trivieri, Nadia, Visioli, Alberto, Mencarelli, Gandino, Cariglia, Maria Grazia, Marongiu, Laura, Pracella, Riccardo, Giani, Fabrizio, Soriano, Amata Amy, Barile, Chiara, Cajola, Laura, Copetti, Massimiliano, Palumbo, Orazio, Legnani, Federico, DiMeco, Francesco, Gorgoglione, Leonardo, Vescovi, Angelo L., and Binda, Elena

Published

2022

5. AQP4-dependent glioma cell features affect the phenotype of surrounding cells via extracellular vesicles

Author

Simone, Laura, Pisani, Francesco, Binda, Elena, Frigeri, Antonio, Vescovi, Angelo L., Svelto, Maria, and Nicchia, Grazia P.

Published

2022

6. Multifunctionalized hydrogels foster hNSC maturation in 3D cultures and neural regeneration in spinal cord injuries

Author

Marchini, Amanda, Raspa, Andrea, Pugliese, Raffaele, El Malek, Marina Abd, Pastori, Valentina, Lecchi, Marzia, Vescovi, Angelo L., and Gelain, Fabrizio

Published

2019

7. Generation of induced pluripotent stem cells (CSSi017-A)(12862) from an ALS patient carrying a repeat expansion in the C9orf72 gene

Author

Ruotolo, G, D'Anzi, A, Casamassa, A, Mazzoni, M, Ferrari, D, Lombardi, I, Carletti, R, D'Asdia, C, Torrente, I, Frezza, K, Lattante, S, Sabatelli, M, Pennuto, M, Vescovi, A, Rosati, J, Ruotolo, G., D'Anzi, A., Casamassa, A., Mazzoni, M., Ferrari, D., Lombardi, I., Carletti, R. M., D'Asdia, C., Torrente, I., Frezza, K., Lattante, S., Sabatelli, M., Pennuto, M., Vescovi, A. L., Rosati, J., Ruotolo, G, D'Anzi, A, Casamassa, A, Mazzoni, M, Ferrari, D, Lombardi, I, Carletti, R, D'Asdia, C, Torrente, I, Frezza, K, Lattante, S, Sabatelli, M, Pennuto, M, Vescovi, A, Rosati, J, Ruotolo, G., D'Anzi, A., Casamassa, A., Mazzoni, M., Ferrari, D., Lombardi, I., Carletti, R. M., D'Asdia, C., Torrente, I., Frezza, K., Lattante, S., Sabatelli, M., Pennuto, M., Vescovi, A. L., and Rosati, J.

Abstract

Genetic expansions of the hexanucleotide repeats (GGGGCC) in the C9orf72 gene appear in approximately 40% of patients with familial ALS and 7% of patients with sporadic ALS in the European population, making this mutation one of the most prevalent genetic mutations in ALS. Here, we generated a human induced pluripotent stem cell (hiPSC) line from the dermal fibroblasts of a patient carrying a 56-repeat expansion in an ALS disease-causing allele of C9orf72. These iPSCs showed stable amplification in vitro with normal karyotype and high expression of pluripotent markers and differentiated spontaneously in vivo into three germ layers.

Published

2024

8. Stemness underpinning all steps of human colorectal cancer defines the core of effective therapeutic strategies

Author

Visioli, Alberto, Giani, Fabrizio, Trivieri, Nadia, Pracella, Riccardo, Miccinilli, Elide, Cariglia, Maria Grazia, Palumbo, Orazio, Arleo, Andrea, Dezi, Fabio, Copetti, Massimiliano, Cajola, Laura, Restelli, Silvia, Papa, Valerio, Sciuto, Antonio, Latiano, Tiziana Pia, Carella, Massimo, Amadori, Dino, Gallerani, Giulia, Ricci, Riccardo, Alfieri, Sergio, Pesole, Graziano, Vescovi, Angelo L., and Binda, Elena

Published

2019

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

Author

Leone, Maurizio A., primary, Gelati, Maurizio, additional, Profico, Daniela C., additional, Gobbi, Claudio, additional, Pravatà, Emanuele, additional, Copetti, Massimiliano, additional, Conti, Carlo, additional, Abate, Lucrezia, additional, Amoruso, Luigi, additional, Apollo, Francesco, additional, Balzano, Rosario F., additional, Bicchi, Ilaria, additional, Carella, Massimo, additional, Ciampini, Alessandro, additional, Colosimo, Carlo, additional, Crociani, Paola, additional, D’Aloisio, Giada, additional, Di Viesti, Pietro, additional, Ferrari, Daniela, additional, Fogli, Danilo, additional, Fontana, Andrea, additional, Frondizi, Domenico, additional, Grespi, Valentina, additional, Kuhle, Jens, additional, Laborante, Antonio, additional, Lombardi, Ivan, additional, Muzi, Gianmarco, additional, Paci, Francesca, additional, Placentino, Giuliana, additional, Popolizio, Teresa, additional, Ricciolini, Claudia, additional, Sabatini, Simonetta, additional, Silveri, Giada, additional, Spera, Cristina, additional, Stephenson, Daniel, additional, Stipa, Giuseppe, additional, Tinella, Elettra, additional, Zarrelli, Michele, additional, Zecca, Chiara, additional, Ventura, Yendri, additional, D’Alessandro, Angelo, additional, Peruzzotti-Jametti, Luca, additional, Pluchino, Stefano, additional, and Vescovi, Angelo L., additional

Published

2023

10. GFAP serves as a structural element of tunneling nanotubes between glioblastoma cells and could play a role in the intercellular transfer of mitochondria

Author

Simone, L., primary, Capobianco, D. L., additional, Di Palma, F., additional, Binda, E., additional, Legnani, F. G., additional, Vescovi, A. L., additional, Svelto, M., additional, and Pisani, F., additional

Published

2023

11. BRAFV600E mutation impinges on gut microbial markers defining novel biomarkers for serrated colorectal cancer effective therapies

Author

Trivieri, Nadia, Pracella, Riccardo, Cariglia, Maria Grazia, Panebianco, Concetta, Parrella, Paola, Visioli, Alberto, Giani, Fabrizio, Soriano, Amata Amy, Barile, Chiara, Canistro, Giuseppe, Latiano, Tiziana Pia, Dimitri, Lucia, Bazzocchi, Francesca, Cassano, Dario, Vescovi, Angelo L., Pazienza, Valerio, and Binda, Elena

Published

2020

12. Turning Brain into Blood: A Hematopoietic Fate Adopted by Adult Neural Stem Cells In vivo

Author

Rietze, Rodney L., Reynolds, Brent A., Magli, M. Cristina, and Vescovi, Angelo L.

Published

1999

13. 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

14. Supplementary Table s1 from AQP4 Aggregation State Is a Determinant for Glioma Cell Fate

Author

Simone, Laura, primary, Pisani, Francesco, primary, Mola, Maria G., primary, De Bellis, Manuela, primary, Merla, Giuseppe, primary, Micale, Lucia, primary, Frigeri, Antonio, primary, Vescovi, Angelo L., primary, Svelto, Maria, primary, and Nicchia, Grazia P., primary

Published

2023

15. Supplementary Figures from Wnt5a Drives an Invasive Phenotype in Human Glioblastoma Stem-like Cells

Author

Binda, Elena, primary, Visioli, Alberto, primary, Giani, Fabrizio, primary, Trivieri, Nadia, primary, Palumbo, Orazio, primary, Restelli, Silvia, primary, Dezi, Fabio, primary, Mazza, Tommaso, primary, Fusilli, Caterina, primary, Legnani, Federico, primary, Carella, Massimo, primary, Di Meco, Francesco, primary, Duggal, Rohit, primary, and Vescovi, Angelo L., primary

Published

2023

16. Data from Targeting APLN/APLNR Improves Antiangiogenic Efficiency and Blunts Proinvasive Side Effects of VEGFA/VEGFR2 Blockade in Glioblastoma

Author

Mastrella, Giorgia, primary, Hou, Mengzhuo, primary, Li, Min, primary, Stoecklein, Veit M., primary, Zdouc, Nina, primary, Volmar, Marie N.M., primary, Miletic, Hrvoje, primary, Reinhard, Sören, primary, Herold-Mende, Christel C., primary, Kleber, Susanne, primary, Eisenhut, Katharina, primary, Gargiulo, Gaetano, primary, Synowitz, Michael, primary, Vescovi, Angelo L., primary, Harter, Patrick N., primary, Penninger, Josef M., primary, Wagner, Ernst, primary, Mittelbronn, Michel, primary, Bjerkvig, Rolf, primary, Hambardzumyan, Dolores, primary, Schüller, Ulrich, primary, Tonn, Jörg-Christian, primary, Radke, Josefine, primary, Glass, Rainer, primary, and Kälin, Roland E., primary

Published

2023

17. Figure S5 from Targeting APLN/APLNR Improves Antiangiogenic Efficiency and Blunts Proinvasive Side Effects of VEGFA/VEGFR2 Blockade in Glioblastoma

Author

Mastrella, Giorgia, primary, Hou, Mengzhuo, primary, Li, Min, primary, Stoecklein, Veit M., primary, Zdouc, Nina, primary, Volmar, Marie N.M., primary, Miletic, Hrvoje, primary, Reinhard, Sören, primary, Herold-Mende, Christel C., primary, Kleber, Susanne, primary, Eisenhut, Katharina, primary, Gargiulo, Gaetano, primary, Synowitz, Michael, primary, Vescovi, Angelo L., primary, Harter, Patrick N., primary, Penninger, Josef M., primary, Wagner, Ernst, primary, Mittelbronn, Michel, primary, Bjerkvig, Rolf, primary, Hambardzumyan, Dolores, primary, Schüller, Ulrich, primary, Tonn, Jörg-Christian, primary, Radke, Josefine, primary, Glass, Rainer, primary, and Kälin, Roland E., primary

Published

2023

18. Data from AQP4 Aggregation State Is a Determinant for Glioma Cell Fate

Author

Simone, Laura, primary, Pisani, Francesco, primary, Mola, Maria G., primary, De Bellis, Manuela, primary, Merla, Giuseppe, primary, Micale, Lucia, primary, Frigeri, Antonio, primary, Vescovi, Angelo L., primary, Svelto, Maria, primary, and Nicchia, Grazia P., primary

Published

2023

19. Supplementary Tables from Wnt5a Drives an Invasive Phenotype in Human Glioblastoma Stem-like Cells

Author

Binda, Elena, primary, Visioli, Alberto, primary, Giani, Fabrizio, primary, Trivieri, Nadia, primary, Palumbo, Orazio, primary, Restelli, Silvia, primary, Dezi, Fabio, primary, Mazza, Tommaso, primary, Fusilli, Caterina, primary, Legnani, Federico, primary, Carella, Massimo, primary, Di Meco, Francesco, primary, Duggal, Rohit, primary, and Vescovi, Angelo L., primary

Published

2023

20. Table S1 from Targeting APLN/APLNR Improves Antiangiogenic Efficiency and Blunts Proinvasive Side Effects of VEGFA/VEGFR2 Blockade in Glioblastoma

Author

Mastrella, Giorgia, primary, Hou, Mengzhuo, primary, Li, Min, primary, Stoecklein, Veit M., primary, Zdouc, Nina, primary, Volmar, Marie N.M., primary, Miletic, Hrvoje, primary, Reinhard, Sören, primary, Herold-Mende, Christel C., primary, Kleber, Susanne, primary, Eisenhut, Katharina, primary, Gargiulo, Gaetano, primary, Synowitz, Michael, primary, Vescovi, Angelo L., primary, Harter, Patrick N., primary, Penninger, Josef M., primary, Wagner, Ernst, primary, Mittelbronn, Michel, primary, Bjerkvig, Rolf, primary, Hambardzumyan, Dolores, primary, Schüller, Ulrich, primary, Tonn, Jörg-Christian, primary, Radke, Josefine, primary, Glass, Rainer, primary, and Kälin, Roland E., primary

Published

2023

21. Supplementary Data from Targeting APLN/APLNR Improves Antiangiogenic Efficiency and Blunts Proinvasive Side Effects of VEGFA/VEGFR2 Blockade in Glioblastoma

Author

Mastrella, Giorgia, primary, Hou, Mengzhuo, primary, Li, Min, primary, Stoecklein, Veit M., primary, Zdouc, Nina, primary, Volmar, Marie N.M., primary, Miletic, Hrvoje, primary, Reinhard, Sören, primary, Herold-Mende, Christel C., primary, Kleber, Susanne, primary, Eisenhut, Katharina, primary, Gargiulo, Gaetano, primary, Synowitz, Michael, primary, Vescovi, Angelo L., primary, Harter, Patrick N., primary, Penninger, Josef M., primary, Wagner, Ernst, primary, Mittelbronn, Michel, primary, Bjerkvig, Rolf, primary, Hambardzumyan, Dolores, primary, Schüller, Ulrich, primary, Tonn, Jörg-Christian, primary, Radke, Josefine, primary, Glass, Rainer, primary, and Kälin, Roland E., primary

Published

2023

22. Supplementary Procedures from Wnt5a Drives an Invasive Phenotype in Human Glioblastoma Stem-like Cells

Author

Binda, Elena, primary, Visioli, Alberto, primary, Giani, Fabrizio, primary, Trivieri, Nadia, primary, Palumbo, Orazio, primary, Restelli, Silvia, primary, Dezi, Fabio, primary, Mazza, Tommaso, primary, Fusilli, Caterina, primary, Legnani, Federico, primary, Carella, Massimo, primary, Di Meco, Francesco, primary, Duggal, Rohit, primary, and Vescovi, Angelo L., primary

Published

2023

23. Data from Wnt5a Drives an Invasive Phenotype in Human Glioblastoma Stem-like Cells

Author

Binda, Elena, primary, Visioli, Alberto, primary, Giani, Fabrizio, primary, Trivieri, Nadia, primary, Palumbo, Orazio, primary, Restelli, Silvia, primary, Dezi, Fabio, primary, Mazza, Tommaso, primary, Fusilli, Caterina, primary, Legnani, Federico, primary, Carella, Massimo, primary, Di Meco, Francesco, primary, Duggal, Rohit, primary, and Vescovi, Angelo L., primary

Published

2023

24. Supplementary Figure s1 from AQP4 Aggregation State Is a Determinant for Glioma Cell Fate

Author

Simone, Laura, primary, Pisani, Francesco, primary, Mola, Maria G., primary, De Bellis, Manuela, primary, Merla, Giuseppe, primary, Micale, Lucia, primary, Frigeri, Antonio, primary, Vescovi, Angelo L., primary, Svelto, Maria, primary, and Nicchia, Grazia P., primary

Published

2023

25. Supplementary Methods, Figures 1-6 from Endothelial Cells Create a Stem Cell Niche in Glioblastoma by Providing NOTCH Ligands That Nurture Self-Renewal of Cancer Stem-Like Cells

Author

Zhu, Thant S., primary, Costello, Mark A., primary, Talsma, Caroline E., primary, Flack, Callie G., primary, Crowley, Jessica G., primary, Hamm, Lisa L., primary, He, Xiaobing, primary, Hervey-Jumper, Shawn L., primary, Heth, Jason A., primary, Muraszko, Karin M., primary, DiMeco, Francesco, primary, Vescovi, Angelo L., primary, and Fan, Xing, primary

Published

2023

26. Data from Endothelial Cells Create a Stem Cell Niche in Glioblastoma by Providing NOTCH Ligands That Nurture Self-Renewal of Cancer Stem-Like Cells

Author

Zhu, Thant S., primary, Costello, Mark A., primary, Talsma, Caroline E., primary, Flack, Callie G., primary, Crowley, Jessica G., primary, Hamm, Lisa L., primary, He, Xiaobing, primary, Hervey-Jumper, Shawn L., primary, Heth, Jason A., primary, Muraszko, Karin M., primary, DiMeco, Francesco, primary, Vescovi, Angelo L., primary, and Fan, Xing, primary

Published

2023

27. Data from Abnormal DNA Methylation of CD133 in Colorectal and Glioblastoma Tumors

Author

Yi, Joo Mi, primary, Tsai, Hsing-Chen, primary, Glöckner, Sabine C., primary, Lin, Steven, primary, Ohm, Joyce E., primary, Easwaran, Hari, primary, James, C. David, primary, Costello, Joseph F., primary, Riggins, Gregory, primary, Eberhart, Charles G., primary, Laterra, John, primary, Vescovi, Angelo L., primary, Ahuja, Nita, primary, Herman, James G., primary, Schuebel, Kornel E., primary, and Baylin, Stephen B., primary

Published

2023

28. Supplementary Figures 1-5, Table 1, Methods and Materials from Abnormal DNA Methylation of CD133 in Colorectal and Glioblastoma Tumors

Author

Yi, Joo Mi, primary, Tsai, Hsing-Chen, primary, Glöckner, Sabine C., primary, Lin, Steven, primary, Ohm, Joyce E., primary, Easwaran, Hari, primary, James, C. David, primary, Costello, Joseph F., primary, Riggins, Gregory, primary, Eberhart, Charles G., primary, Laterra, John, primary, Vescovi, Angelo L., primary, Ahuja, Nita, primary, Herman, James G., primary, Schuebel, Kornel E., primary, and Baylin, Stephen B., primary

Published

2023

29. Bone Morphogenetic Proteins Regulate Tumorigenicity in Human Glioblastoma Stem Cells

Author

Piccirillo, S. G. M., Vescovi, A. L., Wiestler, O.D., editor, Haendler, B., editor, and Mumberg, D., editor

Published

2007

30. Establishment of stable iPS-derived human neural stem cell lines suitable for cell therapies

Author

Rosati, Jessica, Ferrari, Daniela, Altieri, Filomena, Tardivo, Silvia, Ricciolini, Claudia, Fusilli, Caterina, Zalfa, Cristina, Profico, Daniela C., Pinos, Francesca, Bernardini, Laura, Torres, Barbara, Manni, Isabella, Piaggio, Giulia, Binda, Elena, Copetti, Massimiliano, Lamorte, Giuseppe, Mazza, Tommaso, Carella, Massimo, Gelati, Maurizio, Valente, Enza Maria, Simeone, Antonio, and Vescovi, Angelo L.

Published

2018

31. Multipotent Stem Cells in the Adult Central Nervous System

Author

Bonfanti, Luca, Gritti, Angela, Galli, Rossella, Vescovi, Angelo L., and Rao, Mahendra S., editor

Published

2001

32. The EphA2 Receptor Drives Self-Renewal and Tumorigenicity in Stem-like Tumor-Propagating Cells from Human Glioblastomas

Author

Binda, Elena, Visioli, Alberto, Giani, Fabrizio, Lamorte, Giuseppe, Copetti, Massimiliano, Pitter, Ken L., Huse, Jason T., Cajola, Laura, Zanetti, Nadia, DiMeco, Francesco, De Filippis, Lidia, Mangiola, Annunziato, Maira, Giulio, Anile, Carmelo, De Bonis, Pasquale, Reynolds, Brent A., Pasquale, Elena B., and Vescovi, Angelo L.

Published

2012

33. CD90 is Identified as a Candidate Marker for Cancer Stem Cells in Primary High-Grade Gliomas Using Tissue Microarrays

Author

He, Jintang, Liu, Yashu, Zhu, Thant, Zhu, Jianhui, DiMeco, Francesco, Vescovi, Angelo L., Heth, Jason A., Muraszko, Karin M., Fan, Xing, and Lubman, David M.

Published

2012

34. Growth factor independence underpins a paroxysmal, aggressive Wnt5aHigh/EphA2Low phenotype in glioblastoma stem cells, conducive to experimental combinatorial therapy

Author

Trivieri, N, Visioli, A, Mencarelli, G, Cariglia, M, Marongiu, L, Pracella, R, Giani, F, Soriano, A, Barile, C, Cajola, L, Copetti, M, Palumbo, O, Legnani, F, Dimeco, F, Gorgoglione, L, Vescovi, A, Binda, E, Trivieri N., Visioli A., Mencarelli G., Cariglia M. G., Marongiu L., Pracella R., Giani F., Soriano A. A., Barile C., Cajola L., Copetti M., Palumbo O., Legnani F., DiMeco F., Gorgoglione L., Vescovi A. L., Binda E., Trivieri, N, Visioli, A, Mencarelli, G, Cariglia, M, Marongiu, L, Pracella, R, Giani, F, Soriano, A, Barile, C, Cajola, L, Copetti, M, Palumbo, O, Legnani, F, Dimeco, F, Gorgoglione, L, Vescovi, A, Binda, E, Trivieri N., Visioli A., Mencarelli G., Cariglia M. G., Marongiu L., Pracella R., Giani F., Soriano A. A., Barile C., Cajola L., Copetti M., Palumbo O., Legnani F., DiMeco F., Gorgoglione L., Vescovi A. L., and Binda E.

Abstract

Background: Glioblastoma multiforme (GBM) is an incurable tumor, with a median survival rate of only 14–15 months. Along with heterogeneity and unregulated growth, a central matter in dealing with GBMs is cell invasiveness. Thus, improving prognosis requires finding new agents to inhibit key multiple pathways, even simultaneously. A subset of GBM stem-like cells (GSCs) may account for tumorigenicity, representing, through their pathways, the proper cellular target in the therapeutics of glioblastomas. GSCs cells are routinely enriched and expanded due to continuous exposure to specific growth factors, which might alter some of their intrinsic characteristic and hide therapeutically relevant traits. Methods: By removing exogenous growth factors stimulation, here we isolated and characterized a subset of GSCs with a “mitogen-independent” phenotype (I-GSCs) from patient’s tumor specimens. Differential side-by-side comparative functional and molecular analyses were performed either in vitro or in vivo on these cells versus their classical growth factor (GF)-dependent counterpart (D-GSCs) as well as their tissue of origin. This was performed to pinpoint the inherent GSCs’ critical regulators, with particular emphasis on those involved in spreading and tumorigenic potential. Transcriptomic fingerprints were pointed out by ANOVA with Benjamini-Hochberg False Discovery Rate (FDR) and association of copy number alterations or somatic mutations was determined by comparing each subgroup with a two-tailed Fisher’s exact test. The combined effects of interacting in vitro and in vivo with two emerging GSCs’ key regulators, such as Wnt5a and EphA2, were then predicted under in vivo experimental settings that are conducive to clinical applications. In vivo comparisons were carried out in mouse-human xenografts GBM model by a hierarchical linear model for repeated measurements and Dunnett’s multiple comparison test with the distribution of survival compared by Kaplan–Meier method. R

Published

2022

35. AQP4-dependent glioma cell features affect the phenotype of surrounding cells via extracellular vesicles

Author

Simone, L, Pisani, F, Binda, E, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Binda E., Frigeri A., Vescovi A. L., Svelto M., Nicchia G. P., Simone, L, Pisani, F, Binda, E, Frigeri, A, Vescovi, A, Svelto, M, Nicchia, G, Simone L., Pisani F., Binda E., Frigeri A., Vescovi A. L., Svelto M., and Nicchia G. P.

Abstract

Background: Extracellular vesicles (EVs) are membrane-enclosed particles released systemically by all cells, including tumours. Tumour EVs have been shown to manipulate their local environments as well as distal targets to sustain the tumour in a variety of tumours, including glioblastoma (GBM). We have previously demonstrated the dual role of the glial water channel aquaporin-4 (AQP4) protein in glioma progression or suppression depending on its aggregation state. However, its possible role in communication mechanisms in the microenvironment of malignant gliomas remains to be unveiled. Results: Here we show that in GBM cells AQP4 is released via EVs that are able to affect the GBM microenvironment. To explore this role, EVs derived from invasive GBM cells expressing AQP4-tetramers or apoptotic GBM cells expressing orthogonal arrays of particles (AQP4-OAPs) were isolated, using a differential ultracentrifugation method, and were added to pre-seeded GBM cells. Confocal microscopy analysis was used to visualize the interaction and uptake of AQP4-containing EVs by recipient cells. Chemoinvasion and Caspase3/7 activation assay, performed on recipient cells after EVs uptake, revealed that EVs produced by AQP4-tetramers expressing cells were able to drive surrounding tumour cells toward the migratory phenotype, whereas EVs produced by AQP4-OAPs expressing cells drive them toward the apoptosis pathway. Conclusion: This study demonstrates that the different GBM cell phenotypes can be transferred by AQP4-containing EVs able to influence tumour cell fate toward invasiveness or apoptosis. This study opens a new perspective on the role of AQP4 in the brain tumour microenvironment associated with the EV-dependent communication mechanism.

Published

2022

36. 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

37. Induced pluripotent stem cells for modeling Smith-Magenis syndrome

Author

Birbrair, A, Pennuto, M, Sireno, L, Turco, E, Rosati, J, Vescovi, A, Bernardini, L, Onesimo, R, Leoni, C, Zampino, G, Pennuto M., Sireno L., Turco E. M., Rosati J., Vescovi A. L., Bernardini L., Onesimo R., Leoni C., Zampino G., Birbrair, A, Pennuto, M, Sireno, L, Turco, E, Rosati, J, Vescovi, A, Bernardini, L, Onesimo, R, Leoni, C, Zampino, G, Pennuto M., Sireno L., Turco E. M., Rosati J., Vescovi A. L., Bernardini L., Onesimo R., Leoni C., and Zampino G.

Abstract

Smith-Magenis syndrome (SMS) is a genetic neurodevelopmental disease characterized by neurological, psychiatric, anatomical, and motor symptoms. The disease is caused by deletions on chromosome 17p11.2, which may lead to the loss of up to 95 genes, depending on the length of the chromosomal rearrangement. One of these genes is retinoic acid-induced 1 (RAI1). Evidence that loss of RAI1 is responsible for several clinical manifestations of SMS came with the identification of patients carrying point mutations in this gene and presenting a phenotype overlapping with SMS. Rather, disease severity and some clinical presentations are associated with loss of genes other than RAI1. SMS patients are typically heterozygous for the mutation (RAI1 mutations and chromosomal deletions), indicating that loss of one functional allele of RAI1 is sufficient to cause disease. Interestingly, duplications of the same chromosomal region cause another neurodevelopmental disease with similar clinical manifestations, thus indicating that RAI1 (and possibly other genes nearby) are dosage-sensitive genes. RAI1 is a polyglutamine- and polyserine-containing factor induced by retinoic acid and with nuclear localization. However, its function in physiological conditions and how its haploinsufficiency causes SMS is not known. Here, we will review several aspects related to SMS, from diagnosis to clinical presentation. Moreover, we analyze in detail what is known about the RAI1 isoforms, expression pattern, native function, and the impact of different types of mutations (deletions, frameshift mutations that generate premature stop codons, and missense mutations that result in the production of the full-length protein). Finally, we review the animal and cell models available to date, focusing on those based on the immortalized pluripotent technology. These patient-derived cells allow replicate in a dish an otherwise irreproducible condition, which takes into account the genetic variability of patient

Published

2022

38. 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

39. Retinoic acid-induced 1 gene haploinsufficiency alters lipid metabolism and causes autophagy defects in Smith-Magenis syndrome

Author

Turco, E, Giovenale, A, Sireno, L, Mazzoni, M, Cammareri, A, Marchioretti, C, Goracci, L, Di Veroli, A, Marchesan, E, D'Andrea, D, Falconieri, A, Torres, B, Bernardini, L, Magnifico, M, Paone, A, Rinaldo, S, Della Monica, M, D'Arrigo, S, Postorivo, D, Nardone, A, Zampino, G, Onesimo, R, Leoni, C, Caicci, F, Raimondo, D, Binda, E, Trobiani, L, De Jaco, A, Tata, A, Ferrari, D, Cutruzzola, F, Mazzoccoli, G, Ziviani, E, Pennuto, M, Vescovi, A, Rosati, J, Turco E. M., Giovenale A. M. G., Sireno L., Mazzoni M., Cammareri A., Marchioretti C., Goracci L., Di Veroli A., Marchesan E., D'Andrea D., Falconieri A., Torres B., Bernardini L., Magnifico M. C., Paone A., Rinaldo S., Della Monica M., D'Arrigo S., Postorivo D., Nardone A. M., Zampino G., Onesimo R., Leoni C., Caicci F., Raimondo D., Binda E., Trobiani L., De Jaco A., Tata A. M., Ferrari D., Cutruzzola F., Mazzoccoli G., Ziviani E., Pennuto M., Vescovi A. L., Rosati J., Turco, E, Giovenale, A, Sireno, L, Mazzoni, M, Cammareri, A, Marchioretti, C, Goracci, L, Di Veroli, A, Marchesan, E, D'Andrea, D, Falconieri, A, Torres, B, Bernardini, L, Magnifico, M, Paone, A, Rinaldo, S, Della Monica, M, D'Arrigo, S, Postorivo, D, Nardone, A, Zampino, G, Onesimo, R, Leoni, C, Caicci, F, Raimondo, D, Binda, E, Trobiani, L, De Jaco, A, Tata, A, Ferrari, D, Cutruzzola, F, Mazzoccoli, G, Ziviani, E, Pennuto, M, Vescovi, A, Rosati, J, Turco E. M., Giovenale A. M. G., Sireno L., Mazzoni M., Cammareri A., Marchioretti C., Goracci L., Di Veroli A., Marchesan E., D'Andrea D., Falconieri A., Torres B., Bernardini L., Magnifico M. C., Paone A., Rinaldo S., Della Monica M., D'Arrigo S., Postorivo D., Nardone A. M., Zampino G., Onesimo R., Leoni C., Caicci F., Raimondo D., Binda E., Trobiani L., De Jaco A., Tata A. M., Ferrari D., Cutruzzola F., Mazzoccoli G., Ziviani E., Pennuto M., Vescovi A. L., and Rosati J.

Abstract

Smith-Magenis syndrome (SMS) is a neurodevelopmental disorder characterized by cognitive and behavioral symptoms, obesity, and sleep disturbance, and no therapy has been developed to alleviate its symptoms or delay disease onset. SMS occurs due to haploinsufficiency of the retinoic acid-induced-1 (RAI1) gene caused by either chromosomal deletion (SMS-del) or RAI1 missense/nonsense mutation. The molecular mechanisms underlying SMS are unknown. Here, we generated and characterized primary cells derived from four SMS patients (two with SMS-del and two carrying RAI1 point mutations) and four control subjects to investigate the pathogenetic processes underlying SMS. By combining transcriptomic and lipidomic analyses, we found altered expression of lipid and lysosomal genes, deregulation of lipid metabolism, accumulation of lipid droplets, and blocked autophagic flux. We also found that SMS cells exhibited increased cell death associated with the mitochondrial pathology and the production of reactive oxygen species. Treatment with N-acetylcysteine reduced cell death and lipid accumulation, which suggests a causative link between metabolic dyshomeostasis and cell viability. Our results highlight the pathological processes in human SMS cells involving lipid metabolism, autophagy defects and mitochondrial dysfunction and suggest new potential therapeutic targets for patient treatment.

Published

2022

40. 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

41. 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

42. Induced pluripotent stem cells for modeling Smith-Magenis syndrome

Author

Pennuto, M., Sireno, L., Turco, E. M., Rosati, J., Vescovi, A. L., Bernardini, L., Onesimo, R., Leoni, C., and Zampino, G.

Published

2022

43. Additional file 1 of Growth factor independence underpins a paroxysmal, aggressive Wnt5aHigh/EphA2Low phenotype in glioblastoma stem cells, conducive to experimental combinatorial therapy

Author

Trivieri, Nadia, Visioli, Alberto, Mencarelli, Gandino, Cariglia, Maria Grazia, Marongiu, Laura, Pracella, Riccardo, Giani, Fabrizio, Soriano, Amata Amy, Barile, Chiara, Cajola, Laura, Copetti, Massimiliano, Palumbo, Orazio, Legnani, Federico, DiMeco, Francesco, Gorgoglione, Leonardo, Vescovi, Angelo L., and Binda, Elena

Subjects

Data_FILES

Abstract

Additional file 1.

Published

2022

44. Additional file 2 of Growth factor independence underpins a paroxysmal, aggressive Wnt5aHigh/EphA2Low phenotype in glioblastoma stem cells, conducive to experimental combinatorial therapy

Author

Trivieri, Nadia, Visioli, Alberto, Mencarelli, Gandino, Cariglia, Maria Grazia, Marongiu, Laura, Pracella, Riccardo, Giani, Fabrizio, Soriano, Amata Amy, Barile, Chiara, Cajola, Laura, Copetti, Massimiliano, Palumbo, Orazio, Legnani, Federico, DiMeco, Francesco, Gorgoglione, Leonardo, Vescovi, Angelo L., and Binda, Elena

Subjects

Data_FILES

Abstract

Additional file 2.

Published

2022

45. Functional outcomes of copy number variations of Chrna7 gene: Current knowledge and new insight from induced pluripotent stem cells studies

Author

Ferrari D., D'Anzi A., Casamassa A., Bernardini L., Tata A. M., Vescovi A. L., Rosati J., Birbrair, A, Ferrari, D, D'Anzi, A, Casamassa, A, Bernardini, L, Tata, A, Vescovi, A, and Rosati, J

Subjects

Copynumber variation, Epilepsy, Induced pluripotent stem cell, CNV, NAChR, BIO/13 - BIOLOGIA APPLICATA, Neurodevelopmental disease, Alpha7 nicotinic acetylcholine receptor, CHRNA7, Microduplication, NAHR, IPSC, Neural stem cell, Schizophrenia, Microdeletion, Neuropsychiatric disease

Abstract

The discovery of genomic rearrangements, known as copy number variations (CNVs), is relatively new; their contribution to genetic heterogeneity and their impact on human diseases is still largely unknown. CNVs within the human 15q13.3 region have been associated with neuropsychiatric and neurodevelopmental disorders such as schizophrenia, autism spectrum disorders (ASD), intellectual disability, and epilepsy. Several recent studies suggest that, within this chromosomic region, the gene CHRNA7, encoding for the human alfa7 subunit of the nicotinic acetylcholine receptor, plays a major role in the observed pathological phenotypes. Consistently, patients carrying deletions or duplications of CHRNA7 present symptoms comparable to patients with a larger 1.5. Mb deletion of the 15q13.3 region. The penetrance of CHRNA7 CNVs is variable, and the exact pathogenic mechanisms are currently being elucidated.In this chapter, we have critically reviewed all up-to-date studies regarding the functional outcomes of CNVs involving the alpha7-nicontinic receptor (α7nAChR), highlighting the advantages and disadvantages of the methodologies and models utilized. We have described the structure, functionality, and physiological role of the α7nAChR, analyzing the mechanisms that determine the occurrence of CNVs and the clinical features of patients carrying CNRNA7 CNVs. We have examined and compared the mice models used to study the role of these CNVs and the new human model of induced pluripotent stem cells, which is proving very useful in clarifying the clinical and phenotypic features pertaining specifically to humans.

Published

2022

46. Storage of Mutant Human SOD1 in Non-Neural Cells from the Type-1 Amyotrophic Lateral Sclerosis ratG93A Model Correlated with the Lysosomes’ Dysfunction

Author

Bicchi, Ilaria, primary, Morena, Francesco, additional, Argentati, Chiara, additional, Nodari, Laura Rota, additional, Emiliani, Carla, additional, Gelati, Maurizio, additional, Vescovi, Angelo L., additional, and Martino, Sabata, additional

Published

2021

47. Glioma stem cells: turpis omen in nomen? (the evil in the name?)

Author

Binda, E., Reynolds, B. A., and Vescovi, A. L.

Published

2014

48. Brain cancer stem cells

Author

Piccirillo, Sara G. M., Binda, Elena, Fiocco, Roberta, Vescovi, Angelo L., and Shah, Khalid

Published

2009

49. Distinct pools of cancer stem-like cells coexist within human glioblastomas and display different tumorigenicity and independent genomic evolution

Author

Piccirillo, S G M, Combi, R, Cajola, L, Patrizi, A, Redaelli, S, Bentivegna, A, Baronchelli, S, Maira, G, Pollo, B, Mangiola, A, DiMeco, F, Dalprà, L, and Vescovi, A L

Published

2009

50. Covid-19 specific immune markers revealed by single cell phenotypic profiling

Author

Sansico, F, Miroballo, M, Bianco, D, Tamiro, F, Colucci, M, De Santis, E, Rossi, G, Rosati, J, Di Mauro, L, Miscio, G, Mazza, T, Vescovi, A, Mazzoccoli, G, Giambra, V, Sansico F., Miroballo M., Bianco D. S., Tamiro F., Colucci M., De Santis E., Rossi G., Rosati J., Di Mauro L., Miscio G., Mazza T., Vescovi A. L., Mazzoccoli G., Giambra V., Sansico, F, Miroballo, M, Bianco, D, Tamiro, F, Colucci, M, De Santis, E, Rossi, G, Rosati, J, Di Mauro, L, Miscio, G, Mazza, T, Vescovi, A, Mazzoccoli, G, Giambra, V, Sansico F., Miroballo M., Bianco D. S., Tamiro F., Colucci M., De Santis E., Rossi G., Rosati J., Di Mauro L., Miscio G., Mazza T., Vescovi A. L., Mazzoccoli G., and Giambra V.

Abstract

COVID-19 is a viral infection, caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and characterized by a complex inflammatory process and clinical immunophe-notypes. Nowadays, several alterations of immune response within the respiratory tracts as well as at the level of the peripheral blood have been well documented. Nonetheless, their effects on COVID-19-related cell heterogeneity and disease progression are less defined. Here, we performed a single-cell RNA sequencing of about 400 transcripts relevant to immune cell function including surface markers, in mononuclear cells (PBMCs) from the peripheral blood of 50 subjects, infected with SARS-CoV-2 at the diagnosis and 27 healthy blood donors as control. We found that patients with COVID-19 exhibited an increase in COVID-specific surface markers in different subsets of immune cell composition. Interestingly, the expression of cell receptors, such as IFNGR1 and CXCR4, was reduced in response to the viral infection and associated with the inhibition of the related signaling pathways and immune functions. These results highlight novel immunoreceptors, selectively expressed in COVID-19 patients, which affect the immune functionality and are correlated with clinical outcomes.

Published

2021