Your search keyword '"Adrian J. Thrasher"' showing total 595 results

1. AAV capsid bioengineering in primary human retina models

Author

Adrian Westhaus, Steven S. Eamegdool, Milan Fernando, Paula Fuller-Carter, Alicia A. Brunet, Annie L. Miller, Rabab Rashwan, Maddison Knight, Maciej Daniszewski, Grace E. Lidgerwood, Alice Pébay, Alex Hewitt, Giorgia Santilli, Adrian J. Thrasher, Livia S. Carvalho, Anai Gonzalez-Cordero, Robyn V. Jamieson, and Leszek Lisowski

Subjects

Medicine, Science

Abstract

Abstract Adeno-associated viral (AAV) vector-mediated retinal gene therapy is an active field of both pre-clinical as well as clinical research. As with other gene therapy clinical targets, novel bioengineered AAV variants developed by directed evolution or rational design to possess unique desirable properties, are entering retinal gene therapy translational programs. However, it is becoming increasingly evident that predictive preclinical models are required to develop and functionally validate these novel AAVs prior to clinical studies. To investigate if, and to what extent, primary retinal explant culture could be used for AAV capsid development, this study performed a large high-throughput screen of 51 existing AAV capsids in primary human retina explants and other models of the human retina. Furthermore, we applied transgene expression-based directed evolution to develop novel capsids for more efficient transduction of primary human retina cells and compared the top variants to the strongest existing benchmarks identified in the screening described above. A direct side-by-side comparison of the newly developed capsids in four different in vitro and ex vivo model systems of the human retina allowed us to identify novel AAV variants capable of high transgene expression in primary human retina cells.

Published

2023

2. Investigating adverse genomic and regulatory changes caused by replacement of the full-length CFTR cDNA using Cas9 and AAV

Author

Sriram Vaidyanathan, Jenny L. Kerschner, Alekh Paranjapye, Vrishti Sinha, Brian Lin, Tracy A. Bedrosian, Adrian J. Thrasher, Giandomenico Turchiano, Ann Harris, and Matthew H. Porteus

Subjects

MT: RNA/DNA Editing, cystic fibrosis, CFTR super-exon, CFTR gene regulation, airway basal cell differentiation, genetic rearrangements, Therapeutics. Pharmacology, RM1-950

Abstract

A “universal strategy” replacing the full-length CFTR cDNA may treat >99% of people with cystic fibrosis (pwCF), regardless of their specific mutations. Cas9-based gene editing was used to insert the CFTR cDNA and a truncated CD19 (tCD19) enrichment tag at the CFTR locus in airway basal stem cells. This strategy restores CFTR function to non-CF levels. Here, we investigate the safety of this approach by assessing genomic and regulatory changes after CFTR cDNA insertion. Safety was first assessed by quantifying genetic rearrangements using CAST-seq. After validating restored CFTR function in edited and enriched airway cells, the CFTR locus open chromatin profile was characterized using ATAC-seq. The regenerative potential and differential gene expression in edited cells was assessed using scRNA-seq. CAST-seq revealed a translocation in ∼0.01% of alleles primarily occurring at a nononcogenic off-target site and large indels in 1% of alleles. The open chromatin profile of differentiated airway epithelial cells showed no appreciable changes, except in the region corresponding to the CFTR cDNA and tCD19 cassette, indicating no detectable changes in gene regulation. Edited stem cells produced the same types of airway cells as controls with minimal alternations in gene expression. Overall, the universal strategy showed minor undesirable genomic changes.

Published

2024

3. An improved medium formulation for efficient ex vivo gene editing, expansion and engraftment of hematopoietic stem and progenitor cells

Author

Rajeev Rai, Asma Naseem, Winston Vetharoy, Zohar Steinberg, Adrian J. Thrasher, Giorgia Santilli, and Alessia Cavazza

Subjects

gene editing, hematopoietic stem cells, cell culture, culture medium, Genetics, QH426-470, Cytology, QH573-671

Abstract

Gene editing has emerged as a powerful tool for the therapeutic correction of monogenic diseases. CRISPR-Cas9 applied to hematopoietic stem and progenitor cells (HSPCs) has shown great promise in proof-of-principle preclinical studies to treat hematological disorders, and clinical trials using these tools are now under way. Nonetheless, there remain important challenges that need to be addressed, such as the efficiency of targeting primitive, long-term repopulating HSPCs and their in vitro expansion for clinical application. In this study, we assessed the effect of different culture medium compositions on the ability of HSPCs to proliferate and undergo homology-directed repair-mediated knock-in of a reporter gene, while preserving their stemness features during ex vivo culture. We demonstrated that by supplementing the culture medium with stem cell agonists and by fine-tuning its cytokine composition it is possible to achieve high levels of gene targeting in long-term repopulating HSPCs both in vitro and in vivo, with a beneficial balance between preservation of stemness and cell expansion. Overall, the implementation of this optimized ex vivo HSPC culture protocol can improve the efficacy, feasibility, and applicability of gene editing as a key step to unlocking the full therapeutic potential of this powerful technology.

Published

2023

4. Preclinical model for phenotypic correction of dystrophic epidermolysis bullosa by in vivo CRISPR-Cas9 delivery using adenoviral vectors

Author

Marta García, Jose Bonafont, Jesús Martínez-Palacios, Rudan Xu, Giandomenico Turchiano, Stina Svensson, Adrian J. Thrasher, Fernando Larcher, Marcela Del Rio, Rubén Hernández-Alcoceba, Marina I. Garín, Ángeles Mencía, and Rodolfo Murillas

Subjects

gene editing, epidermolysis bullosa, RDEB, adenoviral vector, CRISPR-Cas, in vivo gene therapy, Genetics, QH426-470, Cytology, QH573-671

Abstract

Recessive dystrophic epidermolysis bullosa, a devastating skin fragility disease characterized by recurrent skin blistering, scarring, and a high risk of developing squamous cell carcinoma is caused by mutations in COL7A1, the gene encoding type VII collagen, which is the major component of the anchoring fibrils that bind the dermis and epidermis. Ex vivo correction of COL7A1 by gene editing in patients’ cells has been achieved before. However, in vivo editing approaches are necessary to address the direct treatment of the blistering lesions characteristic of this disease. We have now generated adenoviral vectors for CRISPR-Cas9 delivery to remove exon 80 of COL7A1, which contains a highly prevalent frameshift mutation in Spanish patients. For in vivo testing, a humanized skin mouse model was used. Efficient viral transduction of skin was observed after excisional wounds generated with a surgical punch on regenerated patient skin grafts were filled with the adenoviral vectors embedded in a fibrin gel. Type VII collagen deposition in the basement membrane zone of the wounded areas treated with the vectors correlated with restoration of dermal-epidermal adhesion, demonstrating that recessive dystrophic epidermolysis bullosa (RDEB) patient skin lesions can be directly treated by CRISPR-Cas9 delivery in vivo.

Published

2022

5. Novel human liver-tropic AAV variants define transferable domains that markedly enhance the human tropism of AAV7 and AAV8

Author

Marti Cabanes-Creus, Renina Gale Navarro, Erhua Zhu, Grober Baltazar, Sophia H.Y. Liao, Matthieu Drouyer, Anais K. Amaya, Suzanne Scott, Loan Hanh Nguyen, Adrian Westhaus, Matthias Hebben, Laurence O.W. Wilson, Adrian J. Thrasher, Ian E. Alexander, and Leszek Lisowski

Subjects

AAV, adeno-associated vectors, bioengineering, bioengineered vectors, gene therapy, liver-tropic, Genetics, QH426-470, Cytology, QH573-671

Abstract

Recent clinical successes have intensified interest in using adeno-associated virus (AAV) vectors for therapeutic gene delivery. The liver is a key clinical target, given its critical physiological functions and involvement in a wide range of genetic diseases. Here, we report the bioengineering of a set of next-generation AAV vectors, named AAV-SYDs (where “SYD” stands for Sydney, Australia), with increased human hepato-tropism in a liver xenograft mouse model repopulated with primary human hepatocytes. We followed a two-step process that staggered directed evolution and domain-swapping approaches. Using DNA-family shuffling, we first mapped key AAV capsid regions responsible for efficient human hepatocyte transduction in vivo. Focusing on these regions, we next applied domain-swapping strategies to identify and study key capsid residues that enhance primary human hepatocyte uptake and transgene expression. Our findings underscore the potential of AAV-SYDs as liver gene therapy vectors and provide insights into the mechanism responsible for their enhanced transduction profile.

Published

2022

6. Safety and efficacy of an engineered hepatotropic AAV gene therapy for ornithine transcarbamylase deficiency in cynomolgus monkeys

Author

Julien Baruteau, Sharon C. Cunningham, Berna Seker Yilmaz, Dany P. Perocheau, Simon Eaglestone, Derek Burke, Adrian J. Thrasher, Simon N. Waddington, Leszek Lisowski, Ian E. Alexander, and Paul Gissen

Subjects

adeno-associated virus, ornithine transcarbamylase deficiency, engineered capsid, biodistribution, liver, AAV, Genetics, QH426-470, Cytology, QH573-671

Abstract

X-linked inherited ornithine transcarbamylase deficiency (OTCD) is the most common disorder affecting the liver-based urea cycle, a pathway enabling detoxification of nitrogen waste and endogenous arginine biosynthesis. Patients develop acute hyperammonemia leading to neurological sequelae or death despite the best-accepted therapy based on ammonia scavengers and protein-restricted diet. Liver transplantation is curative but associated with procedure-related complications and lifelong immunosuppression. Adeno-associated viral (AAV) vectors have demonstrated safety and clinical benefits in a rapidly growing number of clinical trials for inherited metabolic liver diseases. Engineered AAV capsids have shown promising enhanced liver tropism. Here, we conducted a good-laboratory practice-compliant investigational new drug-enabling study to assess the safety of intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene. Juvenile cynomolgus monkeys received vehicle and a low and high dose of vector (2 × 1012 and 2 × 1013 vector genome (vg)/kg, respectively) and were monitored for 26 weeks for in-life safety with sequential liver biopsies at 1 and 13 weeks post-vector administration. Upon completion of monitoring, animals were euthanized to study vector biodistribution, immune responses, and histopathology. The product was well tolerated with no adverse clinical events, predominant hepatic biodistribution, and sustained supra-physiological OTC overexpression. This study supports the clinical deployment of intravenous AAVLK03 for severe OTCD.

Published

2021

7. Partial human Janus kinase 1 deficiency predominantly impairs responses to interferon gamma and intracellular control of mycobacteria

Author

Vanessa Daza-Cajigal, Adriana S. Albuquerque, Dan F. Young, Michael J. Ciancanelli, Dale Moulding, Ivan Angulo, Valentine Jeanne-Julien, Jérémie Rosain, Ekaterina Minskaia, Jean-Laurent Casanova, Stéphanie Boisson-Dupuis, Jacinta Bustamante, Richard E. Randall, Timothy D. McHugh, Adrian J. Thrasher, and Siobhan O. Burns

Subjects

JAK1, IFN immunity, immunodeficiency, mycobacterial disease, viral susceptibility, Immunologic diseases. Allergy, RC581-607

Abstract

PurposeJanus kinase-1 (JAK1) tyrosine kinase mediates signaling from multiple cytokine receptors, including interferon alpha/beta and gamma (IFN-α/β and IFN-γ), which are important for viral and mycobacterial protection respectively. We previously reported autosomal recessive (AR) hypomorphic JAK1 mutations in a patient with recurrent atypical mycobacterial infections and relatively minor viral infections. This study tests the impact of partial JAK1 deficiency on cellular responses to IFNs and pathogen control.MethodsWe investigated the role of partial JAK1 deficiency using patient cells and cell models generated with lentiviral vectors expressing shRNA.ResultsPartial JAK1 deficiency impairs IFN-γ-dependent responses in multiple cell types including THP-1 macrophages, Epstein-Barr Virus (EBV)-transformed B cells and primary dermal fibroblasts. In THP-1 myeloid cells, partial JAK1 deficiency reduced phagosome acidification and apoptosis and resulted in defective control of mycobacterial infection with enhanced intracellular survival. Although both EBV-B cells and primary dermal fibroblasts with partial JAK1 deficiency demonstrate reduced IFN-α responses, control of viral infection was impaired only in patient EBV-B cells and surprisingly intact in patient primary dermal fibroblasts.ConclusionOur data suggests that partial JAK1 deficiency predominantly affects susceptibility to mycobacterial infection through impact on the IFN-γ responsive pathway in myeloid cells. Susceptibility to viral infections as a result of reduced IFN-α responses is variable depending on cell type. Description of additional patients with inherited JAK1 deficiency will further clarify the spectrum of bacterial and viral susceptibility in this condition. Our results have broader relevance for anticipating infectious complications from the increasing use of selective JAK1 inhibitors.

Published

2022

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

Author

Natalia Izotova, Christine Rivat, Cristina Baricordi, Elena Blanco, Danilo Pellin, Eleanor Watt, Athina S. Gkazi, Stuart Adams, Kimberly Gilmour, Jinhua Bayford, Claire Booth, H. Bobby Gaspar, Adrian J. Thrasher, and Luca Biasco

Subjects

Science

Abstract

Gene therapy (GT) using haematopoietic stem cells (HSCs) provides an opportunity to trace cell fates in humans, in vivo. Here the authors present evidence in GT patients for a long term lymphoid progenitor population, surviving and maintaining de novo T and NK cell production for years, independently from HSCs.

Published

2021

9. WAS Promoter-Driven Lentiviral Vectors Mimic Closely the Lopsided WASP Expression during Megakaryocytic Differentiation

Author

Pilar Muñoz, María Tristán-Manzano, Almudena Sánchez-Gilabert, Giorgia Santilli, Anne Galy, Adrian J. Thrasher, and Francisco Martin

Subjects

Wiskott-Aldrich syndrome, alternative WAS promoter, hematopoietic stem and progenitor cells, HSPCs, WASKO cellular models, megakaryocytic differentiation, Genetics, QH426-470, Cytology, QH573-671

Abstract

Transplant of gene-modified autologous hematopoietic progenitors cells has emerged as a new therapeutic approach for Wiskott-Aldrich syndrome (WAS), a primary immunodeficiency with microthrombocytopenia and abnormal lymphoid and myeloid functions. Despite the clinical benefits obtained in ongoing clinical trials, platelet restoration is suboptimal. The incomplete restoration of platelets in these patients can be explained either by a low number of corrected cells or by insufficient or inadequate WASP expression during megakaryocyte differentiation and/or in platelets. We therefore used in vitro models to study the endogenous WASP expression pattern during megakaryocytic differentiation and compared it with the expression profiles achieved by different therapeutic lentiviral vectors (LVs) driving WAS cDNA through different regions of the WAS promoter. Our data showed that all WAS promoter-driven LVs mimic very closely the endogenous WAS expression kinetic during megakaryocytic differentiation. However, LVs harboring the full-length (1.6-kb) WAS-proximal promoter (WW1.6) or a combination of the WAS alternative and proximal promoters (named AW) had the best behavior. Finally, all WAS-driven LVs restored the WAS knockout (WASKO) mice phenotype and functional defects of hematopoietic stem and progenitor cells (HSPCs) from a WAS patient with similar efficiency. In summary, our data back up the use of WW1.6 and AW LVs as physiological gene transfer tools for WAS therapy.

Published

2020

10. Lentiviral Mediated ADA2 Gene Transfer Corrects the Defects Associated With Deficiency of Adenosine Deaminase Type 2

Author

Ying Hong, Marina Casimir, Benjamin C. Houghton, Fang Zhang, Barbara Jensen, Ebun Omoyinmi, Robert Torrance, Charalampia Papadopoulou, Michelle Cummins, Marion Roderick, Adrian J. Thrasher, Paul A. Brogan, and Despina Eleftheriou

Subjects

gene therapy, DADA2, stem cells, macrophages, anti-TNF, Immunologic diseases. Allergy, RC581-607

Abstract

Deficiency of adenosine deaminase type 2 (DADA2) is an autosomal recessive disease caused by bi-allelic loss-of-function mutations in ADA2. Treatment with anti-TNF is effective for the autoinflammatory and vasculitic components of the disease but does not correct marrow failure or immunodeficiency; and anti-drug antibodies cause loss of efficacy over time. Allogeneic haematopoietic stem cell transplantation may be curative, but graft versus host disease remains a significant concern. Autologous gene therapy would therefore be an attractive longer-term therapeutic option. We investigated whether lentiviral vector (LV)–mediated ADA2 gene correction could rescue the immunophenotype of DADA2 in primary immune cells derived from patients and in cell line models. Lentiviral transduction led to: i) restoration of ADA2 protein expression and enzymatic activity; (ii) amelioration of M1 macrophage cytokine production, IFN-γ and phosphorylated STAT1 expression in patient-derived macrophages; and (iii) amelioration of macrophage-mediated endothelial activation that drives the vasculitis of DADA2. We also successfully transduced human CD34+ haematopoietic stem progenitor cells (HSPC) derived from a DADA2 patient with pure red cell aplasia and observed restoration of ADA2 expression and enzymatic activity in CD34+HSPC, alongside recovery of stem-cell proliferative and colony forming unit capacity. These preclinical data now expand the evidence for the efficacy of gene transfer strategies in DADA2, and strongly support clinical translation of a lentivirus-mediated gene therapy approach to treat DADA2.

Published

2022

11. Critical role of WASp in germinal center tolerance through regulation of B cell apoptosis and diversification

Author

Marc Descatoire, Remi Fritzen, Samuel Rotman, Genevieve Kuntzelman, Xavier Charles Leber, Stephanie Droz-Georget, Adrian J. Thrasher, Elisabetta Traggiai, and Fabio Candotti

Subjects

Wiskott-Aldrich syndrome, germinal center B cells, autoimmunity, Biology (General), QH301-705.5

Abstract

Summary: A main feature of Wiskott-Aldrich syndrome (WAS) is increased susceptibility to autoimmunity. A key contribution of B cells to development of these complications has been demonstrated through studies of samples from affected individuals and mouse models of the disease, but the role of the WAS protein (WASp) in controlling peripheral tolerance has not been specifically explored. Here we show that B cell responses remain T cell dependent in constitutive WASp-deficient mice, whereas selective WASp deletion in germinal center B cells (GCBs) is sufficient to induce broad development of self-reactive antibodies and kidney pathology, pointing to loss of germinal center tolerance as a primary cause leading to autoimmunity. Mechanistically, we show that WASp is upregulated in GCBs and regulates apoptosis and plasma cell differentiation in the germinal center and that the somatic hypermutation-derived diversification is the basis of autoantibody development.

Published

2022

12. Lentiviral Hematopoietic Stem Cell Gene Therapy Rescues Clinical Phenotypes in a Murine Model of Pompe Disease

Author

Giuseppa Piras, Claudia Montiel-Equihua, Yee-Ka Agnes Chan, Slawomir Wantuch, Daniel Stuckey, Derek Burke, Helen Prunty, Rahul Phadke, Darren Chambers, Armando Partida-Gaytan, Diego Leon-Rico, Neelam Panchal, Kathryn Whitmore, Miguel Calero, Sara Benedetti, Giorgia Santilli, Adrian J. Thrasher, and H. Bobby Gaspar

Subjects

Pompe disease, hematopoietic stem cell gene therapy, lentiviral vector, acid alpha-glucosidase, GAA, erythroid-specific enhancer, Genetics, QH426-470, Cytology, QH573-671

Abstract

Pompe disease is a lysosomal storage disorder caused by malfunctions of the acid alpha-glucosidase (GAA) enzyme with a consequent toxic accumulation of glycogen in cells. Muscle wasting and hypertrophic cardiomyopathy are the most common clinical signs that can lead to cardiac and respiratory failure within the first year of age in the more severe infantile forms. Currently available treatments have significant limitations and are not curative, highlighting a need for the development of alternative therapies. In this study, we investigated the use of a clinically relevant lentiviral vector to deliver systemically GAA through genetic modification of hematopoietic stem and progenitor cells (HSPCs). The overexpression of GAA in human HSPCs did not exert any toxic effect on this cell population, which conserved its stem cell capacity in xenograft experiments. In a murine model of Pompe disease treated at young age, we observed phenotypic correction of heart and muscle function with a significant reduction of glycogen accumulation in tissues after 6 months of treatment. These findings suggest that lentiviral-mediated HSPC gene therapy can be a safe alternative therapy for Pompe disease.

Published

2020

13. Targeted gene correction of human hematopoietic stem cells for the treatment of Wiskott - Aldrich Syndrome

Author

Rajeev Rai, Marianna Romito, Elizabeth Rivers, Giandomenico Turchiano, Georges Blattner, Winston Vetharoy, Dariusz Ladon, Geoffroy Andrieux, Fang Zhang, Marta Zinicola, Diego Leon-Rico, Giorgia Santilli, Adrian J. Thrasher, and Alessia Cavazza

Subjects

Science

Abstract

In recent years, hematopoietic stem cells gene editing has emerged as a promising tool to treat blood disorders. Here the authors develop a CRISPR/Cas9-based genome editing strategy that allows the precise correction of Wiskott-Aldrich Syndrome in vitro and in vivo with high efficiency.

Published

2020

14. Lentiviral Vector Production Titer Is Not Limited in HEK293T by Induced Intracellular Innate Immunity

Author

Carolina B. Ferreira, Rebecca P. Sumner, Maria T. Rodriguez-Plata, Jane Rasaiyaah, Richard S. Milne, Adrian J. Thrasher, Waseem Qasim, and Greg J. Towers

Subjects

Lentiviral vectors, innate immunity, HEK293T, vector titer, SV40 large T-antigen, Genetics, QH426-470, Cytology, QH573-671

Abstract

Most gene therapy lentiviral vector (LV) production platforms employ HEK293T cells expressing the oncogenic SV40 large T-antigen (TAg) that is thought to promote plasmid-mediated gene expression. Studies on other viral oncogenes suggest that TAg may also inhibit the intracellular autonomous innate immune system that triggers defensive antiviral responses upon detection of viral components by cytosolic sensors. Here we show that an innate response can be generated after HIV-1-derived LV transfection in HEK293T cells, particularly by the transgene, yet, remarkably, this had no effect on LV titer. Further, overexpression of DNA sensing pathway components led to expression of inflammatory cytokine and interferon (IFN) stimulated genes but did not result in detectable IFN or CXCL10 and had no impact on LV titer. Exogenous IFN-β also did not affect LV production or transduction efficiency in primary T cells. Additionally, manipulation of TAg did not affect innate antiviral responses, but stable expression of TAg boosted vector production in HEK293 cells. Our findings demonstrate a measure of innate immune competence in HEK293T cells but, crucially, show that activation of inflammatory signaling is uncoupled from cytokine secretion in these cells. This provides new mechanistic insight into the unique suitability of HEK293T cells for LV manufacture.

Published

2020

15. Attenuation of Heparan Sulfate Proteoglycan Binding Enhances In Vivo Transduction of Human Primary Hepatocytes with AAV2

Author

Marti Cabanes-Creus, Adrian Westhaus, Renina Gale Navarro, Grober Baltazar, Erhua Zhu, Anais K. Amaya, Sophia H.Y. Liao, Suzanne Scott, Erwan Sallard, Kimberley L. Dilworth, Arkadiusz Rybicki, Matthieu Drouyer, Claus V. Hallwirth, Antonette Bennett, Giorgia Santilli, Adrian J. Thrasher, Mavis Agbandje-McKenna, Ian E. Alexander, and Leszek Lisowski

Subjects

Genetics, QH426-470, Cytology, QH573-671

Abstract

Use of the prototypical adeno-associated virus type 2 (AAV2) capsid delivered unexpectedly modest efficacy in an early liver-targeted gene therapy trial for hemophilia B. This result is consistent with subsequent data generated in chimeric mouse-human livers showing that the AAV2 capsid transduces primary human hepatocytes in vivo with low efficiency. In contrast, novel variants generated by directed evolution in the same model, such as AAV-NP59, transduce primary human hepatocytes with high efficiency. While these empirical data have immense translational implications, the mechanisms underpinning this enhanced AAV capsid transduction performance in primary human hepatocytes are yet to be fully elucidated. Remarkably, AAV-NP59 differs from the prototypical AAV2 capsid by only 11 aa and can serve as a tool to study the correlation between capsid sequence/structure and vector function. Using two orthogonal vectorological approaches, we have determined that just 2 of the 11 changes present in AAV-NP59 (T503A and N596D) account for the enhanced transduction performance of this capsid variant in primary human hepatocytes in vivo, an effect that we have associated with attenuation of heparan sulfate proteoglycan (HSPG) binding affinity. In support of this hypothesis, we have identified, using directed evolution, two additional single amino acid substitution AAV2 variants, N496D and N582S, which are highly functional in vivo. Both substitution mutations reduce AAV2’s affinity for HSPG. Finally, we have modulated the ability of AAV8, a highly murine-hepatotropic serotype, to interact with HSPG. The results support our hypothesis that enhanced HSPG binding can negatively affect the in vivo function of otherwise strongly hepatotropic variants and that modulation of the interaction with HSPG is critical to ensure maximum efficiency in vivo. The insights gained through this study can have powerful implications for studies into AAV biology and capsid development for preclinical and clinical applications targeting liver and other organs.

Published

2020

16. Successful Preclinical Development of Gene Therapy for Recombinase-Activating Gene-1-Deficient SCID

Author

Laura Garcia-Perez, Marja van Eggermond, Lieke van Roon, Sandra A. Vloemans, Martijn Cordes, Axel Schambach, Michael Rothe, Dagmar Berghuis, Chantal Lagresle-Peyrou, Marina Cavazzana, Fang Zhang, Adrian J. Thrasher, Daniela Salvatori, Pauline Meij, Anna Villa, Jacques J.M. Van Dongen, Jaap-Jan Zwaginga, Mirjam van der Burg, H. Bobby Gaspar, Arjan Lankester, Frank J.T. Staal, and Karin Pike-Overzet

Subjects

gene therapy, SCID, B lymphocytes, T lymphocytes, CD34+ cells, gene rearrangement, Genetics, QH426-470, Cytology, QH573-671

Abstract

Recombinase-activating gene-1 (RAG1)-deficient severe combined immunodeficiency (SCID) patients lack B and T lymphocytes due to the inability to rearrange immunoglobulin and T cell receptor genes. Gene therapy is an alternative for those RAG1-SCID patients who lack a suitable bone marrow donor. We designed lentiviral vectors with different internal promoters driving codon-optimized RAG1 to ensure optimal expression. We used Rag1−/− mice as a preclinical model for RAG1-SCID to assess the efficacy of the various vectors. We observed that B and T cell reconstitution directly correlated with RAG1 expression. Mice with low RAG1 expression showed poor immune reconstitution; however, higher expression resulted in phenotypic and functional lymphocyte reconstitution comparable to mice receiving wild-type stem cells. No signs of genotoxicity were found. Additionally, RAG1-SCID patient CD34+ cells transduced with our clinical RAG1 vector and transplanted into NSG mice led to improved human B and T cell development. Considering this efficacy outcome, together with favorable safety data, these results substantiate the need for a clinical trial for RAG1-SCID.

Published

2020

17. Gene therapy and genome editing for primary immunodeficiency diseases

Author

Zhi-Yong Zhang, Adrian J. Thrasher, and Fang Zhang

Subjects

Medicine (General), R5-920, Genetics, QH426-470

Abstract

In past two decades the gene therapy using genetic modified autologous hematopoietic stem cells (HSCs) transduced with the viral vector has become a promising alternative option for treating primary immunodeficiency diseases (PIDs). Despite of some pitfalls at early stage clinical trials, the field of gene therapy has advanced significantly in the last decade with improvements in viral vector safety, preparatory regime for manufacturing high quality virus, automated CD34 cell purification. Hence, the overall outcome from the clinical trials for the different PIDs has been very encouraging. In addition to the viral vector based gene therapy, the recent fast moving forward developments in genome editing using engineered nucleases in HSCs has provided a new promising platform for the treatment of PIDs. This review provides an overall outcome and progress in gene therapy clinical trials for SCID-X, ADA-SCID, WAS, X- CGD, and the recent developments in genome editing technology applied in HSCs for developing potential therapy, particular in the key studies for PIDs. Keywords: Adenosine deaminase deficient, Chronic granulomatous disease, Gene therapy, Genome editing, Hematopoietic progenitor stem cells, Primary immunodeficiency diseases, Wiskott-Aldrich syndrome, X-liked severe combined immunodeficiency

Published

2020

18. Codon-Optimization of Wild-Type Adeno-Associated Virus Capsid Sequences Enhances DNA Family Shuffling while Conserving Functionality

Author

Marti Cabanes-Creus, Samantha L. Ginn, Anais K. Amaya, Sophia H.Y. Liao, Adrian Westhaus, Claus V. Hallwirth, Patrick Wilmott, Jason Ward, Kimberley L. Dilworth, Giorgia Santilli, Arkadiusz Rybicki, Hiroyuki Nakai, Adrian J. Thrasher, Adrian C. Filip, Ian E. Alexander, and Leszek Lisowski

Subjects

Genetics, QH426-470, Cytology, QH573-671

Abstract

Adeno-associated virus (AAV) vectors have become one of the most widely used gene transfer tools in human gene therapy. Considerable effort is currently being focused on AAV capsid engineering strategies with the aim of developing novel variants with enhanced tropism for specific human cell types, decreased human seroreactivity, and increased manufacturability. Selection strategies based on directed evolution rely on the generation of highly variable AAV capsid libraries using methods such as DNA-family shuffling, a technique reliant on stretches of high DNA sequence identity between input parental capsid sequences. This identity dependence for reassembly of shuffled capsids is inherently limiting and results in decreased shuffling efficiency as the phylogenetic distance between parental AAV capsids increases. To overcome this limitation, we have developed a novel codon-optimization algorithm that exploits evolutionarily defined codon usage at each amino acid residue in the parental sequences. This method increases average sequence identity between capsids, while enhancing the probability of retaining capsid functionality, and facilitates incorporation of phylogenetically distant serotypes into the DNA-shuffled libraries. This technology will help accelerate the discovery of an increasingly powerful repertoire of AAV capsid variants for cell-type and disease-specific applications. Keywords: AAV, library, directed evolution, codon optimization, DNA shuffling, capsid

Published

2019

19. Gene Editing and Genotoxicity: Targeting the Off-Targets

Author

Georges Blattner, Alessia Cavazza, Adrian J. Thrasher, and Giandomenico Turchiano

Subjects

gene editing, CRISPR, genotoxicity, off-target, DSB = double-strand break, DNA damage, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Gene editing technologies show great promise for application to human disease as a result of rapid developments in targeting tools notably based on ZFN, TALEN, and CRISPR-Cas systems. Precise modification of a DNA sequence is now possible in mature human somatic cells including stem and progenitor cells with increasing degrees of efficiency. At the same time new technologies are required to evaluate their safety and genotoxicity before widespread clinical application can be confidently implemented. A number of methodologies have now been developed in an attempt to predict expected and unexpected modifications occurring during gene editing. This review surveys the techniques currently available as state of the art, highlighting benefits and limitations, and discusses approaches that may achieve sufficient accuracy and predictability for application in clinical settings.

Published

2020

20. An intronic deletion in megakaryoblastic leukemia 1 is associated with hyperproliferation of B cells in triplets with Hodgkin lymphoma

Author

Julien Record, Anton Sendel, Joanna S. Kritikou, Nikolai V. Kuznetsov, Hanna Brauner, Minghui He, Noemi Nagy, Mariana M.S. Oliveira, Elena Griseti, Christoph B. Haase, Jenny Dahlström, Sanjaykumar Boddul, Fredrik Wermeling, Adrian J. Thrasher, Chaohong Liu, John Andersson, Hans-Erik Claesson, Ola Winqvist, Siobhan O. Burns, Magnus Björkholm, and Lisa S. Westerberg

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Megakaryoblastic leukemia 1 (MKL1) is a coactivator of serum response factor and together they regulate transcription of actin cytoskeleton genes. MKL1 is associated with hematologic malignancies and immunodeficiency, but its role in B cells is unexplored. Here we examined B cells from monozygotic triplets with an intronic deletion in MKL1, two of whom had been previously treated for Hodgkin lymphoma (HL). To investigate MKL1 and B-cell responses in the pathogenesis of HL, we generated Epstein-Barr virus-transformed lymphoblastoid cell lines from the triplets and two controls. While cells from the patients with treated HL had a phenotype close to that of the healthy controls, cells from the undiagnosed triplet had increased MKL1 mRNA, increased MKL1 protein, and elevated expression of MKL1-dependent genes. This profile was associated with elevated actin content, increased cell spreading, decreased expression of CD11a integrin molecules, and delayed aggregation. Moreover, cells from the undiagnosed triplet proliferated faster, displayed a higher proportion of cells with hyperploidy, and formed large tumors in vivo. This phenotype was reversible by inhibiting MKL1 activity. Interestingly, cells from the triplet treated for HL in 1985 contained two subpopulations: one with high expression of CD11a that behaved like control cells and the other with low expression of CD11a that formed large tumors in vivo similar to cells from the undiagnosed triplet. This implies that pre-malignant cells had re-emerged a long time after treatment. Together, these data suggest that dysregulated MKL1 activity participates in B-cell transformation and the pathogenesis of HL.

Published

2020

21. Preclinical Development of a Lentiviral Vector for Gene Therapy of X-Linked Severe Combined Immunodeficiency

Author

Valentina Poletti, Sabine Charrier, Guillaume Corre, Bernard Gjata, Alban Vignaud, Fang Zhang, Michael Rothe, Axel Schambach, H. Bobby Gaspar, Adrian J. Thrasher, and Fulvio Mavilio

Subjects

Genetics, QH426-470, Cytology, QH573-671

Abstract

X-linked severe combined immunodeficiency (SCID-X1) is caused by mutations in the interleukin-2 receptor γ chain gene (IL2RG), and it is characterized by profound defects in T, B, and natural killer (NK) cell functions. Transplantation of hematopoietic stem/progenitor cells (HSPCs) genetically corrected with early murine leukemia retrovirus (MLV)-derived gammaretroviral vectors showed restoration of T cell immunity in patients, but it resulted in vector-induced insertional oncogenesis. We developed a self-inactivating (SIN) lentiviral vector carrying a codon-optimized human IL2RG cDNA driven by the EF1α short promoter (EFS-IL2RG), and we tested its efficacy and safety in vivo by transplanting transduced Il2rg-deficient Lin− HSPCs in an Il2rg−/−/Rag2−/− mouse model. The study showed restoration of T, B, and NK cell counts in bone marrow and peripheral blood and normalization of thymus and spleen cellularity and architecture. High-definition insertion site analysis defined the EFS-IL2RG genomic integration profile, and it showed no sign of vector-induced clonal selection or skewing in primarily and secondarily transplanted animals. The study enables a phase I/II clinical trial aimed at restoring both T and B cell immunity in SCID-X1 children upon non-myeloablative conditioning. Keywords: gene therapy, immunodeficiency, SCID-X1, lentiviral vector, integration, genotoxicity

Published

2018

22. WASP-mediated regulation of anti-inflammatory macrophages is IL-10 dependent and is critical for intestinal homeostasis

Author

Amlan Biswas, Dror S. Shouval, Alexandra Griffith, Jeremy A. Goettel, Michael Field, Yu Hui Kang, Liza Konnikova, Erin Janssen, Naresh Singh Redhu, Adrian J. Thrasher, Talal Chatila, Vijay K. Kuchroo, Raif S Geha, Luigi D. Notarangelo, Sung-Yun Pai, Bruce H. Horwitz, and Scott B. Snapper

Subjects

Science

Abstract

Deficiency in Wiskott-Aldrich syndrome protein (WASP) has been associated with autoimmune colitis, but the underlying mechanism is still unclear. Here the authors show that WASP deficiency is associated with defective WASP/DOCK8 complex formation, altered IL-10 signalling, and impaired anti-inflammatory macrophage functions.

Published

2018

23. Wiskott-Aldrich syndrome protein regulates autophagy and inflammasome activity in innate immune cells

Author

Pamela P. Lee, Damián Lobato-Márquez, Nayani Pramanik, Andrea Sirianni, Vanessa Daza-Cajigal, Elizabeth Rivers, Alessia Cavazza, Gerben Bouma, Dale Moulding, Kjell Hultenby, Lisa S. Westerberg, Michael Hollinshead, Yu-Lung Lau, Siobhan O. Burns, Serge Mostowy, Mona Bajaj-Elliott, and Adrian J. Thrasher

Subjects

Science

Abstract

Wiskott-Aldrich syndrome protein (WASp) is essential for controlling the cytoskeleton, but its function in innate immunity is unclear. Here the authors show that WASp deficiency is associated with dysregulated septin cage formation, excessive inflammasome activation, elevated immune cell death and reduced bacterial clearance.

Published

2017

24. Lentiviral vectors can be used for full-length dystrophin gene therapy

Author

John R. Counsell, Zeinab Asgarian, Jinhong Meng, Veronica Ferrer, Conrad A. Vink, Steven J. Howe, Simon N. Waddington, Adrian J. Thrasher, Francesco Muntoni, Jennifer E. Morgan, and Olivier Danos

Subjects

Medicine, Science

Abstract

Abstract Duchenne Muscular Dystrophy (DMD) is caused by a lack of dystrophin expression in patient muscle fibres. Current DMD gene therapy strategies rely on the expression of internally deleted forms of dystrophin, missing important functional domains. Viral gene transfer of full-length dystrophin could restore wild-type functionality, although this approach is restricted by the limited capacity of recombinant viral vectors. Lentiviral vectors can package larger transgenes than adeno-associated viruses, yet lentiviral vectors remain largely unexplored for full-length dystrophin delivery. In our work, we have demonstrated that lentiviral vectors can package and deliver inserts of a similar size to dystrophin. We report a novel approach for delivering large transgenes in lentiviruses, in which we demonstrate proof-of-concept for a ‘template-switching’ lentiviral vector that harnesses recombination events during reverse-transcription. During this work, we discovered that a standard, unmodified lentiviral vector was efficient in delivering full-length dystrophin to target cells, within a total genomic load of more than 15,000 base pairs. We have demonstrated gene therapy with this vector by restoring dystrophin expression in DMD myoblasts, where dystrophin was expressed at the sarcolemma of myotubes after myogenic differentiation. Ultimately, our work demonstrates proof-of-concept that lentiviruses can be used for permanent full-length dystrophin gene therapy, which presents a significant advancement in developing an effective treatment for DMD.

Published

2017

25. Limiting Thymic Precursor Supply Increases the Risk of Lymphoid Malignancy in Murine X-Linked Severe Combined Immunodeficiency

Author

Samantha L. Ginn, Claus V. Hallwirth, Sophia H.Y. Liao, Erdahl T. Teber, Jonathan W. Arthur, Jianmin Wu, Hong Ching Lee, Szun S. Tay, Min Hu, Roger R. Reddel, Matthew P. McCormack, Adrian J. Thrasher, Marina Cavazzana, Stephen I. Alexander, and Ian E. Alexander

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

In early gene therapy trials for SCID-X1, using γ-retroviral vectors, T cell leukemias developed in a subset of patients secondary to insertional proto-oncogene activation. In contrast, we have reported development of T cell leukemias in SCID-X1 mice following lentivirus-mediated gene therapy independent of insertional mutagenesis. A distinguishing feature in our study was that only a proportion of transplanted γc-deficient progenitors were transduced and therefore competent for reconstitution. We hypothesized that reconstitution of SCID-X1 mice with limiting numbers of hematopoietic progenitors might be a risk factor for lymphoid malignancy. To test this hypothesis, in the absence of transduction, SCID-X1 mice were reconstituted with serially fewer wild-type hematopoietic progenitors. A robust inverse correlation between hematopoietic progenitor cell dose and T-lymphoid malignancy was observed, with earlier disease onset at lower cell doses. Malignancies were of donor origin and carried activating Notch1 mutations. These findings align with emerging evidence that thymocyte self-renewal induced by progenitor deprivation carries an oncogenic risk that is modulated by intra-thymic competition from differentiation-committed cells. Although insertional proto-oncogene activation is required for the development of malignancy in humans, failure of γc-deficient thymocytes to effectively compete with this at-risk cell population may have also contributed to oncogenesis observed in early SCID-X1 trials. Keywords: lymphomagenesis, gene therapy, primary immune deficiency, SCID-X1, self-renewal, thymus

Published

2017

26. Biallelic JAK1 mutations in immunodeficient patient with mycobacterial infection

Author

Davide Eletto, Siobhan O. Burns, Ivan Angulo, Vincent Plagnol, Kimberly C. Gilmour, Frances Henriquez, James Curtis, Miguel Gaspar, Karolin Nowak, Vanessa Daza-Cajigal, Dinakantha Kumararatne, Rainer Doffinger, Adrian J. Thrasher, and Sergey Nejentsev

Subjects

Science

Abstract

JAK1 mediates intracellular signalling from multiple cytokine receptors. Here, Elettoet al. identify JAK1 mutations that disrupt multiple signalling pathways and are associated with primary immunodeficiency, atypical mycobacterial infection susceptibility and early-onset metastatic bladder carcinoma.

Published

2016

27. Loss of Janus Associated Kinase 1 Alters Urothelial Cell Function and Facilitates the Development of Bladder Cancer

Author

Vanessa Daza-Cajigal, Adriana S. Albuquerque, Joanna Pearson, Jennifer Hinley, Andrew S. Mason, Jens Stahlschmidt, Adrian J. Thrasher, Vibhash Mishra, Jennifer Southgate, and Siobhan O. Burns

Subjects

bladder cancer, IFNγ signaling, immunodeficiency, JAK1, urothelium, Immunologic diseases. Allergy, RC581-607

Abstract

Inherited Primary Immunodeficiency (PID) disorders are associated with increased risk of malignancy that may relate to impaired antitumor immune responses or a direct role for PID germline mutations in tumorigenesis. We recently identified germline loss of function mutations in Janus Associated Kinase 1 (JAK1) causing primary immunodeficiency characterized by infections and associated with early onset, fatal high-grade bladder carcinoma. Somatic mutations in JAK1, required for immune cell signaling in response to interferon gamma (IFNγ), have been associated with several non-hematopoietic and hematopoietic cancer cell types but pathogenic mechanisms remain largely unexplored. Here we demonstrate that JAK1 is required for the intrinsic IFNγ response of urothelial cells impacting immunogenicity and cell survival. Specifically, JAK1-deficient urothelial cells showed reduced surface expression of major histocompatibility complex class II (MHC II), intercellular adhesion molecule-1 (ICAM-1) and programmed death-ligand-1 (PD-L1) after IFNγ stimulation and were resistant to IFNγ-induced apoptosis and lymphocyte-mediated killing. In addition, we identify a previously unknown role for IFNγ signaling in modulating urothelial differentiation. Together, our findings support a role for urothelial cell JAK1 in immune surveillance and development of bladder cancer. Our results have implications for patients with rare JAK1 PID and, more broadly, inform development of biomarker and targeted therapies for urothelial carcinoma.

Published

2019

28. Deletion of Wiskott–Aldrich syndrome protein triggers Rac2 activity and increased cross-presentation by dendritic cells

Author

Marisa A. P. Baptista, Marton Keszei, Mariana Oliveira, Karen K. S. Sunahara, John Andersson, Carin I. M. Dahlberg, Austen J. Worth, Agne Liedén, I-Chun Kuo, Robert P. A. Wallin, Scott B. Snapper, Liv Eidsmo, Annika Scheynius, Mikael C. I. Karlsson, Gerben Bouma, Siobhan O. Burns, Mattias N. E. Forsell, Adrian J. Thrasher, Susanne Nylén, and Lisa S. Westerberg

Subjects

Science

Abstract

Wiskott–Aldrich syndrome (WAS) is a severe X-linked primary immunodeficiency syndrome. Here, the authors show that loss of WAS gene in dendritic cells results in increased activity of Rac2, increase of phagosomal pH, and more efficient cross-presentation.

Published

2016

29. Dendritic cell-expressed common gamma-chain recruits IL-15 for trans-presentation at the murine immunological synapse [version 2; referees: 2 approved]

Author

Chiara Beilin, Kaushik Choudhuri, Gerben Bouma, Dessislava Malinova, Jaime Llodra, David L. Stokes, Motumu Shimaoka, Timothy A. Springer, Michael L. Dustin, Adrian J. Thrasher, and Siobhan O. Burns

Subjects

Medicine, Science

Abstract

Background: Mutations of the common cytokine receptor gamma chain (γc) cause Severe Combined Immunodeficiency characterized by absent T and NK cell development. Although stem cell therapy restores these lineages, residual immune defects are observed that may result from selective persistence of γc-deficiency in myeloid lineages. However, little is known about the contribution of myeloid-expressed γc to protective immune responses. Here we examine the importance of γc for myeloid dendritic cell (DC) function. Methods: We utilize a combination of in vitro DC/T-cell co-culture assays and a novel lipid bilayer system mimicking the T cell surface to delineate the role of DC-expressed γc during DC/T-cell interaction. Results: We observed that γc in DC was recruited to the contact interface following MHCII ligation, and promoted IL-15Rα colocalization with engaged MHCII. Unexpectedly, trans-presentation of IL-15 was required for optimal CD4+T cell activation by DC and depended on DC γc expression. Neither recruitment of IL-15Rα nor IL-15 trans-signaling at the DC immune synapse (IS), required γc signaling in DC, suggesting that γc facilitates IL-15 transpresentation through induced intermolecular cis associations or cytoskeletal reorganization following MHCII ligation. Conclusions: These findings show that DC-expressed γc is required for effective antigen-induced CD4+ T cell activation. We reveal a novel mechanism for recruitment of DC IL-15/IL-15Rα complexes to the IS, leading to CD4+ T cell costimulation through localized IL-15 transpresentation that is coordinated with antigen-recognition.

Published

2018

30. Publisher Correction: In Utero Gene Therapy (IUGT) Using GLOBE Lentiviral Vector Phenotypically Corrects the Heterozygous Humanised Mouse Model and Its Progress Can Be Monitored Using MRI Techniques

Author

Panicos Shangaris, Stavros P. Loukogeorgakis, Sindhu Subramaniam, Christina Flouri, Laurence H. Jackson, Wei Wang, Michael P. Blundell, Shanrun Liu, Simon Eaton, Nahla Bakhamis, Durrgah Latchumi Ramachandra, Panayiotis Maghsoudlou, Luca Urbani, Simon N. Waddington, Ayad Eddaoudi, Joy Archer, Michael N. Antoniou, Daniel J. Stuckey, Manfred Schmidt, Adrian J. Thrasher, Thomas M. Ryan, Paolo De Coppi, and Anna L. David

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2019

31. Lentiviral vector transduction of spermatozoa as a tool for the study of early development

Author

Anil Chandrashekran, Ihsan Isa, Jayesh Dudhia, Adrian J. Thrasher, Nicholas Dibb, Colin Casimir, Carol Readhead, and Robert Winston

Subjects

Lentiviral vectors, Spermatozoa, Transduction, Development, Transgenics, In vitro fertilisation, Biology (General), QH301-705.5

Abstract

Spermatozoa and lentiviruses are two of nature’s most efficient gene delivery vehicles. Both can be genetically modified and used independently for the generation of transgenic animals or gene transfer/therapy of inherited disorders. Here we show that mature spermatozoa can be directly transduced with various pseudotyped lentiviral vectors and used in in vitro fertilisation studies. Lentiviral vectors encoding Green Fluorescent Protein (GFP) were shown to be efficiently processed and expressed in sperm. When these transduced sperm were used in in vitro fertilisation studies, GFP expression was observed in arising blastocysts. This simple technique of directly transducing spermatozoa has potential to be a powerful tool for the study of early and pre-implantation development and could be used as a technique in transgenic development and vertical viral transmission studies.

Published

2014

32. Wiskott-Aldrich syndrome protein-deficient hematopoietic cells can be efficiently mobilized by granulocyte colony-stimulating factor

Author

Sabine Charrier, Michael Blundell, Gregory Cédrone, Fawzia Louache, William Vainchenker, Adrian J. Thrasher, and Anne Galy

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The Wiskott-Aldrich syndrome protein is an essential cytoskeleton regulator found in cells of the hematopoietic lineage and controls the motility of leukocytes. The impact of WAS gene deficiency on the mobilization of hematopoietic progenitor/stem cells in circulation has remained unexplored but information would be pertinent in the context of autologous gene therapy of Wiskott-Aldrich syndrome. The response to granulocyte-colony stimulating factor mobilization was investigated in a murine WAS knock-out model of the disease, by measuring hematologic parameters, circulation and engraftment of hematopoietic progenitor/stem cells. In the steady-state, adult WAS knock-out mice have B-cell lymphopenia, marked neutrophilia, increased counts of circulating hematopoietic progenitor cells and splenomegaly, presumably caused by the retention of hematopoietic progenitor cells due to high levels of splenic CXCL12. In spite of these anomalies, the administration of granulocyte-colony-stimulating factor mobilizes progenitor/stem cells in WAS knock-out mice to the same level and with the same kinetics as in wild-type control mice. Mobilized peripheral blood cells from WAS knock-out mice can be transduced and are able to engraft into lethally-irradiated hosts reconstituting multiple lineages of cells and providing more effective radio-protection than mobilized cells from wild-type control mice. Surprisingly, the homing and the peripheral blood recovery of B lymphocytes was influenced by the background of the host. Thus, in the absence of Wiskott-Aldrich syndrome protein, effective mobilization is achieved but partial correction may occur as a result of an abnormal hematopoietic environment.

Published

2013

33. Tyrosine phosphorylation of WASP promotes calpain-mediated podosome disassembly

Author

Lee Macpherson, James Monypenny, Michael P. Blundell, Giles O. Cory, Jessica Tomé-García, Adrian J. Thrasher, Gareth E. Jones, and Yolanda Calle

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Podosomes are actin-based adhesions involved in migration of cells that have to cross tissue boundaries such as myeloid cells. The Wiskott Aldrich Syndrome Protein regulates de novo actin polymerization during podosome formation and it is cleaved by the protease calpain during podosome disassembly. The mechanisms that may induce the Wiskott Aldrich Syndrome Protein cleavage by calpain remain undetermined. We now report that in myeloid cells, tyrosine phosphorylation of the Wiskott Aldrich Syndrome Protein-tyrosine291 (Human)/tyrosine293 (mouse) not only enhances Wiskott Aldrich Syndrome Protein-mediated actin polymerization but also promotes its calpain-dependent degradation during podosome disassembly. We also show that activation of the Wiskott Aldrich Syndrome Protein leading to podosome formation occurs independently of tyrosine phosphorylation in spleen-derived dendritic cells. We conclude that tyrosine phosphorylation of the Wiskott Aldrich Syndrome Protein integrates dynamics of actin and cell adhesion proteins during podosome disassembly required for mobilization of myeloid cells during the immune response.

Published

2012

34. Lentiviral Gene Transfer Corrects Immune Abnormalities in XIAP Deficiency

Author

Joseph Topal, Neelam Panchal, Amairelys Barroeta, Anna Roppelt, Annelotte Mudde, H. Bobby Gaspar, Adrian J. Thrasher, Benjamin C. Houghton, and Claire Booth

Subjects

Immunology, Immunology and Allergy

Abstract

Background X-linked inhibitor of apoptosis protein (XIAP) deficiency is a severe immunodeficiency with clinical features including hemophagocytic lymphohistiocytosis (HLH) and inflammatory bowel disease (IBD) due to defective NOD2 responses. Management includes immunomodulatory therapies and hematopoietic stem cell transplant (HSCT). However, this cohort is particularly susceptible to the chemotherapeutic regimens and acutely affected by graft-vs-host disease (GvHD), driving poor long-term survival in transplanted patients. Autologous HSC gene therapy could offer an alternative treatment option and would abrogate the risks of alloreactivity. Methods Hematopoietic progenitor (Lin−ve) cells from XIAPy/− mice were transduced with a lentiviral vector encoding human XIAP cDNA before transplantation into irradiated XIAP y/− recipients. After 12 weeks animals were challenged with the dectin-1 ligand curdlan and recovery of innate immune function was evaluated though analysis of inflammatory cytokines, body weight, and splenomegaly. XIAP patient-derived CD14+ monocytes were transduced with the same vector and functional recovery was demonstrated using in vitro L18-MDP/NOD2 assays. Results In treated XIAPy/− mice, ~40% engraftment of gene-corrected Lin−ve cells led to significant recovery of weight loss, splenomegaly, and inflammatory cytokine responses to curdlan, comparable to wild-type mice. Serum IL-6, IL-10, MCP-1, and TNF were significantly reduced 2-h post-curdlan administration in non-corrected XIAPy/− mice compared to wild-type and gene-corrected animals. Appropriate reduction of inflammatory responses was observed in gene-corrected mice, whereas non-corrected mice developed an inflammatory profile 9 days post-curdlan challenge. In gene-corrected patient CD14+ monocytes, TNF responses were restored following NOD2 activation with L18-MDP. Conclusion Gene correction of HSCs recovers XIAP-dependent immune defects and could offer a treatment option for patients with XIAP deficiency.

Published

2022

35. AAV-p40 Bioengineering Platform for Variant Selection Based on Transgene Expression

Author

Adrian Westhaus, Marti Cabanes-Creus, Timo Jonker, Erwan Sallard, Renina Gale Navarro, Erhua Zhu, Grober Baltazar Torres, Scott Lee, Patrick Wilmott, Anai Gonzalez-Cordero, Giorgia Santilli, Adrian J. Thrasher, Ian E. Alexander, and Leszek Lisowski

Subjects

Transduction, Genetic, Genetic Vectors, Genetics, Humans, Molecular Medicine, Bioengineering, Capsid Proteins, RNA, Messenger, Transgenes, Dependovirus, Molecular Biology

Abstract

The power of adeno-associated viral (AAV)-directed evolution for identifying novel vector variants with improved properties is well established, as evidenced by numerous publications reporting novel AAV variants. However, most capsid variants reported to date have been identified using either replication-competent (RC) selection platforms or polymerase chain reaction-based capsid DNA recovery methods, which can bias the selection toward efficient replication or unproductive intracellular trafficking, respectively. A central objective of this study was to validate a functional transduction (FT)-based method for rapid identification of novel AAV variants based on AAV capsid mRNA expression in target cells. We performed a comparison of the FT platform with existing RC strategies. Based on the selection kinetics and function of novel capsids identified in an

Published

2022

36. Assessment of pre-clinical liver models based on their ability to predict the liver-tropism of adeno-associated virus vectors

Author

Adrian Westhaus, Marti Cabanes-Creus, Kimberley L. Dilworth, Erhua Zhu, David Salas Gómez, Renina G. Navarro, Anais K. Amaya, Suzanne Scott, Magdalena Kwiatek, Alexandra L. McCorkindale, Tara E. Hayman, Silke Frahm, Dany P. Perocheau, Bang Manh Tran, Elizabeth Vincan, Sharon L. Wong, Shafagh A. Waters, Georgina E. Riddiough, Marcos V. Perini, Laurence O.W. Wilson, Julien Baruteau, Sebastian Diecke, Gloria González-Aseguinolaza, Giorgia Santilli, Adrian J. Thrasher, Ian E. Alexander, and Leszek Lisowski

Subjects

Genetics, Molecular Medicine, Technology Platforms, Molecular Biology

Abstract

The liver is a prime target for in vivo gene therapies using recombinant adeno-associated viral vectors (rAAV). Multiple clinical trials have been undertaken for this target in the past 15 years, however we are still to see market approval of the first liver-targeted AAV-based gene therapy. Inefficient expression of the therapeutic transgene, vector-induced liver toxicity and capsid, and/or transgene-mediated immune responses reported at high vector doses are the main challenges to date. One of the contributing factors to the insufficient clinical outcomes, despite highly encouraging preclinical data, is the lack of robust, biologically- and clinically-predictive preclinical models. To this end, this study reports findings of a functional evaluation of six AAV vectors in twelve preclinical models of the human liver, with the aim to uncover which combination of models is the most relevant for the identification of AAV capsid variant for safe and efficient transgene delivery to primary human hepatocytes. The results, generated by studies in models ranging from immortalized cells, iPSC-derived and primary hepatocytes, and primary human hepatic organoids to in vivo models, increased our understanding of the strengths and weaknesses of each system. This should allow the development of novel gene therapies targeting the human liver.

Published

2023

37. Long-Term Outcome of Gene Therapy for X-Linked Severe Combined Immunodeficiency (SCID-X1) Using an Enhancer-Deleted Self-Inactivating Gammaretroviral Vector

Author

Sung-Yun Pai, Nisha Nagarsheth, Susan Prockop, Myriam Armant, Donald B. Kohn, Rebecca A. Marsh, Claire Booth, John K. Everett, Jack Bleesing, Deepak Chellapandian, Colleen Dansereau, Satiro de Oliveira, Wendy B. London, M. Angélica Marinovic, Theodore B. Moore, Matias Oleastro, Grainne O'Toole, Mark Vander Lugt, Luciano Urdinez, Kelly J. Walkovich, Jolan E. Walter, Axel Schambach, Adrian J. Thrasher, Frederic D. Bushman, and David A Williams

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

38. Long-Term Patient-Reported Outcomes Following Treatment with betibeglogene autotemcel in Patients with Transfusion-Dependent β-Thalassemia

Author

Franco Locatelli, Mark C. Walters, Janet L. Kwiatkowski, Marina Cavazzana, Suradej Hongeng, John B. Porter, Adrian J. Thrasher, Andreas E. Kulozik, Isabelle Thuret, John E.J. Rasko, Evangelia Yannaki, Martin G. Sauer, Shamshad Ali, Himal Thakar, Katiana Gruppioni, and Alexis A. Thompson

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

39. Long Term Outcomes of 63 Patients with Transfusion-Dependent β-Thalassemia (TDT) Followed up to 7 Years Post-Treatment with betibeglogene autotemcel (beti-cel) Gene Therapy and Exploratory Analysis of Predictors of Successful Treatment Outcomes in Phase 3 Trials

Author

Mark C. Walters, Janet L. Kwiatkowski, John B. Porter, Jennifer Schneiderman, Suradej Hongeng, Andreas E. Kulozik, Marina Cavazzana, Martin G. Sauer, Adrian J. Thrasher, Isabelle Thuret, Ashutosh Lal, John E.J. Rasko, Evangelia Yannaki, Shamshad Ali, Ilya Shestopalov, Maeva Fincker, Richard A. Colvin, Dustin Whitney, Franco Locatelli, and Alexis A. Thompson

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

40. Wiskott Aldrich Syndrome-2 Caused by Novel Wiskott Aldrich Syndrome Protein–Interacting Protein (WIP) Deficiency Is Associated with Juvenile Myelomonocytic Leukaemia — a Case Report

Author

Srividhya Senthil, Adrian J. Thrasher, Kimberly C. Gilmour, Thomas Wright, and Robert F. Wynn

Subjects

Immunology, Immunology and Allergy

Published

2022

41. Novel human liver-tropic AAV variants define transferable domains that markedly enhance the human tropism of AAV7 and AAV8

Author

Sophia H.Y. Liao, Suzanne Scott, Erhua Zhu, Loan Hanh Nguyen, Adrian Westhaus, Adrian J. Thrasher, Grober Baltazar, Renina Gale Navarro, Anais K. Amaya, Marti Cabanes-Creus, Leszek Lisowski, Matthieu Drouyer, Laurence O. W. Wilson, Ian E. Alexander, and Matthias Hebben

Subjects

bioengineered vectors, viruses, Transgene, xenograft model, Computational biology, QH426-470, Gene delivery, Vectors in gene therapy, Biology, recombinant vectors, Transduction (genetics), Genetics, Molecular Biology, Tropism, bioengineering, QH573-671, Mechanism (biology), AAV, adeno-associated vectors, Directed evolution, gene therapy, preclinical liver model, Capsid, Molecular Medicine, Original Article, Cytology, liver-tropic

Abstract

Recent clinical successes have intensified interest in using adeno-associated virus (AAV) vectors for therapeutic gene delivery. The liver is a key clinical target, given its critical physiological functions and involvement in a wide range of genetic diseases. Here, we report the bioengineering of a set of next-generation AAV vectors, named AAV-SYDs (where “SYD” stands for Sydney, Australia), with increased human hepato-tropism in a liver xenograft mouse model repopulated with primary human hepatocytes. We followed a two-step process that staggered directed evolution and domain-swapping approaches. Using DNA-family shuffling, we first mapped key AAV capsid regions responsible for efficient human hepatocyte transduction in vivo. Focusing on these regions, we next applied domain-swapping strategies to identify and study key capsid residues that enhance primary human hepatocyte uptake and transgene expression. Our findings underscore the potential of AAV-SYDs as liver gene therapy vectors and provide insights into the mechanism responsible for their enhanced transduction profile., Graphical Abstract, Using DNA-family shuffling and directed evolution, AAV variable regions (VRs) responsible for efficient human hepatocyte transduction in vivo were identified. Dissection of these regions via domain-swapping strategies defined key transferable domains that markedly enhanced primary human hepatocyte uptake and transgene expression of AAV7 and AAV8.

Published

2022

42. Betibeglogene Autotemcel Gene Therapy for Non–β0/β0 Genotype β-Thalassemia

Author

Franco Locatelli, Alexis A. Thompson, Janet L. Kwiatkowski, John B. Porter, Adrian J. Thrasher, Suradej Hongeng, Martin G. Sauer, Isabelle Thuret, Ashutosh Lal, Mattia Algeri, Jennifer Schneiderman, Timothy S. Olson, Ben Carpenter, Persis J. Amrolia, Usanarat Anurathapan, Axel Schambach, Christian Chabannon, Manfred Schmidt, Ivan Labik, Heidi Elliot, Ruiting Guo, Mohammed Asmal, Richard A. Colvin, and Mark C. Walters

Subjects

thalassemia, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, General Medicine, gene therapy

Published

2022

43. Safety and efficacy of an engineered hepatotropic AAV gene therapy for ornithine transcarbamylase deficiency in cynomolgus monkeys

Author

Sharon C. Cunningham, Julien Baruteau, Derek Burke, Adrian J. Thrasher, Berna Seker Yilmaz, Simon Eaglestone, Paul Gissen, Simon N. Waddington, Ian E. Alexander, Dany P. Perocheau, and Leszek Lisowski

Subjects

medicine.medical_treatment, Genetic enhancement, adeno-associated virus, Pharmacology, Liver transplantation, QH426-470, medicine.disease_cause, liver, immune response, engineered capsid, Immune system, Genetics, Medicine, Vector (molecular biology), Molecular Biology, Adeno-associated virus, biodistribution, Ornithine transcarbamylase deficiency, AAVLK03, QH573-671, business.industry, Immunosuppression, AAV, medicine.disease, ornithine transcarbamylase deficiency, Urea cycle, Molecular Medicine, Original Article, non-human primates, business, cynomolgus macaque, Cytology

Abstract

X-linked inherited ornithine transcarbamylase deficiency (OTCD) is the most common disorder affecting the liver-based urea cycle, a pathway enabling detoxification of nitrogen waste and endogenous arginine biosynthesis. Patients develop acute hyperammonemia leading to neurological sequelae or death despite the best-accepted therapy based on ammonia scavengers and protein-restricted diet. Liver transplantation is curative but associated with procedure-related complications and lifelong immunosuppression. Adeno-associated viral (AAV) vectors have demonstrated safety and clinical benefits in a rapidly growing number of clinical trials for inherited metabolic liver diseases. Engineered AAV capsids have shown promising enhanced liver tropism. Here, we conducted a good-laboratory practice-compliant investigational new drug-enabling study to assess the safety of intravenous liver-tropic AAVLK03 gene transfer of a human codon-optimized OTC gene. Juvenile cynomolgus monkeys received vehicle and a low and high dose of vector (2 × 1012 and 2 × 1013 vector genome (vg)/kg, respectively) and were monitored for 26 weeks for in-life safety with sequential liver biopsies at 1 and 13 weeks post-vector administration. Upon completion of monitoring, animals were euthanized to study vector biodistribution, immune responses, and histopathology. The product was well tolerated with no adverse clinical events, predominant hepatic biodistribution, and sustained supra-physiological OTC overexpression. This study supports the clinical deployment of intravenous AAVLK03 for severe OTCD., Graphical abstract, A preclinical study of the AAVLK03 vector encoding the human ornithine transcarbamylase (OTC) transgene administered intravenously in juvenile cynomolgus macaques shows no safety concerns, preferential liver biodistribution, and persistent supraphysiological increase of liver OTC activity. These findings support a phase I/II clinical trial in pediatric OTC-deficient patients.

Published

2021

44. Preclinical Optimization and Safety Studies of a New Lentiviral Gene Therapy for p47phox-Deficient Chronic Granulomatous Disease

Author

Hubert B. Gaspar, Giuseppa Piras, Karen F. Buckland, Sara Benedetti, Giorgia Santilli, Adrian J. Thrasher, Michael Rothe, Diego Leon-Rico, Michael Ashworth, Narda Theobald, Winston Vetharoy, Elena Armenteros-Monterroso, Uimook Choi, Harry L. Malech, Elizabeth M. Kang, Christine Rivat, Axel Schambach, and Andrea Schejtman

Subjects

Genetic enhancement, CD34, Clinical Developments, chronic granulomatous disease, Granulomatous Disease, Chronic, Viral vector, 03 medical and health sciences, Mice, 0302 clinical medicine, Chronic granulomatous disease, Genetics, Medicine, Animals, Humans, Tissue Distribution, Molecular Biology, biodistribution, Oxazoles, 030304 developmental biology, 0303 health sciences, business.industry, lentiviral gene therapy, genotoxicity, NADPH Oxidases, Genetic Therapy, medicine.disease, Clinical trial, Haematopoiesis, 030220 oncology & carcinogenesis, Immunology, Molecular Medicine, Stem cell, business, Homing (hematopoietic)

Abstract

Chronic granulomatous disease (CGD) is an inherited blood disorder of phagocytic cells that renders patients susceptible to infections and inflammation. A recent clinical trial of lentiviral gene therapy for the most frequent form of CGD, X-linked, has demonstrated stable correction over time, with no adverse events related to the gene therapy procedure. We have recently developed a parallel lentiviral vector for p47phox-deficient CGD (p47phoxCGD), the second most common form of this disease. Using this vector, we have observed biochemical correction of CGD in a mouse model of the disease. In preparation for clinical trial approval, we have performed standardized preclinical studies following Good Laboratory Practice (GLP) principles, to assess the safety of the gene therapy procedure. We report no evidence of adverse events, including mutagenesis and tumorigenesis, in human hematopoietic stem cells transduced with the lentiviral vector. Biodistribution studies of transduced human CD34+ cells indicate that the homing properties or engraftment ability of the stem cells is not negatively affected. CD34+ cells derived from a p47phoxCGD patient were subjected to an optimized transduction protocol and transplanted into immunocompromised mice. After the procedure, patient-derived neutrophils resumed their function, suggesting that gene correction was successful. These studies pave the way to a first-in-man clinical trial of lentiviral gene therapy for the treatment of p47phoxCGD.

Published

2021

45. Assessment of pre-clinical liver models based on their ability to predict the liver-tropism of AAV vectors

Author

Adrian Westhaus, Marti Cabanes-Creus, Kimberley L. Dilworth, Erhua Zhu, David Salas Gómez, Renina G. Navarro, Anais K. Amaya, Suzanne Scott, Magdalena Kwiatek, Alexandra L. McCorkindale, Tara E. Hayman, Silke Frahm, Dany P. Perocheau, Bang Manh Tran, Elizabeth Vincan, Sharon L. Wong, Shafagh A. Waters, Laurence O. W. Wilson, Julien Baruteau, Sebastian Diecke, Gloria González-Aseguinolaza, Giorgia Santilli, Adrian J. Thrasher, Ian E. Alexander, and Leszek Lisowski

Abstract

The liver is a prime target for in vivo gene therapies using recombinant adeno-associated viral vectors (rAAV). Multiple clinical trials have been undertaken for this target in the past 15 years, however we are still to see market approval of the first liver-targeted AAV-based gene therapy. Inefficient expression of the therapeutic transgene, vector-induced liver toxicity and capsid, and/or transgene-mediated immune responses reported at high vector doses are the main challenges to date. One of the contributing factors to the insufficient clinical outcomes, despite highly encouraging preclinical data, is the lack of robust, biologically- and clinically-predictive preclinical models. To this end, this study reports findings of a functional evaluation of six AAV vectors in twelve preclinical models of the human liver, with the aim to uncover which model is the most relevant for the selection of AAV capsid variant for safe and efficient transgene delivery to primary human hepatocytes. The results, generated by studies in models ranging from immortalized cells, iPSC-derived and primary hepatocytes, and primary human hepatic organoids to in vivo models, increased our understanding of the strengths and weaknesses of each system. This should allow the development of novel gene therapies targeting the human liver.

Published

2022

46. Comparison of Outcomes in Patients with Cerebral Adrenoleukodystrophy (CALD) Receiving Elivaldogene Autotemcel (eli-cel; Lenti-D) Gene Therapy in Clinical Trials Versus Those Receiving Allogeneic Hematopoietic Stem Cell Transplant in a Contemporaneous Comparator Study

Author

Christine N. Duncan, Jörn-Sven Kühl, Robert Chiesa, Jaap-Jan Boelens, Florian Eichler, Caroline Sevin, Jean-Hugues Dalle, Satiro N. De Oliveira, Hernan M. Amartino, Neena Kapoor, Vinod K. Prasad, Simon Jones, Mattia Algeri, Nancy J. Bunin, Cristina Diaz-de-Heredia, Adrian J. Thrasher, Juliana Folloni Fernandes, Nicholas Smith, Ami J Shah, Franco Locatelli, Marc Engelen, Caroline A. Lindemans, Andrew C. Dietz, Lin Pan, Jakob Sieker, David A. Williams, and Paul J. Orchard

Subjects

Transplantation, Molecular Medicine, Immunology and Allergy, Cell Biology, Hematology

Published

2022

47. Long-term Outcomes of 63 Patients with Transfusion-Dependent β-Thalassemia (TDT) Followed-up to 7 Years after Treatment with betibeglogene autotemcel (beti-cel) Gene Therapy (GT) and Factors Impacting Neutrophil and Platelet Engraftment

Author

Timothy S. Olson, Mark C. Walters, Janet L. Kwiatkowski, John B. Porter, Jennifer Schneiderman, Suradej Hongeng, Andreas E. Kulozik, Marina Cavazzana, Martin G. Sauer, Adrian J. Thrasher, Isabelle Thuret, Ashutosh Lal, John E.J. Rasko, Evangelia Yannaki, Shamshad Ali, Richard A. Colvin, Franco Locatelli, and Alexis A. Thompson

Subjects

Transplantation, Molecular Medicine, Immunology and Allergy, Cell Biology, Hematology

Published

2023

48. Lentiviral-Mediated Ex-Vivo Gene Therapy for Pediatric Patients with Severe Leukocyte Adhesion Deficiency-I (LAD-I): Interim Results from an Ongoing Phase 1/2 Study

Author

Claire Booth, Julian Sevilla, Gayatri Rao, Maria Chitty Lopez, Elena Almarza, Dayna Terrazas, Josune Zubicaray, Marta Gonzalez-Vicent, Kritika Chetty, Jinhua Xu-Bayford, Grainne O’Toole, Augustine Fernandes, Caroline Y. Kuo, Satiro N. De Oliveira, Cristina Mesa-Núñez, Theodore B. Moore, Eileen Nicoletti, Grace Choi, Miriam Zeini, Adrian J. Thrasher, Juan Bueren, Jonathan Schwartz, and Donald B. Kohn

Subjects

Transplantation, Molecular Medicine, Immunology and Allergy, Cell Biology, Hematology

Published

2023

49. Immunodeficiency, autoimmunity, and increased risk of B cell malignancy in humans with

Author

William, Rae, John M, Sowerby, Dorit, Verhoeven, Mariam, Youssef, Prasanti, Kotagiri, Natalia, Savinykh, Eve L, Coomber, Alexis, Boneparth, Angela, Chan, Chun, Gong, Machiel H, Jansen, Romy, du Long, Giorgia, Santilli, Ilenia, Simeoni, Jonathan, Stephens, Kejia, Wu, Marta, Zinicola, Hana Lango, Allen, Helen, Baxendale, Dinakantha, Kumararatne, Effrossyni, Gkrania-Klotsas, Selma C, Scheffler Mendoza, Marco Antonio, Yamazaki-Nakashimada, Laura Berrón, Ruiz, Cesar Mauricio, Rojas-Maruri, Saul O, Lugo Reyes, Paul A, Lyons, Anthony P, Williams, Daniel J, Hodson, Gail A, Bishop, Adrian J, Thrasher, David C, Thomas, Michael P, Murphy, Timothy J, Vyse, Joshua D, Milner, Taco W, Kuijpers, and Kenneth G C, Smith

Subjects

B-Lymphocytes, TNF Receptor-Associated Factor 3, Neoplasms, Mutation, Humans, Autoimmunity

Abstract

Tumor necrosis factor receptor-associated factor 3 (TRAF3) is a central regulator of immunity. TRAF3 is often somatically mutated in B cell malignancies, but its role in human immunity is not defined. Here, in five unrelated families, we describe an immune dysregulation syndrome of recurrent bacterial infections, autoimmunity, systemic inflammation, B cell lymphoproliferation, and hypergammaglobulinemia. Affected individuals each had monoallelic mutations in

Published

2022

50. Autologous Ex Vivo Lentiviral Gene Therapy for Adenosine Deaminase Deficiency

Author

Donald B. Kohn, Claire Booth, Kit L. Shaw, Jinhua Xu-Bayford, Elizabeth Garabedian, Valentina Trevisan, Denise A. Carbonaro-Sarracino, Kajal Soni, Dayna Terrazas, Katie Snell, Alan Ikeda, Diego Leon-Rico, Theodore B. Moore, Karen F. Buckland, Ami J. Shah, Kimberly C. Gilmour, Satiro De Oliveira, Christine Rivat, Gay M. Crooks, Natalia Izotova, John Tse, Stuart Adams, Sally Shupien, Hilory Ricketts, Alejandra Davila, Chilenwa Uzowuru, Amalia Icreverzi, Provaboti Barman, Beatriz Campo Fernandez, Roger P. Hollis, Maritess Coronel, Allen Yu, Krista M. Chun, Christian E. Casas, Ruixue Zhang, Serena Arduini, Frances Lynn, Mahesh Kudari, Andrea Spezzi, Marco Zahn, Rene Heimke, Ivan Labik, Roberta Parrott, Rebecca H. Buckley, Lilith Reeves, Kenneth Cornetta, Robert Sokolic, Michael Hershfield, Manfred Schmidt, Fabio Candotti, Harry L. Malech, Adrian J. Thrasher, and H. Bobby Gaspar

Subjects

Adenosine Deaminase, Genetic enhancement, 030204 cardiovascular system & hematology, Regenerative Medicine, Medical and Health Sciences, 0302 clinical medicine, Adenosine deaminase, Stem Cell Research - Nonembryonic - Human, Agammaglobulinemia, immune system diseases, Medicine, Prospective Studies, 030212 general & internal medicine, Child, 6.2 Cellular and gene therapies, biology, Hematopoietic Stem Cell Transplantation, hemic and immune systems, Gene Therapy, General Medicine, Progression-Free Survival, Child, Preschool, Development of treatments and therapeutic interventions, Autologous, Biotechnology, congenital, hereditary, and neonatal diseases and abnormalities, Adolescent, Genetic Vectors, Transplantation, Autologous, Article, 03 medical and health sciences, Clinical Research, General & Internal Medicine, Genetics, Humans, Lymphocyte Count, Preschool, Transplantation, Severe combined immunodeficiency, 5.2 Cellular and gene therapies, business.industry, Extramural, Lentivirus, Evaluation of treatments and therapeutic interventions, Infant, nutritional and metabolic diseases, Genetic Therapy, Stem Cell Research, medicine.disease, Adenosine deaminase deficiency, enzymes and coenzymes (carbohydrates), Good Health and Well Being, Primary immunodeficiency, Cancer research, biology.protein, Severe Combined Immunodeficiency, business, Ex vivo

Abstract

BACKGROUND: Severe combined immunodeficiency due to adenosine deaminase (ADA) deficiency (ADA-SCID) is a rare and life-threatening primary immunodeficiency. METHODS: We treated 50 patients with ADA-SCID (30 in the United States and 20 in the United Kingdom) with an investigational gene therapy composed of autologous CD34+ hematopoietic stem and progenitor cells (HSPCs) transduced ex vivo with a self-inactivating lentiviral vector encoding human ADA. Data from the two U.S. studies (in which fresh and cryopreserved formulations were used) at 24 months of follow-up were analyzed alongside data from the U.K. study (in which a fresh formulation was used) at 36 months of follow-up. RESULTS: Overall survival was 100% in all studies up to 24 and 36 months. Event-free survival (in the absence of reinitiation of enzyme-replacement therapy or rescue allogeneic hematopoietic stem-cell transplantation) was 97% (U.S. studies) and 100% (U.K. study) at 12 months; 97% and 95%, respectively, at 24 months; and 95% (U.K. study) at 36 months. Engraftment of genetically modified HSPCs persisted in 29 of 30 patients in the U.S. studies and in 19 of 20 patients in the U.K. study. Patients had sustained metabolic detoxification and normalization of ADA activity levels. Immune reconstitution was robust, with 90% of the patients in the U.S. studies and 100% of those in the U.K. study discontinuing immunoglobulin-replacement therapy by 24 months and 36 months, respectively. No evidence of monoclonal expansion, leukoproliferative complications, or emergence of replication-competent lentivirus was noted, and no events of autoimmunity or graft-versus-host disease occurred. Most adverse events were of low grade. CONCLUSIONS: Treatment of ADA-SCID with ex vivo lentiviral HSPC gene therapy resulted in high overall and event-free survival with sustained ADA expression, metabolic correction, and functional immune reconstitution. (Funded by the National Institutes of Health and others; ClinicalTrials.gov numbers, NCT01852071, NCT02999984, and NCT01380990.)

Published

2021