Your search keyword '"Baricordi C"' showing total 26 results

1. Prognostic significance of miR-34a in Ewing sarcoma is associated with cyclin D1 and ki-67 expression

Author

Marino, M.T., Grilli, A., Baricordi, C., Manara, M.C., Ventura, S., Pinca, R.S., Bellenghi, M., Calvaruso, M., Mattia, G., Donati, D., Tripodo, C., Picci, P., Ferrari, S., and Scotlandi, K.

Published

2014

2. Comprehensive Clonal Mapping of Hematopoiesis in Vivo in Humans By Retroviral Vector Insertional Barcoding

Author

Biasco L, Scala S., Dionisio F., Calabria A., Basso Ricci L., Scaramuzza S., Baricordi C., Giannelli S., Neduva V. X., Dow D. J., Pellin D., Di Serio C., Montini E., Naldini L., Aiuti A., VICARD, Paola, Biasco, L, Scala, S., Dionisio, F., Calabria, A., Basso Ricci, L., Scaramuzza, S., Baricordi, C., Giannelli, S., Neduva, V. X., Dow, D. J., Pellin, D., Vicard, Paola, Di Serio, C., Montini, E., Naldini, L., and Aiuti, A.

Published

2014

3. Tracking the Fate and Activity of Individual HSC and Memory Stem T Cell Clones in GT Patients through Insertional Tagging

Author

Biasco L, Baricordi C, Cieri N, Bartholomae C, Calabria A, Brigida I, Fronza R, Pellin D, Di Serio C, Montini E, von Kalle C, Schmidt M, Aiuti A., BONINI , MARIA CHIARA, Biasco, L, Baricordi, C, Cieri, N, Bartholomae, C, Calabria, A, Brigida, I, Fronza, R, Pellin, D, Di Serio, C, Montini, E, Bonini, MARIA CHIARA, von Kalle, C, Schmidt, M, and Aiuti, A.

Published

2012

4. Tracking hematopoietic stem cell fate in humans by retroviral tagging

Author

Biasco, L., Baricordi, C., Dionisio, F., Bartholomae, C., Brigida, I., Scaramuzza, S., Fronza, R., Merella, S., Alessandro Ambrosi, Pellin, D., Di Serio, C., Montini, E., Kalle, C., Schmidt, M., Aiuti, A., Biasco, L, Baricordi, C, Dionisio, F, Bartholomae, C, Brigida, I, Scaramuzza, S, Fronza, R, Merella, S, Ambrosi, Alessandro, Pellin, D, DI SERIO, Mariaclelia, Montini, E, Von Kalle, C, Schmidt, M, and Aiuti, A.

Published

2011

5. Lentivirus-based Gene Therapy of Hematopoietic Stem Cells in Wiskott-Aldrich Syndrome

Author

Aiuti A, Biasco L, Scaramuzza S, Ferrua F, Cicalese M.P, Baricordi C, Dionisio F, Calabria A, Giannelli S, Castiello M.C, Bosticardo M, Evangelio C. , Assanelli A, Casiraghi M, Di Nunzio S, Callegaro L, Benati C, Rizzardi P, Pellin D, Di Serio C, Schmidt M, Von Kalle C, Gardner J, Mehta N, Neduva V, Dow D.J, Galy A, Miniero R, Finocchi A, Metin A, Banerjee P, Orange J, Galimberti S, Valsecchi M.G, Biffi A, Montini E, Villa A, Ciceri F, Roncarolo M.G, and Naldini L.

Published

2013

6. Lentiviral Hematopoietic Stem Cell Gene Therapy in Patients with Wiskott-Aldrich Syndrome

Author

Aiuti, A, Biasco, L, Scaramuzza, S, Ferrua, F, Cicalese, M, Baricordi, C, Dionisio, F, Calabria, A, Giannelli, S, Castiello, M, Bosticardo, M, Evangelio, C, Assanelli, A, Casiraghi, M, Di Nunzio, S, Callegaro, L, Benati, C, Rizzardi, P, Pellin, D, Di Serio, C, Schmidt, M, Von Kalle, C, Gardner, J, Mehta, N, Neduva, V, Dow, D, Galy, A, Miniero, R, Finocchi, A, Metin, A, Banerjee, P, Orange, J, Galimberti, S, Valsecchi, M, Biffi, A, Montini, E, Villa, A, Ciceri, F, Roncarolo, M, Naldini, L, GALIMBERTI, STEFANIA, VALSECCHI, MARIA GRAZIA, Naldini, L., Aiuti, A, Biasco, L, Scaramuzza, S, Ferrua, F, Cicalese, M, Baricordi, C, Dionisio, F, Calabria, A, Giannelli, S, Castiello, M, Bosticardo, M, Evangelio, C, Assanelli, A, Casiraghi, M, Di Nunzio, S, Callegaro, L, Benati, C, Rizzardi, P, Pellin, D, Di Serio, C, Schmidt, M, Von Kalle, C, Gardner, J, Mehta, N, Neduva, V, Dow, D, Galy, A, Miniero, R, Finocchi, A, Metin, A, Banerjee, P, Orange, J, Galimberti, S, Valsecchi, M, Biffi, A, Montini, E, Villa, A, Ciceri, F, Roncarolo, M, Naldini, L, GALIMBERTI, STEFANIA, VALSECCHI, MARIA GRAZIA, and Naldini, L.

Abstract

Wiskott-Aldrich syndrome (WAS) is an inherited immunodeficiency caused by mutations in the gene encoding WASP, a protein regulating the cytoskeleton. Hematopoietic stem/progenitor cell (HSPC) transplants can be curative but, when matched donors are unavailable, infusion of autologous HSPCs modified ex vivo by gene therapy is an alternative approach. We used a lentiviral vector encoding functional WASP to genetically correct HSPCs from three WAS patients and reinfused the cells after reduced-intensity conditioning regimen. All three patients showed stable engraftment of WASP-expressing cells and improvements in platelet counts, immune functions, and clinical score. Vector integration analyses revealed highly polyclonal and multilineage haematopoiesis resulting from the gene-corrected HSPCs. Lentiviral gene therapy did not induce selection of integrations near oncogenes, and no aberrant clonal expansion was observed after 20 to 32 months. Although extended clinical observation is required to establish long-term safety, lentiviral gene therapy represents a promising treatment for WAS

Published

2013

7. Uncovering haematopoietic system dynamics in gene therapy treated patients by retroviral tagging

Author

Biasco, L., Baricordi, C., Merella, S., Bartholomae, C., Alessandro Ambrosi, Pellin, D., Di Serio, C., Kalle, C., Schmidt, M., Aiuti, A., Biasco, L, Baricordi, C, Merella, S, Bartholomae, C, Ambrosi, Alessandro, Pellin, D, DI SERIO, Mariaclelia, Von Kalle, C, Schmidt, M, and Aiuti, Alessandro

8. Clonal tracking of engineered human hematopoiesis through integration sites analysis

Author

Scala, S., Pellin, D., Basso-Ricci, L., Dionisio, F., Baricordi, C., Leonardelli, L., Scaramuzza, S., Ferrua, F., Cicalese, M. P., Giannelli, S., Neduva, V., Dow, D. J., Roncarolo, M. G., Ciceri, F., Vicard, P., Wit, E., Di Serio, C., Bonini, C., Naldini, L., Aiuti, A., Biasco, L., and Stochastic Studies and Statistics

9. Retroviral Integrations in Gene Therapy Trials

Author

Luca Biasco, Cristina Baricordi, Alessandro Aiuti, Biasco, L, Baricordi, C, Aiuti, Alessandro, Biasco, Luca, and Baricordi, Cristina

Subjects

Genetic enhancement, Genome wide analysis, Review, Biology, Bioinformatics, Genetic therapy, Viral vector, Insertional mutagenesis, Vector integration, Genetic, Insertional, Drug Discovery, Genetics, Humans, In patient, Molecular Biology, Retroviridae, Genetic Therapy, Mutagenesis, Insertional, Settore MED/38 - Pediatria Generale e Specialistica, Pharmacology, Drug Discovery3003 Pharmaceutical Science, Clinical trial, Mutagenesis, Molecular Medicine, Human

Abstract

γ-Retroviral and lentiviral vectors allow the permanent integration of a therapeutic transgene in target cells and have provided in the last decade a delivery platform for several successful gene therapy (GT) clinical approaches. However, the occurrence of adverse events due to insertional mutagenesis in GT treated patients poses a strong challenge to the scientific community to identify the mechanisms at the basis of vector-driven genotoxicity. Along the last decade, the study of retroviral integration sites became a fundamental tool to monitor vector-host interaction in patients overtime. This review is aimed at critically revising the data derived from insertional profiling, with a particular focus on the evidences collected from GT clinical trials. We discuss the controversies and open issues associated to the interpretation of integration site analysis during patient's follow up, with an update on the latest results derived from the use of high-throughput technologies. Finally, we provide a perspective on the future technical development and on the application of these studies to address broader biological questions, from basic virology to human hematopoiesis. © The American Society of Gene & Cell Therapy.

Published

2012

10. In Vivo Tracking of Human Hematopoiesis Reveals Patterns of Clonal Dynamics during Early and Steady-State Reconstitution Phases

Author

Samantha Scaramuzza, Paola Vicard, Serena Scala, Francesca Ferrua, David J. Dow, Fabio Ciceri, Luca Biasco, Danilo Pellin, Ernst Wit, Luca Basso-Ricci, Clelia Di Serio, Alessandro Aiuti, Luigi Naldini, Maria Grazia Roncarolo, Maria Pia Cicalese, Lorena Leonardelli, Christof von Kalle, Stefania Giannelli, Victor Neduva, Cristina Baricordi, Francesca Dionisio, Manfred Schmidt, Biasco, L, Pellin, D, Scala, S, Dionisio, F, Basso-Ricci, L, Leonardelli, L, Scaramuzza, S, Baricordi, C, Ferrua, F, Cicalese, Mp, Giannelli, S, Neduva, V, Dow, Dj, Schmidt, M, Von Kalle, C, Roncarolo, Mg, Ciceri, F, Vicard, P, Wit, E, Di Serio, C, Naldini, L, Aiuti, A, Biasco, Luca, Pellin, Danilo, Scala, Serena, Dionisio, Francesca, Basso Ricci, Luca, Leonardelli, Lorena, Scaramuzza, Samantha, Baricordi, Cristina, Ferrua, Francesca, Cicalese, Maria Pia, Giannelli, Stefania, Neduva, Victor, Dow, David J., Schmidt, Manfred, Von Kalle, Christof, Roncarolo, Maria Grazia, Ciceri, Fabio, Vicard, Paola, Wit, Ernst, Di Serio, Clelia, Naldini, Luigi, Aiuti, Alessandro, Stochastic Studies and Statistics, Cicalese, MP, Dow, DJ, and Roncarolo, MG

Subjects

0301 basic medicine, Male, Time Factors, Wiskott–Aldrich syndrome, Genetic enhancement, Antigens, CD34, Biology, Viral vector, 03 medical and health sciences, 0302 clinical medicine, Short Article, medicine, Genetics, Humans, Cell Lineage, Progenitor cell, Cell Engineering, Progenitor, Multipotent Stem Cells, Infant, Genetic Therapy, Cell Biology, medicine.disease, Hematopoietic Stem Cells, 3. Good health, Cell biology, Clone Cells, Hematopoiesis, Wiskott-Aldrich Syndrome, Haematopoiesis, Mutagenesis, Insertional, 030104 developmental biology, medicine.anatomical_structure, Multipotent Stem Cell, Cell Tracking, 030220 oncology & carcinogenesis, Child, Preschool, Immunology, Molecular Medicine, Bone marrow

Abstract

Summary Hematopoietic stem/progenitor cells (HSPCs) are capable of supporting the lifelong production of blood cells exerting a wide spectrum of functions. Lentiviral vector HSPC gene therapy generates a human hematopoietic system stably marked at the clonal level by vector integration sites (ISs). Using IS analysis, we longitudinally tracked >89,000 clones from 15 distinct bone marrow and peripheral blood lineages purified up to 4 years after transplant in four Wiskott-Aldrich syndrome patients treated with HSPC gene therapy. We measured at the clonal level repopulating waves, populations' sizes and dynamics, activity of distinct HSPC subtypes, contribution of various progenitor classes during the early and late post-transplant phases, and hierarchical relationships among lineages. We discovered that in-vitro-manipulated HSPCs retain the ability to return to latency after transplant and can be physiologically reactivated, sustaining a stable hematopoietic output. This study constitutes in vivo comprehensive tracking in humans of hematopoietic clonal dynamics during the early and late post-transplant phases., Graphical Abstract, Highlights • Hematopoietic reconstitution occurs in two distinct clonal waves • A few thousand HSPC clones stably sustain multilineage blood cell production • Steady-state hematopoiesis after transplant is maintained by both HSCs and MPPs • Natural killer clones have closer relationships to myeloid cells than to lymphoid cells, Biasco et al. report a clonal tracking study on the dynamics and nature of hematopoietic reconstitution in humans after transplant. Using integration sites as molecular tags, they measured, in gene therapy patients, repopulating waves, population size and dynamics, activity of progenitor subtypes during the early and late post-transplant phases, and hierarchical relationships among lineages.

Published

2016

11. In vivo tracking of T cells in humans unveils decade-long survival and activity of genetically modified T memory stem cells

Author

Biasco, Luca, Scala, Serena, Basso Ricci, Luca, Dionisio, Francesca, Baricordi, Cristina, Calabria, Andrea, Giannelli, Stefania, Cieri, Nicoletta, Barzaghi, Federica, Pajno, Roberta, Al-Mousa, Hamoud, Scarselli, Alessia, Cancrini, Caterina, Bordignon, Claudio, Roncarolo, Maria Grazia, Montini, Eugenio, BONINI, CHIARA, Aiuti, Alessandro, Biasco, Luca, Scala, Serena, Basso Ricci, Luca, Dionisio, Francesca, Baricordi, Cristina, Calabria, Andrea, Giannelli, Stefania, Cieri, Nicoletta, Barzaghi, Federica, Pajno, Roberta, Al-Mousa, Hamoud, Scarselli, Alessia, Cancrini, Caterina, Bordignon, Claudio, Roncarolo, Maria Grazia, Montini, Eugenio, Bonini, Chiara, Aiuti, Alessandro, Biasco, L, Scala, S, Basso, Ricci L, Dionisio, F, Baricordi, C, Calabria, A, Giannelli, S, Cieri, N, Barzaghi, F, Pajno, R, Al-Mousa, H, Scarselli, A, Cancrini, C, Bordignon, C, Roncarolo, M G, Montini, E, Bonini, C, and Aiuti, A

Subjects

Time Factors, T-Lymphocytes, Genetic enhancement, Cell, Longitudinal Studie, Biochemistry, Longitudinal Studies, Child, Medicine (all), Hematology, General Medicine, Phenotype, Tissue Donors, Haematopoiesis, Settore MED/02, medicine.anatomical_structure, Cell Tracking, Tetradecanoylphorbol Acetate, Stem cell, Genetic Engineering, Human, Adult, Time Factor, Cell Survival, T cell, Immunology, Tissue Donor, Biology, Viral vector, Clone Cell, In vivo, medicine, Humans, Severe combined immunodeficiency, Hematopoietic Stem Cell, Cell Biology, Genetic Therapy, Hematopoietic Stem Cells, medicine.disease, Lymphocyte Subsets, In vitro, Clone Cells, T-Lymphocyte, Lymphocyte Subset, Cancer research, Interleukin-2, T memory stem cells, Bone marrow, Immunologic Memory, Ex vivo

Abstract

A deeper understanding of T lymphocytes survival and differentiation potential in humans is paramount for the development of effective gene/cell therapies based on T-cell engineering. We here performed a comprehensive study of T-cells dynamics and plasticity in humans by a unique combination of phenotypic/functional studies and high-throughput integration sites (IS) analyses. We analyzed samples from hematopoietic stem cells (HSC) (n=10) or mature lymphocytes (PBL) gene therapy (GT) (n=4) treated ADA (adenosine deaminase) deficient-SCID patients. For comparative analyses, we also collected data from pediatric (n=19) and adult (n=52) healthy donors (HD), and from bone marrow transplanted patients (BMT) with primary immunodeficiencies (n=10, 4 with ADA-SCID). We observed that vector-positive CD62L+/CD45RA+ putative T naïve cells were detectable 12 years after last infusion of gene-corrected lymphocytes in peripheral blood of PBL-GT patients that lack the support of transduced lymphocytes precursors. We then unveiled that the vast majority of these CD62L+/CD45RA+ cells (80.3%) in PBL-GT patients could be actually classified phenotypically (CD95, IL2Rβ and IL7Rα surface expression) and functionally (IFNγ production and aCD3/aCD28 in vitro differentiation) as active long-lasting T memory stem cells (Tscm). The peculiar Tscm frequency found in PBL-GT patients was most likely due to a combinatorial in vitro and in vivo effect. Indeed, by a series of in vitro assays, we showed that Tscm relative enrichment in CD45RA+CD62L+ compartment have occurred during the in vitro manipulation of T cells before infusion. Additionally, we found higher-then-normal Tscm contribution among CD45RA+/CD62L+ cells even in ADA-SCID patients receiving HSC-GT and BMT, suggesting a role of disease background on in vivo Tscm persistence. Analyzing our cohorts of healthy donors and treated individuals we were able to further correlate Tscm contribution in vivo with age, conditioning regimen, disease background, cell source, and long-term T-cell reconstitution. One unique aspect of our study consisted in the opportunity to track Tscm clonal dynamics in vivo in humans since each gene-corrected cell infused in our GT patients is univocally and permanently tagged by a retroviral integration site.To perform in vivo molecular tracing of individual T-cell clones we sorted T naïve, Tscm, central memory and effector memory subtypes. We then collected from these subpopulations, by LAM-PCR+Illumina-Miseq sequencing, 2.584.137 integration sites (IS) sequences mapped to 1.746 unique chromosomal positions, corresponding to 910 integrations from 5 HSC-GT patients in vivo, 79 integrations from 2 PBL-GT samples of transduced cell products prior to infusion and 754 integrations from 4 PBL-GT patients in vivo. Firstly, to establish a relationship between precursors and terminally differentiated T cells we searched for the presence of identical insertion sites detected in multiple T-cell subtypes, applying stringent analytical filters for cross-contaminations. Strikingly, the level of shared integrations in each subtype was directly correlated to its stage of differentiation with Tscm, isolated from PBL-GT patients, showing the highest proportion of integration sites shared with the other T-cell subsets. Importantly, the results of the same analysis performed on HSC-GT patients were outstandingly coherent with the progressive developmental model of memory T-cell differentiation. We then assessed the survival of individual Tscm clones by performing a longitudinal IS analysis of different T-cell subtypes isolated from 3 PBL-GT patients over a 2 to 5 years timeframe up to 12 years after last infusion. We were able to formally prove the persistence of individual Tscm by re-capturing identical IS tagging specific Tscm clones in two independent timepoints in a 5- years window. Importantly, the same IS were also detected in multiple T-cell subtypes, representing the best indirect evidence that these clones were endowed with long-term precursor activity. We also documented, by IS sequencing reads, the long-term polyclonal composition of each subtype and we did not observe enrichment for IS flanking proto-oncogenes. Overall, this study validates, for the first time in humans, the safe and functional decade-long survival of engineered Tscm, paving the way for their future application in clinical settings. Disclosures No relevant conflicts of interest to declare.

Published

2015

12. Prognostic significance of miR-34a in Ewing sarcoma is associated with cyclin D1 and ki-67 expression

Author

Gianfranco Mattia, Silvia Ferrari, Marco Calvaruso, Katia Scotlandi, Cristina Baricordi, Rosa Simona Pinca, M.C. Manara, Claudio Tripodo, Selena Ventura, Davide Maria Donati, Andrea Grilli, Maria Bellenghi, Piero Picci, Mirella Marino, Marino, M., Grilli, A., Baricordi, C., Manara, M., Ventura, S., Pinca, R., Bellenghi, M., Calvaruso, M., Mattia, G., Donati, D., Tripodo, C., Picci, P., Ferrari, S., Scotlandi, K., Marino, M.T., Manara, M.C., and Pinca, R.S.

Subjects

Adult, Male, Prognosi, Hydro-Lyase, medicine.medical_treatment, Sarcoma, Ewing, Disease-Free Survival, Cyclin D1, medicine, Humans, Neoplasm Metastasis, prognostic biomarker, Neoadjuvant therapy, Hydro-Lyases, Aged, 80 and over, Tissue microarray, biology, business.industry, Proportional hazards model, Medicine (all), Ewing's sarcoma, MicroRNA, Hematology, Middle Aged, medicine.disease, Prognosis, Neoadjuvant Therapy, Neoplasm Metastasi, Gene Expression Regulation, Neoplastic, MicroRNAs, Ki-67 Antigen, Treatment Outcome, Oncology, Drug Resistance, Neoplasm, Ki-67, biology.protein, Cancer research, Immunohistochemistry, Female, Sarcoma, cyclin D1, Ewing sarcoma, miR-34a, prognostic biomarkers, business, Human

Abstract

Background At diagnosis, identification of reliable biological indicators of prognosis to allow stratification of patients according to different risks is an important but still unresolved aspect in the treatment of Ewing sarcoma (EWS) patients. This study aimed to explore the role of miR-34A expression on prognosis of EWS patients. Patients and methods Specimens from 109 patients with non-metastatic EWS treated at the Rizzoli Institute with neoadjuvant chemotherapy (protocols ISG/SSGIII, EW-1, EW-2, EW-REN2, EW-REN3, EW-PILOT) and 17 metastases were studied. Sixty-eight patients (62%) remained disease-free and 41 (38%) relapsed (median follow-up: 67 months, range 9–241 months). Expression of miR-34a and of some of its targets (cyclin D1, bcl-2, SIRT1 and YY1) was evaluated by qRT-PCR using TaqMan MicroRNA Assays and/or by immunohistochemistry on tissue microarrays from the same patients. Results High expression of miR-34a in localized tumors was significantly related to better event-free and overall survival (P = 0.004). Relevance of miR-34a was confirmed by using different calibrators (normal mesenchymal stem cells and different normal tissues). By multivariate Cox regression analysis, low miR-34a expression as well as nontotal necrosis and high levels of lactate dehydrogenase were all confirmed as independent risk factors associated with poor outcome. Expression of miR-34a was lower in metastases than in primary tumors. It inversely correlated with expression of cyclin D1 and Ki-67. Conclusions By demonstrating its relationship with clinical outcome, we propose evaluation of miR-34a at diagnosis of EWS patients to allow early risk stratification. Validation of these results would nonetheless ultimately need a prospective assessment.

Published

2014

13. Lentiviral hematopoietic stem cell gene therapy in patients with Wiskott-Aldrich syndrome

Author

Maria Grazia Valsecchi, Fabio Ciceri, Jason P. Gardner, Anne Galy, Andrea Finocchi, Clelia Di Serio, Anna Villa, Alessandro Aiuti, Danilo Pellin, Paolo Rizzardi, David J. Dow, Marita Bosticardo, Jordan S. Orange, Maria Pia Cicalese, Stefania Giannelli, Pinaki P. Banerjee, Maria Grazia Roncarolo, Luigi Naldini, Victor Neduva, Luca Biasco, Ayse Metin, Roberto Miniero, Alessandra Biffi, Francesca Ferrua, Stefania Galimberti, Manfred G. Schmidt, Samantha Scaramuzza, Sara Di Nunzio, Maria Carmina Castiello, Miriam Casiraghi, Francesca Dionisio, Luciano Callegaro, Cristina Baricordi, Andrea Assanelli, Nalini Mehta, Eugenio Montini, Andrea Calabria, Claudia Benati, Christof von Kalle, Costanza Evangelio, Aiuti, Alessandro, Biasco, L, Scaramuzza, S, Ferrua, F, Cicalese, Mp, Baricordi, C, Dionisio, F, Calabria, A, Giannelli, S, Castiello, Mc, Bosticardo, M, Evangelio, C, Assanelli, A, Casiraghi, M, Di Nunzio, S, Callegaro, L, Benati, C, Rizzardi, P, Pellin, D, DI SERIO, Mariaclelia, Schmidt, M, Von Kalle, C, Gardner, J, Mehta, N, Neduva, V, Dow, Dj, Galy, A, Miniero, R, Finocchi, A, Metin, A, Banerjee, Pp, Orange, J, Galimberti, S, Valsecchi, Mg, Biffi, A, Montini, E, Villa, A, Ciceri, Fabio, Roncarolo, MARIA GRAZIA, Naldini, Luigi, IRCCS San Raffaele Scientific Institute [Milan, Italie], Hematology and BMT Unit, San Raffaele Scientific Institute, Unit of Lymphoid Malignancies, CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Immunologie moléculaire et biothérapies innovantes (IMBI), École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université d'Évry-Val-d'Essonne (UEVE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Généthon, Ospedale San Raffaele, École pratique des hautes études (EPHE), Biasco, Luca, Scaramuzza, Samantha, Ferrua, Francesca, Cicalese, Maria Pia, Baricordi, Cristina, Dionisio, Francesca, Calabria, Andrea, Giannelli, Stefania, Castiello, Maria Carmina, Bosticardo, Marita, Evangelio, Costanza, Assanelli, Andrea, Casiraghi, Miriam, Di Nunzio, Sara, Callegaro, Luciano, Benati, Claudia, Rizzardi, Paolo, Pellin, Danilo, Di Serio, Clelia, Schmidt, Manfred, Von Kalle, Christof, Gardner, Jason, Mehta, Nalini, Neduva, Victor, Dow, David J., Galy, Anne, Miniero, Roberto, Finocchi, Andrea, Metin, Ayse, Banerjee, Pinaki P., Orange, Jordan S., Galimberti, Stefania, Valsecchi, Maria Grazia, Biffi, Alessandra, Montini, Eugenio, Villa, Anna, Roncarolo, Maria Grazia, Aiuti, A, Cicalese, M, Castiello, M, Di Serio, C, Dow, D, Banerjee, P, Valsecchi, M, Ciceri, F, Roncarolo, M, Naldini, L, and Généthon

Subjects

Male, Wiskott–Aldrich syndrome, medicine.medical_treatment, Genetic enhancement, Hematopoietic Stem Cells/*metabolism, [SDV]Life Sciences [q-bio], Hematopoietic stem cell transplantation, Genetic Therapy/*methods, 0302 clinical medicine, Transduction, Genetic, Child, 0303 health sciences, Multidisciplinary, biology, Wiskott–Aldrich syndrome protein, Hematopoietic Stem Cell Transplantation, Hematopoietic stem cell, Gene Therapy, 3. Good health, Wiskott-Aldrich Syndrome, Haematopoiesis, medicine.anatomical_structure, 030220 oncology & carcinogenesis, [SDV.IMM]Life Sciences [q-bio]/Immunology, Genetic Vector, Wiskott-Aldrich Syndrome Protein, Human, Virus Integration, Genetic Vectors, Wiskott-Aldrich Syndrome/*therapy, Wiskott-Aldrich Syndrome Protein/*genetics, Lentiviru, Viral vector, 03 medical and health sciences, Transduction, Genetic, medicine, Humans, Progenitor cell, 030304 developmental biology, Settore MED/38 - Pediatria Generale e Specialistica, business.industry, Lentivirus, Hematopoietic Stem Cell, Genetic Therapy, medicine.disease, Hematopoietic Stem Cells, Immunology, biology.protein, business

Abstract

Next-Generation Gene Therapy Few disciplines in contemporary clinical research have experienced the high expectations directed at the gene therapy field. However, gene therapy has been challenging to translate to the clinic, often because the therapeutic gene is expressed at insufficient levels in the patient or because the gene delivery vector integrates near protooncogenes, which can cause leukemia (see the Perspective by Verma ). Biffi et al. ( 1233158 , published online 11 July) and Aiuti et al. ( 1233151 ; published online 11 July) report progress on both fronts in gene therapy trials of three patients with metachromatic leukodystrophy (MLD), a neurodegenerative disorder, and three patients with Wiskott-Aldrich syndrome (WAS), an immunodeficiency disorder. Optimized lentiviral vectors were used to introduce functional MLD or WAS genes into the patients' hematopoietic stem cells (HSCs) ex vivo, and the transduced cells were then infused back into the patients, who were then monitored for up to 2 years. In both trials, the patients showed stable engraftment of the transduced HSC and high expression levels of functional MLD or WAS genes. Encouragingly, there was no evidence of lentiviral vector integration near proto-oncogenes, and the gene therapy treatment halted disease progression in most patients. A longer follow-up period will be needed to further validate efficacy and safety.

Published

2013

14. Tracking individual hematopoietic stem cell activity in vivo in humans through integration site barcoding

Author

L Biasco, F Dionisio, A Calabria, S Scala, C Baricordi, L Basso Ricci, S Scaramuzza, S Giannelli, D Pellin, Di Serio M, P Vicard, AM Klein, C Von Kalle, M Schmidt, L Naldini, E Montini, A Aiuti, Biasco, L, Dionisio, F, Calabria, A, Scala, S, Baricordi, C, L Basso Ricci, Scaramuzza, S, Giannelli, S, Pellin, D, Di Serio, M, Vicard, P, Klein, Am, C Von Kalle, Schmidt, M, Naldini, L, Montini, E, and Aiuti, A

Published

2013

15. Preclinical lentiviral hematopoietic stem cell gene therapy corrects Pompe disease-related muscle and neurological manifestations.

Author

Yoon JK, Schindler JW, Loperfido M, Baricordi C, DeAndrade MP, Jacobs ME, Treleaven C, Plasschaert RN, Yan A, Barese CN, Dogan Y, Chen VP, Fiorini C, Hull F, Barbarossa L, Unnisa Z, Ivanov D, Kutner RH, Guda S, Oborski C, Maiwald T, Michaud V, Rothe M, Schambach A, Pfeifer R, Mason C, Biasco L, and van Til NP

Subjects

Animals, Mice, Humans, Glycogen Storage Disease Type II therapy, Glycogen Storage Disease Type II genetics, Lentivirus genetics, Genetic Therapy methods, Genetic Vectors administration & dosage, Genetic Vectors genetics, Disease Models, Animal, Hematopoietic Stem Cell Transplantation methods, Hematopoietic Stem Cells metabolism, Muscle, Skeletal metabolism, alpha-Glucosidases genetics, alpha-Glucosidases metabolism

Abstract

Pompe disease, a rare genetic neuromuscular disorder, is caused by a deficiency of acid alpha-glucosidase (GAA), leading to an accumulation of glycogen in lysosomes, and resulting in the progressive development of muscle weakness. The current standard treatment, enzyme replacement therapy (ERT), is not curative and has limitations such as poor penetration into skeletal muscle and both the central and peripheral nervous systems, a risk of immune responses against the recombinant enzyme, and the requirement for high doses and frequent infusions. To overcome these limitations, lentiviral vector-mediated hematopoietic stem and progenitor cell (HSPC) gene therapy has been proposed as a next-generation approach for treating Pompe disease. This study demonstrates the potential of lentiviral HSPC gene therapy to reverse the pathological effects of Pompe disease in a preclinical mouse model. It includes a comprehensive safety assessment via integration site analysis, along with single-cell RNA sequencing analysis of central nervous tissue samples to gain insights into the underlying mechanisms of phenotype correction., Competing Interests: Declaration of interests All authors were former employees of AVROBIO, Inc., Cambridge, MA, USA during the conception and writing of the manuscript, except V.M., M.R., and A.S. N.P.v.T. and C.M. are inventors on patents in the field of HSC gene therapy. AVROBIO, Inc., has a preclinical gene therapy program for Pompe disease (AVR-RD-03) based on a genetically modified HSPC platform using lentiviral vectors. Collection of data and analysis was performed as part of the program. This research received no external funding and was sponsored by AVROBIO, Inc., (Copyright © 2024 The American Society of Gene and Cell Therapy. Published by Elsevier Inc. All rights reserved.)

Published

2024

16. IS-Seq: a bioinformatics pipeline for integration sites analysis with comprehensive abundance quantification methods.

Author

Yan A, Baricordi C, Nguyen Q, Barbarossa L, Loperfido M, and Biasco L

Subjects

Sequence Analysis, DNA, Genetic Vectors, High-Throughput Nucleotide Sequencing methods, Computational Biology

Abstract

Background: Integration site (IS) analysis is a fundamental analytical platform for evaluating the safety and efficacy of viral vector based preclinical and clinical Gene Therapy (GT). A handful of groups have developed standardized bioinformatics pipelines to process IS sequencing data, to generate reports, and/or to perform comparative studies across different GT trials. Keeping up with the technological advances in the field of IS analysis, different computational pipelines have been published over the past decade. These pipelines focus on identifying IS from single-read sequencing or paired-end sequencing data either using read-based or using sonication fragment-based methods, but there is a lack of a bioinformatics tool that automatically includes unique molecular identifiers (UMI) for IS abundance estimations and allows comparing multiple quantification methods in one integrated pipeline., Results: Here we present IS-Seq a bioinformatics pipeline that can process data from paired-end sequencing of both old restriction sites-based IS collection methods and new sonication-based IS retrieval systems while allowing the selection of different abundance estimation methods, including read-based, Fragment-based and UMI-based systems., Conclusions: We validated the performance of IS-Seq by testing it against the most popular  analytical workflow available in the literature (INSPIIRED) and using different scenarios. Lastly, by performing extensive simulation studies and a comprehensive wet-lab assessment of our IS-Seq pipeline we could show that in clinically relevant scenarios, UMI quantification provides better accuracy than the currently most widely used sonication fragment counts as a method for IS abundance estimation., (© 2023. The Author(s).)

Published

2023

17. High-throughput analysis of hematopoietic stem cell engraftment after intravenous and intracerebroventricular dosing.

Author

Plasschaert RN, DeAndrade MP, Hull F, Nguyen Q, Peterson T, Yan A, Loperfido M, Baricordi C, Barbarossa L, Yoon JK, Dogan Y, Unnisa Z, Schindler JW, van Til NP, Biasco L, and Mason C

Subjects

Animals, Genetic Engineering, Genetic Therapy, Hematopoietic Stem Cells metabolism, Mice, Tissue Distribution, Hematopoietic Stem Cell Transplantation

Abstract

Hematopoietic stem/progenitor cell gene therapy (HSPC-GT) has shown clear neurological benefit in rare diseases, which is achieved through the engraftment of genetically modified microglia-like cells (MLCs) in the brain. Still, the engraftment dynamics and the nature of engineered MLCs, as well as their potential use in common neurogenerative diseases, have remained largely unexplored. Here, we comprehensively characterized how different routes of administration affect the biodistribution of genetically engineered MLCs and other HSPC derivatives in mice. We generated a high-resolution single-cell transcriptional map of MLCs and discovered that they could clearly be distinguished from macrophages as well as from resident microglia by the expression of a specific gene signature that is reflective of their HSPC ontogeny and irrespective of their long-term engraftment history. Lastly, using murine models of Parkinson's disease and frontotemporal dementia, we demonstrated that MLCs can deliver therapeutically relevant levels of transgenic protein to the brain, thereby opening avenues for the clinical translation of HSPC-GT to the treatment of major neurological diseases., Competing Interests: Declaration of interests All authors are current employees of AVROBIO, Inc., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

18. Long-term lymphoid progenitors independently sustain naïve T and NK cell production in humans.

Author

Izotova N, Rivat C, Baricordi C, Blanco E, Pellin D, Watt E, Gkazi AS, Adams S, Gilmour K, Bayford J, Booth C, Gaspar HB, Thrasher AJ, and Biasco L

Subjects

B-Lymphocytes, Genetic Therapy methods, Hematopoietic Stem Cells, Humans, Interferon-gamma metabolism, Mutagenesis, Myeloid Cells physiology, Proto-Oncogenes genetics, Proto-Oncogenes physiology, Killer Cells, Natural physiology, Lymphocytes physiology, Lymphoid Progenitor Cells physiology, T-Lymphocytes physiology

Abstract

Our mathematical model of integration site data in clinical gene therapy supported the existence of long-term lymphoid progenitors capable of surviving independently from hematopoietic stem cells. To date, no experimental setting has been available to validate this prediction. We here report evidence of a population of lymphoid progenitors capable of independently maintaining T and NK cell production for 15 years in humans. The gene therapy patients of this study lack vector-positive myeloid/B cells indicating absence of engineered stem cells but retain gene marking in both T and NK. Decades after treatment, we can still detect and analyse transduced naïve T cells whose production is likely maintained by a population of long-term lymphoid progenitors. By tracking insertional clonal markers overtime, we suggest that these progenitors can support both T and NK cell production. Identification of these long-term lymphoid progenitors could be utilised for the development of next generation gene- and cancer-immunotherapies.

Published

2021

19. Circulating miR34a levels as a potential biomarker in the follow-up of Ewing sarcoma.

Author

Sciandra M, De Feo A, Parra A, Landuzzi L, Lollini PL, Manara MC, Mattia G, Pontecorvi G, Baricordi C, Guerzoni C, Bazzocchi A, Longhi A, and Scotlandi K

Abstract

Appropriate tools for monitoring sarcoma progression are still limited. The aim of the present study was to investigate the value of miR-34a-5p (miR34a) as a circulating biomarker to follow disease progression and measure the therapeutic response. Stable forced re-expression of miR34a in Ewing sarcoma (EWS) cells significantly limited tumor growth in mice. Absolute quantification of miR34a in the plasma of mice and 31 patients showed that high levels of this miRNA inversely correlated with tumor volume. In addition, miR34a expression was higher in the blood of localized EWS patients than in the blood of metastatic EWS patients. In 12 patients, we followed miR34a expression during preoperative chemotherapy. While there was no variation in the blood miR34a levels in metastatic patients at the time of diagnosis or after the last cycle of preoperative chemotherapy, there was an increase in the circulating miR34a levels in patients with localized tumors. The three patients with the highest fold-increase in the miR levels did not show evidence of metastasis. Although this analysis should be extended to a larger cohort of patients, these findings imply that detection of the miR34a levels in the blood of EWS patients may assist with the clinical management of EWS.

Published

2020

20. A comprehensive single cell transcriptional landscape of human hematopoietic progenitors.

Author

Pellin D, Loperfido M, Baricordi C, Wolock SL, Montepeloso A, Weinberg OK, Biffi A, Klein AM, and Biasco L

Subjects

Animals, Antigens, CD34 metabolism, Bone Marrow Cells, Cell Lineage, Endolyn metabolism, Gene Expression Profiling, Humans, Mice, Sequence Analysis, RNA, Single-Cell Analysis, Hematopoiesis genetics, Hematopoietic Stem Cells metabolism

Abstract

Hematopoietic Stem/Progenitor cells (HSPCs) are endowed with the role of maintaining a diverse pool of blood cells throughout the human life. Despite recent efforts, the nature of the early cell fate decisions remains contentious. Using single-cell RNA-Seq, we show that existing approaches to stratify bone marrow CD34+ cells reveal a hierarchically-structured transcriptional landscape of hematopoietic differentiation. Still, this landscape misses important early fate decisions. We here provide a broader transcriptional profiling of bone marrow lineage negative hematopoietic progenitors that recovers a key missing branchpoint into basophils and expands our understanding of the underlying structure of early adult human haematopoiesis. We also show that this map has strong similarities in topology and gene expression to that found in mouse. Finally, we identify the sialomucin CD164, as a reliable marker for the earliest branches of HSPCs specification and we showed how its use can foster the design of alternative transplantation cell products.

Published

2019

21. Highly efficient therapeutic gene editing of human hematopoietic stem cells.

Author

Wu Y, Zeng J, Roscoe BP, Liu P, Yao Q, Lazzarotto CR, Clement K, Cole MA, Luk K, Baricordi C, Shen AH, Ren C, Esrick EB, Manis JP, Dorfman DM, Williams DA, Biffi A, Brugnara C, Biasco L, Brendel C, Pinello L, Tsai SQ, Wolfe SA, and Bauer DE

Subjects

Amino Acid Sequence, Anemia, Sickle Cell blood, Anemia, Sickle Cell genetics, Anemia, Sickle Cell therapy, Base Sequence, CRISPR-Cas Systems, Carrier Proteins genetics, Enhancer Elements, Genetic, Erythroid Precursor Cells metabolism, Fetal Hemoglobin biosynthesis, Fetal Hemoglobin genetics, Hematopoietic Stem Cell Transplantation, Humans, INDEL Mutation, Nuclear Proteins genetics, RNA, Guide, CRISPR-Cas Systems genetics, Repressor Proteins, beta-Thalassemia blood, beta-Thalassemia genetics, beta-Thalassemia therapy, gamma-Globins biosynthesis, gamma-Globins genetics, Gene Editing methods, Hematopoietic Stem Cells metabolism

Abstract

Re-expression of the paralogous γ-globin genes (HBG1/2) could be a universal strategy to ameliorate the severe β-globin disorders sickle cell disease (SCD) and β-thalassemia by induction of fetal hemoglobin (HbF, α 2 γ 2 ) 1 . Previously, we and others have shown that core sequences at the BCL11A erythroid enhancer are required for repression of HbF in adult-stage erythroid cells but are dispensable in non-erythroid cells 2-6 . CRISPR-Cas9-mediated gene modification has demonstrated variable efficiency, specificity, and persistence in hematopoietic stem cells (HSCs). Here, we demonstrate that Cas9:sgRNA ribonucleoprotein (RNP)-mediated cleavage within a GATA1 binding site at the +58 BCL11A erythroid enhancer results in highly penetrant disruption of this motif, reduction of BCL11A expression, and induction of fetal γ-globin. We optimize conditions for selection-free on-target editing in patient-derived HSCs as a nearly complete reaction lacking detectable genotoxicity or deleterious impact on stem cell function. HSCs preferentially undergo non-homologous compared with microhomology-mediated end joining repair. Erythroid progeny of edited engrafting SCD HSCs express therapeutic levels of HbF and resist sickling, while those from patients with β-thalassemia show restored globin chain balance. Non-homologous end joining repair-based BCL11A enhancer editing approaching complete allelic disruption in HSCs is a practicable therapeutic strategy to produce durable HbF induction.

Published

2019

22. Successful hematopoietic stem cell mobilization and apheresis collection using plerixafor alone in sickle cell patients.

Author

Esrick EB, Manis JP, Daley H, Baricordi C, Trébéden-Negre H, Pierciey FJ, Armant M, Nikiforow S, Heeney MM, London WB, Biasco L, Asmal M, Williams DA, and Biffi A

Subjects

Adolescent, Adult, Benzylamines, Cyclams, Dose-Response Relationship, Drug, Genetic Therapy methods, Hematopoietic Stem Cells drug effects, Humans, Immunophenotyping, Peripheral Blood Stem Cell Transplantation methods, Pilot Projects, Young Adult, Anemia, Sickle Cell therapy, Blood Component Removal, Hematopoietic Stem Cell Mobilization methods, Hematopoietic Stem Cells metabolism, Heterocyclic Compounds administration & dosage

Abstract

Novel therapies for sickle cell disease (SCD) based on genetically engineered autologous hematopoietic stem and progenitor cells (HSPCs) are critically dependent on a safe and effective strategy for cell procurement. We sought to assess the safety and efficacy of plerixafor when used in transfused patients with SCD for HSC mobilization. Six adult patients with SCD were recruited to receive a single dose of plerixafor, tested at lower than standard (180 µg/kg) and standard (240 µg/kg) doses, followed by CD34 + cell monitoring in peripheral blood and apheresis collection. The procedures were safe and well-tolerated. Mobilization was successful, with higher peripheral CD34 + cell counts in the standard vs the low-dose group. Among our 6 donors, we improved apheresis cell collection results by using a deep collection interface and starting apheresis within 4 hours after plerixafor administration. In the subjects who received a single standard dose of plerixafor and followed the optimized collection protocol, yields of up to 24.5 × 10 6 CD34 + cells/kg were achieved. Interestingly, the collected CD34 + cells were enriched in immunophenotypically defined long-term HSCs and early progenitors. Thus, we demonstrate that plerixafor can be employed safely in patients with SCD to obtain sufficient HSCs for potential use in gene therapy., (© 2018 by The American Society of Hematology.)

Published

2018

23. In Vivo Tracking of Human Hematopoiesis Reveals Patterns of Clonal Dynamics during Early and Steady-State Reconstitution Phases.

Author

Biasco L, Pellin D, Scala S, Dionisio F, Basso-Ricci L, Leonardelli L, Scaramuzza S, Baricordi C, Ferrua F, Cicalese MP, Giannelli S, Neduva V, Dow DJ, Schmidt M, Von Kalle C, Roncarolo MG, Ciceri F, Vicard P, Wit E, Di Serio C, Naldini L, and Aiuti A

Subjects

Antigens, CD34 metabolism, Cell Engineering, Cell Lineage genetics, Child, Preschool, Clone Cells, Genetic Therapy, Hematopoietic Stem Cells cytology, Hematopoietic Stem Cells metabolism, Humans, Infant, Male, Multipotent Stem Cells cytology, Multipotent Stem Cells metabolism, Mutagenesis, Insertional genetics, Time Factors, Wiskott-Aldrich Syndrome genetics, Wiskott-Aldrich Syndrome therapy, Cell Tracking, Hematopoiesis genetics

Abstract

Hematopoietic stem/progenitor cells (HSPCs) are capable of supporting the lifelong production of blood cells exerting a wide spectrum of functions. Lentiviral vector HSPC gene therapy generates a human hematopoietic system stably marked at the clonal level by vector integration sites (ISs). Using IS analysis, we longitudinally tracked >89,000 clones from 15 distinct bone marrow and peripheral blood lineages purified up to 4 years after transplant in four Wiskott-Aldrich syndrome patients treated with HSPC gene therapy. We measured at the clonal level repopulating waves, populations' sizes and dynamics, activity of distinct HSPC subtypes, contribution of various progenitor classes during the early and late post-transplant phases, and hierarchical relationships among lineages. We discovered that in-vitro-manipulated HSPCs retain the ability to return to latency after transplant and can be physiologically reactivated, sustaining a stable hematopoietic output. This study constitutes in vivo comprehensive tracking in humans of hematopoietic clonal dynamics during the early and late post-transplant phases., (Copyright © 2016 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2016

24. In vivo tracking of T cells in humans unveils decade-long survival and activity of genetically modified T memory stem cells.

Author

Biasco L, Scala S, Basso Ricci L, Dionisio F, Baricordi C, Calabria A, Giannelli S, Cieri N, Barzaghi F, Pajno R, Al-Mousa H, Scarselli A, Cancrini C, Bordignon C, Roncarolo MG, Montini E, Bonini C, and Aiuti A

Subjects

Adult, Cell Survival, Child, Clone Cells, Genetic Therapy, Humans, Interleukin-2 pharmacology, Longitudinal Studies, Lymphocyte Subsets metabolism, Phenotype, Tetradecanoylphorbol Acetate pharmacology, Time Factors, Tissue Donors, Cell Tracking, Genetic Engineering, Hematopoietic Stem Cells cytology, Immunologic Memory, T-Lymphocytes cytology, T-Lymphocytes metabolism

Abstract

A definitive understanding of survival and differentiation potential in humans of T cell subpopulations is of paramount importance for the development of effective T cell therapies. In particular, uncovering the dynamics in vivo in humans of the recently described T memory stem cells (TSCM) would be crucial for therapeutic approaches that aim at taking advantage of a stable cellular vehicle with precursor potential. We exploited data derived from two gene therapy clinical trials for an inherited immunodeficiency, using either retrovirally engineered hematopoietic stem cells or mature lymphocytes to trace individual T cell clones directly in vivo in humans. We compared healthy donors and bone marrow-transplanted patients, studied long-term in vivo T cell composition under different clinical conditions, and specifically examined TSCM contribution according to age, conditioning regimen, disease background, cell source, long-term reconstitution, and ex vivo gene correction processing. High-throughput sequencing of retroviral vector integration sites (ISs) allowed tracing the fate of more than 1700 individual T cell clones in gene therapy patients after infusion of gene-corrected hematopoietic stem cells or mature lymphocytes. We shed light on long-term in vivo clonal relationships among different T cell subtypes, and we unveiled that TSCM are able to persist and to preserve their precursor potential in humans for up to 12 years after infusion of gene-corrected lymphocytes. Overall, this work provides high-resolution tracking of T cell fate and activity and validates, in humans, the safe and functional decade-long survival of engineered TSCM, paving the way for their future application in clinical settings., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

25. Lentiviral hematopoietic stem cell gene therapy in patients with Wiskott-Aldrich syndrome.

Author

Aiuti A, Biasco L, Scaramuzza S, Ferrua F, Cicalese MP, Baricordi C, Dionisio F, Calabria A, Giannelli S, Castiello MC, Bosticardo M, Evangelio C, Assanelli A, Casiraghi M, Di Nunzio S, Callegaro L, Benati C, Rizzardi P, Pellin D, Di Serio C, Schmidt M, Von Kalle C, Gardner J, Mehta N, Neduva V, Dow DJ, Galy A, Miniero R, Finocchi A, Metin A, Banerjee PP, Orange JS, Galimberti S, Valsecchi MG, Biffi A, Montini E, Villa A, Ciceri F, Roncarolo MG, and Naldini L

Subjects

Child, Genetic Vectors, Humans, Lentivirus, Male, Transduction, Genetic, Virus Integration, Genetic Therapy methods, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells metabolism, Wiskott-Aldrich Syndrome therapy, Wiskott-Aldrich Syndrome Protein genetics

Abstract

Wiskott-Aldrich syndrome (WAS) is an inherited immunodeficiency caused by mutations in the gene encoding WASP, a protein regulating the cytoskeleton. Hematopoietic stem/progenitor cell (HSPC) transplants can be curative, but, when matched donors are unavailable, infusion of autologous HSPCs modified ex vivo by gene therapy is an alternative approach. We used a lentiviral vector encoding functional WASP to genetically correct HSPCs from three WAS patients and reinfused the cells after a reduced-intensity conditioning regimen. All three patients showed stable engraftment of WASP-expressing cells and improvements in platelet counts, immune functions, and clinical scores. Vector integration analyses revealed highly polyclonal and multilineage haematopoiesis resulting from the gene-corrected HSPCs. Lentiviral gene therapy did not induce selection of integrations near oncogenes, and no aberrant clonal expansion was observed after 20 to 32 months. Although extended clinical observation is required to establish long-term safety, lentiviral gene therapy represents a promising treatment for WAS.

Published

2013

26. Retroviral integrations in gene therapy trials.

Author

Biasco L, Baricordi C, and Aiuti A

Subjects

Genetic Therapy adverse effects, Humans, Mutagenesis, Insertional methods, Genetic Therapy methods, Retroviridae genetics

Abstract

γ-Retroviral and lentiviral vectors allow the permanent integration of a therapeutic transgene in target cells and have provided in the last decade a delivery platform for several successful gene therapy (GT) clinical approaches. However, the occurrence of adverse events due to insertional mutagenesis in GT treated patients poses a strong challenge to the scientific community to identify the mechanisms at the basis of vector-driven genotoxicity. Along the last decade, the study of retroviral integration sites became a fundamental tool to monitor vector-host interaction in patients overtime. This review is aimed at critically revising the data derived from insertional profiling, with a particular focus on the evidences collected from GT clinical trials. We discuss the controversies and open issues associated to the interpretation of integration site analysis during patient's follow up, with an update on the latest results derived from the use of high-throughput technologies. Finally, we provide a perspective on the future technical development and on the application of these studies to address broader biological questions, from basic virology to human hematopoiesis.

Published

2012