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20,993 results on '"GENETIC vectors"'

2. From one experiment to the next.

Author

Verma IM

Subjects
Animals, California, Genetic Therapy methods, History, 20th Century, Humans, Biotechnology history, Genetic Vectors, Genetics history, Viruses genetics
Published
2005

5. [Debate on evolutionism].

Author

Omodeo P and Sermonti G

Subjects
DNA, Genes, Genes, Regulator, Genetic Vectors, Humans, Selection, Genetic, Biological Evolution, Genetics
Published
1981

6. Perimacular Atrophy Following Voretigene Neparvovec-Rzyl Treatment in the Setting of Previous Contralateral Eye Treatment With a Different Viral Vector

Author

Ku, Cristy A, Igelman, Austin D, Huang, Samuel J, Bailey, Steven T, Lauer, Andreas K, Duncan, Jacque L, Weleber, Richard G, Yang, Paul, and Pennesi, Mark E

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Gene Therapy, Eye Disease and Disorders of Vision, Neurosciences, Clinical Research, Biotechnology, Rare Diseases, Genetics, Clinical Trials and Supportive Activities, Eye, Humans, Retrospective Studies, Genetic Vectors, Genetic Therapy, Male, Female, Child, Visual Acuity, Tomography, Optical Coherence, cis-trans-Isomerases, Dependovirus, Atrophy, Visual Fields, voretigene, chorioretinal atrophy, gene therapy, RPE65, inherited retinal disease, Biomedical Engineering, Opthalmology and Optometry, Ophthalmology and optometry
Abstract

PurposeTo report on cases of unilateral perimacular atrophy after treatment with voretigene neparvovec-rzyl, in the setting of previous contralateral eye treatment with a different viral vector.DesignSingle-center, retrospective chart review.MethodsIn this case series, four patients between the ages of six and 11 years old with RPE65-related retinopathy were treated unilaterally with rAAV2-CB-hRPE65 as part of a gene augmentation clinical trial (NCT00749957). Six to 10 years later the contralateral eyes were treated with the Food and Drug Administration-approved drug, voretigene neparvovec-rzyl. Best-corrected visual acuity (BCVA), fundus photos, ocular coherence tomography, two-color dark-adapted perimetry, full field stimulus threshold testing (FST), and location of subretinal bleb and chorioretinal atrophy were evaluated.ResultsThree out of four patients showed unilateral perimacular atrophy after treatment with voretigene, ranging from five to 22 months after treatment. Areas of robust visual field improvement were followed by areas of chorioretinal atrophy. Despite perimacular changes, BCVA, FST, and subjective improvements in vision and nyctalopia were maintained. Perimacular atrophy was not observed in the first eye treated with the previous viral vector.ConclusionsWe observed areas of robust visual field improvement followed by perimacular atrophy in voretigene treated eyes, as compared to the initially treated contralateral eyes.Translational relevanceCaution is advised when using two different viral vectors between eyes in gene therapy. This may become an important issue in the future with increasing gene therapy clinical trials for inherited retinal dystrophies.

Published
2024

7. Envelope protein-specific B cell receptors direct lentiviral vector tropism in vivo

Author

Takano, Kari-Ann, Wong, Anita AL, Brown, Rebecca, Situ, Kathy, Chua, Bernadette Anne, Abu, Angel Elma, Pham, Truc T, Reyes, Glania Carel, Ramachandran, Sangeetha, Kamata, Masakazu, Li, Melody MH, Wu, Ting-Ting, Rao, Dinesh S, Arumugaswami, Vaithilingaraja, Dorshkind, Kenneth, Cole, Steve, and Morizono, Kouki

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Biotechnology, Genetics, Gene Therapy, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Lentivirus, Receptors, Antigen, B-Cell, Genetic Vectors, Animals, Mice, Transduction, Genetic, B-Lymphocytes, Viral Envelope Proteins, Transgenes, Viral Tropism, Humans, Virus Internalization, B cell receptors, B cells, biodistribution, lentiviral vectors, pseudotyping envelope proteins, targeting, tropism, viral entry, viral receptors, Biological Sciences, Technology, Medical and Health Sciences, Clinical sciences, Medical biotechnology
Abstract

While studying transgene expression after systemic administration of lentiviral vectors, we found that splenic B cells are robustly transduced, regardless of the types of pseudotyped envelope proteins. However, the administration of two different pseudotypes resulted in transduction of two distinct B cell populations, suggesting that each pseudotype uses unique and specific receptors for its attachment and entry into splenic B cells. Single-cell RNA sequencing analysis of the transduced cells demonstrated that different pseudotypes transduce distinct B cell subpopulations characterized by specific B cell receptor (BCR) genotypes. Functional analysis of the BCRs of the transduced cells demonstrated that BCRs specific to the pseudotyping envelope proteins mediate viral entry, enabling the vectors to selectively transduce the B cell populations that are capable of producing antibodies specific to their envelope proteins. Lentiviral vector entry via the BCR activated the transduced B cells and induced proliferation and differentiation into mature effectors, such as memory B and plasma cells. BCR-mediated viral entry into clonally specific B cell subpopulations raises new concepts for understanding the biodistribution of transgene expression after systemic administration of lentiviral vectors and offers new opportunities for BCR-targeted gene delivery by pseudotyped lentiviral vectors.

Published
2024

8. Tetracycline‐Inducible and Reversible Stable Gene Expression in Human iPSC‐Derived Neural Progenitors and in the Postnatal Mouse Brain

Author

Linesch, Paul W, Akhtar, Aslam Abbasi, and Breunig, Joshua J

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Stem Cell Research - Embryonic - Non-Human, Neurosciences, Stem Cell Research - Induced Pluripotent Stem Cell, Regenerative Medicine, Genetics, Stem Cell Research, Biotechnology, Stem Cell Research - Induced Pluripotent Stem Cell - Human, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Humans, Animals, Mice, Doxycycline, Induced Pluripotent Stem Cells, Genes, Reporter, Genetic Vectors, DNA Transposable Elements, Anti-Bacterial Agents, Tetracycline, Luciferases, Gene Expression, Brain, Mammals, directed differentiation, iPSC, safe harbor site, transgenesis, transposon
Abstract

Our group has developed several approaches for stable, non-viral integration of inducible transgenic elements into the genome of mammalian cells. Specifically, a piggyBac tetracycline-inducible genetic element of interest (pB-tet-GOI) plasmid system allows for stable piggyBac transposition-mediated integration into cells, identification of cells that have been transfected using a fluorescent nuclear reporter, and robust transgene activation or suppression upon the addition of doxycycline (dox) to the cell culture or the diet of the animal. Furthermore, the addition of luciferase downstream of the target gene allows for quantitative assessment of gene activity in a non-invasive manner. More recently, we have developed a transgenic system as an alternative to piggyBac called mosaic analysis by dual recombinase-mediated cassette exchange (MADR), as well as additional in vitro transfection techniques and in vivo dox chow applications. The protocols herein provide instructions for the use of this system in cell lines and in the neonatal mouse brain. © 2023 Wiley Periodicals LLC. Basic Protocol 1: Cloning of respective genetic element of interest (GOI) into response plasmid Basic Protocol 2: In vitro nucleofection of iPSC-derived human/mouse neural progenitor cells and subsequent derivation of stable inducible cell lines Alternate Protocol: In vitro electroporation of iPSC-derived human/mouse neural progenitor cells Support Protocol: Recovery stage after in vitro transfection Basic Protocol 3: Adding doxycycline to cells to induce/reverse GOI Basic Protocol 4: Assessing gene expression in vitro by non-invasive bioluminescence imaging of luciferase activity.

Published
2023

9. Functional gene delivery to and across brain vasculature of systemic AAVs with endothelial-specific tropism in rodents and broad tropism in primates.

Author

Chen, Xinhong, Wolfe, Damien A, Bindu, Dhanesh Sivadasan, Zhang, Mengying, Taskin, Naz, Goertsen, David, Shay, Timothy F, Sullivan, Erin E, Huang, Sheng-Fu, Ravindra Kumar, Sripriya, Arokiaraj, Cynthia M, Plattner, Viktor M, Campos, Lillian J, Mich, John K, Monet, Deja, Ngo, Victoria, Ding, Xiaozhe, Omstead, Victoria, Weed, Natalie, Bishaw, Yeme, Gore, Bryan B, Lein, Ed S, Akrami, Athena, Miller, Cory, Levi, Boaz P, Keller, Annika, Ting, Jonathan T, Fox, Andrew S, Eroglu, Cagla, and Gradinaru, Viviana

Subjects
Brain, Endothelial Cells, Animals, Mice, Knockout, Macaca mulatta, Rodentia, Mice, Rats, Dependovirus, Calcium-Binding Proteins, Extracellular Matrix Proteins, Transduction, Genetic, Tropism, Genetic Vectors, Biotechnology, Genetics, Gene Therapy, Neurosciences, Neurological
Abstract

Delivering genes to and across the brain vasculature efficiently and specifically across species remains a critical challenge for addressing neurological diseases. We have evolved adeno-associated virus (AAV9) capsids into vectors that transduce brain endothelial cells specifically and efficiently following systemic administration in wild-type mice with diverse genetic backgrounds, and in rats. These AAVs also exhibit superior transduction of the CNS across non-human primates (marmosets and rhesus macaques), and in ex vivo human brain slices, although the endothelial tropism is not conserved across species. The capsid modifications translate from AAV9 to other serotypes such as AAV1 and AAV-DJ, enabling serotype switching for sequential AAV administration in mice. We demonstrate that the endothelial-specific mouse capsids can be used to genetically engineer the blood-brain barrier by transforming the mouse brain vasculature into a functional biofactory. We apply this approach to Hevin knockout mice, where AAV-X1-mediated ectopic expression of the synaptogenic protein Sparcl1/Hevin in brain endothelial cells rescued synaptic deficits.

Published
2023

10. Synthetic virology approaches to improve the safety and efficacy of oncolytic virus therapies.

Author

Azad, Taha, Rezaei, Reza, Singaravelu, Ragunath, Pelin, Adrian, Boulton, Stephen, Petryk, Julia, Onsu, Kemal Alper, Martin, Nikolas T, Hoskin, Victoria, Ghahremani, Mina, Marotel, Marie, Marius, Ricardo, He, Xiaohong, Crupi, Mathieu JF, Hoang, Huy-Dung, Nik-Akhtar, Abolfazl, Ahmadi, Mahsa, Zamani, Nika Kooshki, Golshani, Ashkan, Alain, Tommy, Greer, Peter, Ardolino, Michele, Dickinson, Bryan C, Tai, Lee-Hwa, Ilkow, Carolina S, and Bell, John C

Subjects
Vaccinia virus, Genetic Vectors, Oncolytic Virotherapy, Oncolytic Viruses, Promoter Regions, Genetic, Gene Therapy, Genetics, Biotechnology, Good Health and Well Being
Abstract

The large coding potential of vaccinia virus (VV) vectors is a defining feature. However, limited regulatory switches are available to control viral replication as well as timing and dosing of transgene expression in order to facilitate safe and efficacious payload delivery. Herein, we adapt drug-controlled gene switches to enable control of virally encoded transgene expression, including systems controlled by the FDA-approved rapamycin and doxycycline. Using ribosome profiling to characterize viral promoter strength, we rationally design fusions of the operator element of different drug-inducible systems with VV promoters to produce synthetic promoters yielding robust inducible expression with undetectable baseline levels. We also generate chimeric synthetic promoters facilitating additional regulatory layers for VV-encoded synthetic transgene networks. The switches are applied to enable inducible expression of fusogenic proteins, dose-controlled delivery of toxic cytokines, and chemical regulation of VV replication. This toolbox enables the precise modulation of transgene circuitry in VV-vectored oncolytic virus design.

Published
2023

11. Gene Therapy for β-Hemoglobinopathies: From Discovery to Clinical Trials

Author

Segura, Eva Eugenie Rose, Ayoub, Paul George, Hart, Kevyn Lopez, and Kohn, Donald Barry

Subjects
Microbiology, Biological Sciences, Hematology, Stem Cell Research - Nonembryonic - Human, Clinical Research, Sickle Cell Disease, Clinical Trials and Supportive Activities, Transplantation, Orphan Drug, Cooley's Anemia, Genetics, Biotechnology, Stem Cell Research, Regenerative Medicine, Gene Therapy, Rare Diseases, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Blood, Good Health and Well Being, Humans, beta-Thalassemia, Hematopoietic Stem Cell Transplantation, Genetic Vectors, Hemoglobinopathies, Anemia, Sickle Cell, Genetic Therapy, beta-Globins, gene therapy, autologous hematopoietic stem-cell transplant, beta-hemoglobinopathies, beta-thalassemia, sickle cell disease, lentiviral vectors, clinical trials, beta-globin genes, β-globin genes, β-hemoglobinopathies, β-thalassemia
Abstract

Investigations to understand the function and control of the globin genes have led to some of the most exciting molecular discoveries and biomedical breakthroughs of the 20th and 21st centuries. Extensive characterization of the globin gene locus, accompanied by pioneering work on the utilization of viruses as human gene delivery tools in human hematopoietic stem and progenitor cells (HPSCs), has led to transformative and successful therapies via autologous hematopoietic stem-cell transplant with gene therapy (HSCT-GT). Due to the advanced understanding of the β-globin gene cluster, the first diseases considered for autologous HSCT-GT were two prevalent β-hemoglobinopathies: sickle cell disease and β-thalassemia, both affecting functional β-globin chains and leading to substantial morbidity. Both conditions are suitable for allogeneic HSCT; however, this therapy comes with serious risks and is most effective using an HLA-matched family donor (which is not available for most patients) to obtain optimal therapeutic and safe benefits. Transplants from unrelated or haplo-identical donors carry higher risks, although they are progressively improving. Conversely, HSCT-GT utilizes the patient's own HSPCs, broadening access to more patients. Several gene therapy clinical trials have been reported to have achieved significant disease improvement, and more are underway. Based on the safety and the therapeutic success of autologous HSCT-GT, the U.S. Food and Drug Administration (FDA) in 2022 approved an HSCT-GT for β-thalassemia (Zynteglo™). This review illuminates the β-globin gene research journey, adversities faced, and achievements reached; it highlights important molecular and genetic findings of the β-globin locus, describes the predominant globin vectors, and concludes by describing promising results from clinical trials for both sickle cell disease and β-thalassemia.

Published
2023

12. Lentiviral Gene Therapy for Artemis-Deficient SCID

Author

Cowan, Morton J, Yu, Jason, Facchino, Janelle, Fraser-Browne, Carol, Sanford, Ukina, Kawahara, Misako, Dara, Jasmeen, Long-Boyle, Janel, Oh, Jess, Chan, Wendy, Chag, Shivali, Broderick, Lori, Chellapandian, Deepak, Decaluwe, Hélène, Golski, Catherine, Hu, Diana, Kuo, Caroline Y, Miller, Holly K, Petrovic, Aleksandra, Currier, Robert, Hilton, Joan F, Punwani, Divya, Dvorak, Christopher C, Malech, Harry L, McIvor, R Scott, and Puck, Jennifer M

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Hematology, Transplantation, Regenerative Medicine, Gene Therapy, Biotechnology, Pediatric, Genetics, Vaccine Related, 6.2 Cellular and gene therapies, 5.2 Cellular and gene therapies, Evaluation of treatments and therapeutic interventions, Development of treatments and therapeutic interventions, Inflammatory and immune system, Good Health and Well Being, Humans, Infant, Busulfan, Genetic Therapy, Immunoglobulin M, Severe Combined Immunodeficiency, DNA Repair Enzymes, Antigens, CD34, Transplantation, Autologous, Lentivirus, Genetic Vectors, T-Lymphocytes, B-Lymphocytes, Medical and Health Sciences, General & Internal Medicine, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundThe DNA-repair enzyme Artemis is essential for rearrangement of T- and B-cell receptors. Mutations in DCLRE1C, which encodes Artemis, cause Artemis-deficient severe combined immunodeficiency (ART-SCID), which is poorly responsive to allogeneic hematopoietic-cell transplantation.MethodsWe carried out a phase 1-2 clinical study of the transfusion of autologous CD34+ cells, transfected with a lentiviral vector containing DCLRE1C, in 10 infants with newly diagnosed ART-SCID. We followed them for a median of 31.2 months.ResultsMarrow harvest, busulfan conditioning, and lentiviral-transduced CD34+ cell infusion produced the expected grade 3 or 4 adverse events. All the procedures met prespecified criteria for feasibility at 42 days after infusion. Gene-marked T cells were detected at 6 to 16 weeks after infusion in all the patients. Five of 6 patients who were followed for at least 24 months had T-cell immune reconstitution at a median of 12 months. The diversity of T-cell receptor β chains normalized by 6 to 12 months. Four patients who were followed for at least 24 months had sufficient B-cell numbers, IgM concentration, or IgM isohemagglutinin titers to permit discontinuation of IgG infusions. Three of these 4 patients had normal immunization responses, and the fourth has started immunizations. Vector insertion sites showed no evidence of clonal expansion. One patient who presented with cytomegalovirus infection received a second infusion of gene-corrected cells to achieve T-cell immunity sufficient for viral clearance. Autoimmune hemolytic anemia developed in 4 patients 4 to 11 months after infusion; this condition resolved after reconstitution of T-cell immunity. All 10 patients were healthy at the time of this report.ConclusionsInfusion of lentiviral gene-corrected autologous CD34+ cells, preceded by pharmacologically targeted low-exposure busulfan, in infants with newly diagnosed ART-SCID resulted in genetically corrected and functional T and B cells. (Funded by the California Institute for Regenerative Medicine and the National Institute of Allergy and Infectious Diseases; ClinicalTrials.gov number, NCT03538899.).

Published
2022

13. Immune Responses and Immunosuppressive Strategies for Adeno-Associated Virus-Based Gene Therapy for Treatment of Central Nervous System Disorders: Current Knowledge and Approaches

Author

Prasad, Suyash, Dimmock, David P, Greenberg, Benjamin, Walia, Jagdeep S, Sadhu, Chanchal, Tavakkoli, Fatemeh, and Lipshutz, Gerald S

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Immunology, Neurosciences, Gene Therapy, Biotechnology, Genetics, Rare Diseases, Prevention, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Humans, Dependovirus, Genetic Vectors, Genetic Therapy, Immunity, Humoral, Immunosuppressive Agents, Central Nervous System Diseases, CNS, adaptive immunity, adeno-associated virus, gene therapy, immunosuppression, innate immunity, Clinical Sciences, Medical biotechnology
Abstract

Adeno-associated viruses (AAVs) are being increasingly used as gene therapy vectors in clinical studies especially targeting central nervous system (CNS) disorders. Correspondingly, host immune responses to the AAV capsid or the transgene-encoded protein have been observed in various clinical and preclinical studies. Such immune responses may adversely impact patients' health, prevent viral transduction, prevent repeated dosing strategies, eliminate transduced cells, and pose a significant barrier to the potential effectiveness of AAV gene therapy. Consequently, multiple immunomodulatory strategies have been used in attempts to limit immune-mediated responses to the vector, enable readministration of AAV gene therapy, prevent end-organ toxicity, and increase the duration of transgene-encoded protein expression. Herein we review the innate and adaptive immune responses that may occur during CNS-targeted AAV gene therapy as well as host- and treatment-specific factors that could impact the immune response. We also summarize the available preclinical and clinical data on immune responses specifically to CNS-targeted AAV gene therapy and discuss potential strategies for incorporating prophylactic immunosuppression regimens to circumvent adverse immune responses.

Published
2022

14. Engineered AAVs for non-invasive gene delivery to rodent and non-human primate nervous systems

Author

Chen, Xinhong, Ravindra Kumar, Sripriya, Adams, Cameron D, Yang, Daping, Wang, Tongtong, Wolfe, Damien A, Arokiaraj, Cynthia M, Ngo, Victoria, Campos, Lillian J, Griffiths, Jessica A, Ichiki, Takako, Mazmanian, Sarkis K, Osborne, Peregrine B, Keast, Janet R, Miller, Cory T, Fox, Andrew S, Chiu, Isaac M, and Gradinaru, Viviana

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Neurosciences, Biotechnology, Gene Therapy, Pain Research, Genetics, Neurological, Animals, Central Nervous System, Dependovirus, Gene Transfer Techniques, Genetic Therapy, Genetic Vectors, Macaca mulatta, Mice, Rats, Rodentia, Transduction, Genetic, AAV, CNS, PNS, cross-species, functional modulation, functional readout, gene therapy, non-human primate, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Gene therapy offers great promise in addressing neuropathologies associated with the central and peripheral nervous systems (CNS and PNS). However, genetic access remains difficult, reflecting the critical need for the development of effective and non-invasive gene delivery vectors across species. To that end, we evolved adeno-associated virus serotype 9 (AAV9) capsid in mice and validated two capsids, AAV-MaCPNS1 and AAV-MaCPNS2, across rodent species (mice and rats) and non-human primate (NHP) species (marmosets and rhesus macaques). Intravenous administration of either AAV efficiently transduced the PNS in rodents and both the PNS and CNS in NHPs. Furthermore, we used AAV-MaCPNS1 in mice to systemically deliver the following: (1) the neuronal sensor jGCaMP8s to record calcium signal dynamics in nodose ganglia and (2) the neuronal actuator DREADD to dorsal root ganglia to mediate pain. This conclusively demonstrates the translatability of these two systemic AAVs across four species and their functional utility through proof-of-concept studies in mice.

Published
2022

15. Fundus imaging of retinal ganglion cells transduced by retrograde transport of rAAV2-retro

Author

Nanjappa, Rakesh, Dilbeck, Mikayla D, Economides, John R, and Horton, Jonathan C

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Gene Therapy, Genetics, Neurosciences, Eye Disease and Disorders of Vision, Animals, Dependovirus, Gene Transfer Techniques, Genetic Therapy, Genetic Vectors, Rats, Retina, Retinal Ganglion Cells, Transduction, Genetic, EGFP, mCherry, Leber's, Superior colliculus, Human synapsin promoter, Fluorogold, Medical Biochemistry and Metabolomics, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry
Abstract

Access of adeno-associated virus (AAV) to ganglion cells following intravitreal injection for gene therapy is impeded by the internal limiting membrane of the retina. As an alternative, one could transduce ganglion cells via retrograde transport after virus injection into a retinal target nucleus. It is unknown if recombinant AAV2-retro (rAAV2-retro), a variant of AAV2 developed specifically for retrograde transport, is capable of transducing retinal ganglion cells. To address this issue, equal volumes of rAAV2-retro-hSyn-EGFP and rAAV2-retro-hSyn-mCherry were mixed in a micropipette and injected into the rat superior colliculus. The time-course of viral transduction was tracked by performing serial in vivo fundus imaging. Cells that were labeled by the fluorophores within the first week remained consistent in distribution and relative signal strength on follow-up imaging. Most transduced cells were double-labeled, but some were labeled by only EGFP or mCherry. Fundus images were later aligned with retinal wholemounts. Ganglion cells in the wholemounts matched precisely the cells imaged by fundus photography. As seen in the fundus images, ganglion cells in wholemounts were sometimes labeled by only EGFP or mCherry. Overall, there was detectable label in 32-41% of ganglion cells. Analysis of the number of cells labeled by 0, 1, or 2 fluorophores, based on Poisson statistics, yielded an average of 0.66 virions transducing each ganglion cell. Although this represents a low number relative to the quantity of virus injected into the superior colliculus, the ganglion cells showed sustained and robust fluorescent labeling. In the primate, injection of rAAV2-retro into the lateral geniculate nucleus might provide a viable approach for the transduction of ganglion cells, bypassing the obstacles that have prevented effective gene delivery via intravitreal injection.

Published
2022

16. Harnessing rAAV-retro for gene manipulations in multiple pathways that are interrupted after spinal cord injury

Author

Metcalfe, Mariajose, Yee, Kelly M, Luo, Juan, Martin-Thompson, Jacob H, Gandhi, Sunil P, and Steward, Oswald

Subjects
Biomedical and Clinical Sciences, Neurosciences, Spinal Cord Injury, Neurodegenerative, Physical Injury - Accidents and Adverse Effects, Biotechnology, Gene Therapy, Traumatic Head and Spine Injury, Genetics, Neurological, Animals, Axons, Female, Genetic Therapy, Genetic Vectors, Humans, Male, Mice, Mice, Knockout, Mice, Transgenic, Nerve Regeneration, Neural Pathways, PTEN Phosphohydrolase, RNA, Small Interfering, Rats, Rats, Sprague-Dawley, Spinal Cord Injuries, rAAV-retro, Retrograde transport, Corticospinal tract, Spinal pathways, AAV-based gene modification, Mouse, Rat, Spinal cord, Clinical Sciences, Psychology, Neurology & Neurosurgery, Biological psychology
Abstract

This paper explores the potential of rAAV2-retro to deliver gene modifying cargoes to the cells of origin of multiple pathways that are interrupted by spinal cord injury (SCI), summarizing data from previous studies and new data from additional experiments. rAAV-retro exhibits uniquely robust and reliable long-distance retrograde transport from pre-terminal axons and synapses back to neuronal bodies. Previous studies have documented that various AAV-based genetic modifications can enable axon regeneration after SCI, but these have targeted the cells of origin of one pathway at a time. In contrast, rAAV-retro can simultaneously transduce large numbers of neurons of origin of multiple spinal pathways with single injections into the spinal cord. Our initial studies use RosatdTomato and double transgenic PTENf/f; RosatdTomato mice in which transfection with rAAV-retro/Cre deletes PTEN and activates tdT expression in the same neurons. Injections of rAAV-retro/Cre into the cervical, thoracic and lumbar spinal cord led to topographically specific retrograde transduction in cortical motoneurons and neurons in subcortical regions that give rise to different spinal pathways. Our results confirm and extend previous studies indicating selective transduction of neurons that terminate at the level of the injection with minimal retrograde transduction of axons in transit to lower levels. We document feasibility of using rAAV-retro expressing shRNA against PTEN along with a GFP reporter (rAAV-retro-shPTEN/GFP) to effectively knock down PTEN in multiple populations of neurons, which can be used in any species. Some limitations and caveats of currently available rAAV-retros are discussed. Together, our results support the potential applications of rAAV-retro for AAV-based gene-modifications for SCI.

Published
2022

17. Global Seroprevalence of Pre-existing Immunity Against AAV5 and Other AAV Serotypes in People with Hemophilia A

Author

Klamroth, Robert, Hayes, Gregory, Andreeva, Tatiana, Gregg, Keith, Suzuki, Takashi, Mitha, Ismail Haroon, Hardesty, Brandon, Shima, Midori, Pollock, Toni, Slev, Patricia, Oldenburg, Johannes, Ozelo, Margareth C, Stieltjes, Natalie, Castet, Sabine-Marie, Mahlangu, Johnny, Peyvandi, Flora, Kazmi, Rashid, Schved, Jean-François, Leavitt, Andrew D, Callaghan, Michael, Pan-Petesch, Brigitte, Quon, Doris V, Andrews, Jayson, Trinh, Alex, Li, Mingjin, and Wong, Yen

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Prevention, Antibodies, Neutralizing, Antibodies, Viral, Dependovirus, Genetic Vectors, Hemophilia A, Humans, Prospective Studies, Seroepidemiologic Studies, Serogroup, gene therapy, hemophilia A, adeno-associated virus, antibody, seropositivity, Clinical Sciences, Biotechnology, Medical biotechnology
Abstract

Adeno-associated virus (AAV)-mediated gene therapy may provide durable protection from bleeding events and reduce treatment burden for people with hemophilia A (HA). However, pre-existing immunity against AAV may limit transduction efficiency and hence treatment success. Global data on the prevalence of AAV serotypes are limited. In this global, prospective, noninterventional study, we determined the prevalence of pre-existing immunity against AAV2, AAV5, AAV6, AAV8, and AAVrh10 among people ≥12 years of age with HA and residual FVIII levels ≤2 IU/dL. Antibodies against each serotype were detected using validated, electrochemiluminescent-based enzyme-linked immunosorbent assays. To evaluate changes in antibody titers over time, 20% of participants were retested at 3 and 6 months. In total, 546 participants with HA were enrolled at 19 sites in 9 countries. Mean (standard deviation) age at enrollment was 36.0 (14.87) years, including 12.5% younger than 18 years, and 20.0% 50 years of age and older. On day 1, global seroprevalence was 58.5% for AAV2, 34.8% for AAV5, 48.7% for AAV6, 45.6% for AAV8, and 46.0% for AAVrh10. Considerable geographic variability was observed in the prevalence of pre-existing antibodies against each serotype, but AAV5 consistently had the lowest seroprevalence across the countries studied. AAV5 seropositivity rates were 51.8% in South Africa (n = 56), 46.2% in Russia (n = 91), 40% in Italy (n = 20), 37.2% in France (n = 86), 26.8% in the United States (n = 71), 26.9% in Brazil (n = 26), 28.1% in Germany (n = 89), 29.8% in Japan (n = 84), and 5.9% in the United Kingdom (n = 17). For all serotypes, seropositivity tended to increase with age. Serostatus and antibody titer were generally stable over the 6-month sampling period. As clinical trials of AAV-mediated gene therapies progress, data on the natural prevalence of antibodies against various AAV serotypes may become increasingly important.

Published
2022

18. AAV Deployment of Enhancer-Based Expression Constructs In Vivo in Mouse Brain.

Author

Warren, Tracy L, Lambert, Jason T, and Nord, Alex S

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Biotechnology, Gene Therapy, Neurosciences, Animals, Brain, Dependovirus, Genetic Vectors, Mice, Promoter Regions, Genetic, Transgenes, Psychology, Cognitive Sciences, Biochemistry and cell biology
Abstract

Enhancers are binding platforms for a diverse array of transcription factors that drive specific expression patterns of tissue- and cell-type-specific genes. Multiple means of assessing non-coding DNA and various chromatin states have proven useful in predicting the presence of enhancer sequences in the genome, but validating the activity of these sequences and finding the organs and developmental stages they are active in is a labor-intensive process. Recent advances in adeno-associated virus (AAV) vectors have enabled the widespread delivery of transgenes to mouse tissues, enabling in vivo enhancer testing without necessitating a transgenic animal. This protocol shows how a reporter construct that expresses EGFP under the control of a minimal promoter, which does not drive significant expression on its own, can be used to study the activity patterns of candidate enhancer sequences in the mouse brain. An AAV-packaged reporter construct is delivered to the mouse brain and incubated for 1-4 weeks, after which the animal is sacrificed, and brain sections are observed under a microscope. EGFP appears in cells in which the tested enhancer is sufficient to initiate gene expression, pinpointing the location and developmental stage in which the enhancer is active in the brain. Standard cloning methods, low-cost AAV packaging, and expanding AAV serotypes and methods for in vivo delivery and standard imaging readout make this an accessible approach for the study of how gene expression is regulated in the brain.

Published
2022

19. Lentivector cryptic splicing mediates increase in CD34+ clones expressing truncated HMGA2 in human X-linked severe combined immunodeficiency

Author

De Ravin, Suk See, Liu, Siyuan, Sweeney, Colin L, Brault, Julie, Whiting-Theobald, Narda, Ma, Michelle, Liu, Taylor, Choi, Uimook, Lee, Janet, O’Brien, Sandra Anaya, Quackenbush, Priscilla, Estwick, Tyra, Karra, Anita, Docking, Ethan, Kwatemaa, Nana, Guo, Shuang, Su, Ling, Sun, Zhonghe, Zhou, Sheng, Puck, Jennifer, Cowan, Morton J, Notarangelo, Luigi D, Kang, Elizabeth, Malech, Harry L, and Wu, Xiaolin

Subjects
Clinical Trials and Supportive Activities, Biotechnology, Stem Cell Research, Regenerative Medicine, Clinical Research, Gene Therapy, Transplantation, Genetics, Stem Cell Research - Nonembryonic - Human, Hematology, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Antigens, CD34, Clone Cells, Genetic Therapy, Genetic Vectors, Humans, Lentivirus, X-Linked Combined Immunodeficiency Diseases
Abstract

X-linked Severe Combined Immunodeficiency (SCID-X1) due to IL2RG mutations is potentially fatal in infancy where 'emergency' life-saving stem cell transplant may only achieve incomplete immune reconstitution following transplant. Salvage therapy SCID-X1 patients over 2 years old (NCT01306019) is a non-randomized, open-label, phase I/II clinical trial for administration of lentiviral-transduced autologous hematopoietic stem cells following busulfan (6 mg/kg total) conditioning. The primary and secondary objectives assess efficacy in restoring immunity and safety by vector insertion site analysis (VISA). In this ongoing study (19 patients treated), we report VISA in blood lineages from first eight treated patients with longer follow up found a > 60-fold increase in frequency of forward-orientated VIS within intron 3 of the High Mobility Group AT-hook 2 gene. All eight patients demonstrated emergence of dominant HMGA2 VIS clones in progenitor and myeloid lineages, but without disturbance of hematopoiesis. Our molecular analysis demonstrated a cryptic splice site within the chicken β-globin hypersensitivity 4 insulator element in the vector generating truncated mRNA transcripts from many transcriptionally active gene containing forward-oriented intronic vector insert. A two base-pair change at the splice site within the lentiviral vector eliminated splicing activity while retaining vector functional capability. This highlights the importance of functional analysis of lentivectors for cryptic splicing for preclinical safety assessment and a redesign of clinical vectors to improve safety.

Published
2022

20. Catalytically inactive, purified RNase H1: A specific and sensitive probe for RNA–DNA hybrid imaging

Author

Crossley, Magdalena P, Brickner, Joshua R, Song, Chenlin, Zar, Su Mon Thin, Maw, Su S, Chédin, Frédéric, Tsai, Miaw-Sheue, and Cimprich, Karlene A

Subjects
Genetics, Bioengineering, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Antibodies, BRCA1 Protein, Cloning, Molecular, DNA, DNA Helicases, Escherichia coli, Fluorescent Dyes, Gene Expression, Genes, Reporter, Genetic Vectors, Green Fluorescent Proteins, HeLa Cells, Heterocyclic Compounds, 4 or More Rings, Humans, Inverted Repeat Sequences, Multifunctional Enzymes, Nucleic Acid Hybridization, Optical Imaging, Protein Binding, RNA Helicases, RNA, Double-Stranded, RNA, Small Interfering, Recombinant Fusion Proteins, Ribonuclease H, Staining and Labeling, Hela Cells, Biological Sciences, Medical and Health Sciences, Developmental Biology
Abstract

R-loops are three-stranded nucleic acid structures with both physiological and pathological roles in cells. R-loop imaging generally relies on detection of the RNA-DNA hybrid component of these structures using the S9.6 antibody. We show that the use of this antibody for imaging can be problematic because it readily binds to double-stranded RNA (dsRNA) in vitro and in vivo, giving rise to nonspecific signal. In contrast, purified, catalytically inactive human RNase H1 tagged with GFP (GFP-dRNH1) is a more specific reagent for imaging RNA-DNA hybrids. GFP-dRNH1 binds strongly to RNA-DNA hybrids but not to dsRNA oligonucleotides in fixed human cells and is not susceptible to binding endogenous RNA. Furthermore, we demonstrate that purified GFP-dRNH1 can be applied to fixed cells to detect hybrids after their induction, thereby bypassing the need for cell line engineering. GFP-dRNH1 therefore promises to be a versatile tool for imaging and quantifying RNA-DNA hybrids under a wide range of conditions.

Published
2021

21. Structure of S. pombe telomerase protein Pof8 C-terminal domain is an xRRM conserved among LARP7 proteins

Author

Basu, Ritwika, Eichhorn, Catherine D, Cheng, Ryan, Peterson, Robert D, and Feigon, Juli

Subjects
Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Amino Acid Sequence, Binding Sites, Cloning, Molecular, Conserved Sequence, Crystallography, X-Ray, Escherichia coli, Gene Expression, Genetic Vectors, Humans, Models, Molecular, Protein Binding, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Protein Interaction Domains and Motifs, RNA, RNA Recognition Motif Proteins, Recombinant Proteins, Ribonucleoproteins, Schizosaccharomyces, Schizosaccharomyces pombe Proteins, Sequence Alignment, Sequence Homology, Amino Acid, Substrate Specificity, Tetrahymena thermophila, La protein, LARP, RRM, NMR, X-ray crystallography, telomerase, xRRM, 7SK, Developmental Biology, Biochemistry and cell biology
Abstract

La-related proteins 7 (LARP7) are a class of RNA chaperones that bind the 3' ends of RNA and are constitutively associated with their specific target RNAs. In metazoa, Larp7 binds to the long non-coding 7SK RNA as a core component of the 7SK RNP, a major regulator of eukaryotic transcription. In the ciliate Tetrahymena the LARP7 protein p65 is a component of telomerase, an essential ribonucleoprotein complex that maintains the telomeric DNA at eukaryotic chromosome ends. p65 is important for the ordered assembly of telomerase RNA (TER) with telomerase reverse transcriptase. Unexpectedly, Schizosaccharomyces pombe Pof8 was recently identified as a LARP7 protein and a core component of fission yeast telomerase essential for biogenesis. LARP7 proteins have a conserved N-terminal La motif and RRM1 (La module) and C-terminal RRM2 with specific RNA substrate recognition attributed to RRM2, first structurally characterized in p65 as an atypical RRM named xRRM. Here we present the X-ray crystal structure and NMR studies of S. pombe Pof8 RRM2. Sequence and structure comparison of Pof8 RRM2 to p65 and human Larp7 xRRMs reveals conserved features for RNA binding with the main variability in the length of the non-canonical helix α3. This study shows that Pof8 has conserved xRRM features, providing insight into TER recognition and the defining characteristics of the xRRM.

Published
2021

22. Genetic Rescue of X-Linked Retinoschisis Mouse (Rs1−/y) Retina Induces Quiescence of the Retinal Microglial Inflammatory State Following AAV8-RS1 Gene Transfer and Identifies Gene Networks Underlying Retinal Recovery

Author

Vijayasarathy, Camasamudram, Zeng, Yong, Brooks, Matthew J, Fariss, Robert N, and Sieving, Paul A

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Eye Disease and Disorders of Vision, Biotechnology, Genetics, Neurosciences, Prevention, 2.1 Biological and endogenous factors, Aetiology, Eye, Animals, Electroretinography, Eye Proteins, Gene Regulatory Networks, Genetic Therapy, Genetic Vectors, Mice, Microglia, Retina, Retinoschisis, X-linked retinoschisis, RNA-seq, AAV8-retinoschisin, microglia activation, immune quiescence, gene therapy, Medical Biotechnology, Clinical Sciences, Medical biotechnology
Abstract

To understand RS1 gene interaction networks in the X-linked retinoschisis (XLRS) mouse retina (Rs1-/y), we analyzed the transcriptome by RNA sequencing before and after in vivo expression of exogenous retinoschisin (RS1) gene delivered by AAV8. RS1 is a secreted cell adhesion protein that is critical for maintaining structural lamination and synaptic integrity of the neural retina. RS1 loss-of-function mutations cause XLRS disease in young boys and men, with splitting ("schisis") of retinal layers and synaptic dysfunction that cause progressive vision loss with age. Analysis of differential gene expression profiles and pathway enrichment analysis of Rs1-KO (Rs1-/y) retina identified cell surface receptor signaling and positive regulation of cell adhesion as potential RS1 gene interaction networks. Most importantly, it also showed massive dysregulation of immune response genes at early age, with characteristics of a microglia-driven proinflammatory state. Delivery of AAV8-RS1 primed the Rs1-KO retina toward structural and functional recovery. The disease transcriptome transitioned toward a recovery phase with upregulation of genes implicated in wound healing, anatomical structure (camera type eye) development, metabolic pathways, and collagen IV networks that provide mechanical stability to basement membrane. AAV8-RS1 expression also attenuated the microglia gene signatures to low levels toward immune quiescence. This study is among the first to identify RS1 gene interaction networks that underlie retinal structural and functional recovery after RS1 gene therapy. Significantly, it also shows that providing wild-type RS1 gene function caused the retina immune status to transition from a degenerative inflammatory phenotype toward immune quiescence, even though the transgene is not directly linked to microglia function. This study indicates that inhibition of microglial proinflammatory responses is an integral part of therapeutic rescue in XLRS gene therapy, and gene therapy might realize its full potential if delivered before microglia activation and photoreceptor cell death. Clinical Trials. gov Identifier NTC 02317887.

Published
2021

23. Supramolecular Nanosubstrate‐Mediated Delivery for CRISPR/Cas9 Gene Disruption and Deletion

Author

Ban, Qian, Yang, Peng, Chou, Shih‐Jie, Qiao, Li, Xia, Haidong, Xue, Jingjing, Wang, Fang, Xu, Xiaobin, Sun, Na, Zhang, Ryan Y, Zhang, Ceng, Lee, Athena, Liu, Wenfei, Lin, Ting‐Yi, Ko, Yu‐Ling, Antovski, Petar, Zhang, Xinyue, Chiou, Shih‐Hwa, Lee, Chin‐Fa, Hui, Wenqiao, Liu, Dahai, Jonas, Steven J, Weiss, Paul S, and Tseng, Hsian‐Rong

Subjects
Biotechnology, Bioengineering, Gene Therapy, Muscular Dystrophy, Brain Disorders, Rare Diseases, Intellectual and Developmental Disabilities (IDD), Stem Cell Research, Genetics, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Generic health relevance, CRISPR-Associated Protein 9, CRISPR-Cas Systems, Clustered Regularly Interspaced Short Palindromic Repeats, Gene Editing, Genetic Vectors, Humans, CRISPR, Cas9, Duchenne muscular dystrophy, gene editing, nanosubstrate-mediated delivery, supramolecular nanoparticles, CRISPR/Cas9, Nanoscience & Nanotechnology
Abstract

The clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein 9 (CRISPR/Cas9) is an efficient and precise gene-editing technology that offers a versatile solution for establishing treatments directed at genetic diseases. Currently, CRISPR/Cas9 delivery into cells relies primarily on viral vectors, which suffer from limitations in packaging capacity and safety concerns. These issues with a nonviral delivery strategy are addressed, where Cas9•sgRNA ribonucleoprotein (RNP) complexes can be encapsulated into supramolecular nanoparticles (SMNP) to form RNP⊂SMNPs, which can then be delivered into targeted cells via supramolecular nanosubstrate-mediated delivery. Utilizing the U87 glioblastoma cell line as a model system, a variety of parameters for cellular-uptake of the RNP-laden nanoparticles are examined. Dose- and time-dependent CRISPR/Cas9-mediated gene disruption is further examined in a green fluorescent protein (GFP)-expressing U87 cell line (GFP-U87). The utility of an optimized SMNP formulation in co-delivering Cas9 protein and two sgRNAs that target deletion of exons 45-55 (708 kb) of the dystrophin gene is demonstrated. Mutations in this region lead to Duchenne muscular dystrophy, a severe genetic muscle wasting disease. Efficient delivery of these gene deletion cargoes is observed in a human cardiomyocyte cell line (AC16), induced pluripotent stem cells, and mesenchymal stem cells.

Published
2021

24. Host Immune Responses after Suprachoroidal Delivery of AAV8 in Nonhuman Primate Eyes

Author

Chung, Sook Hyun, Mollhoff, Iris Natalie, Mishra, Alaknanda, Sin, Tzu-Ni, Ngo, Taylor, Ciulla, Thomas, Sieving, Paul, Thomasy, Sara M, and Yiu, Glenn

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Immunology, Ophthalmology and Optometry, Neurosciences, Eye Disease and Disorders of Vision, Gene Therapy, Biotechnology, Genetics, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Eye, Animals, Dependovirus, Genetic Vectors, Immunity, Macaca mulatta, Tissue Distribution, suprachoroidal injection, AAV, ocular gene therapy, host immune response, Clinical Sciences, Medical biotechnology
Abstract

The suprachoroid is a potential space located between the sclera and choroid of the eye, which provides a novel route for ocular drug or viral vector delivery. Suprachoroidal injection of adeno-associated virus (AAV)8 using transscleral microneedles enables widespread transgene expression in eyes of nonhuman primates, but may cause intraocular inflammation. We characterized the host humoral and cellular immune responses after suprachoroidal delivery of AAV8 expressing green fluorescent protein (GFP) in rhesus macaques, and found that it can induce mild chorioretinitis that resolves after systemic corticosteroid administration, with recovery of photoreceptor morphology, but persistent immune cell infiltration after 3 months, corresponding to a loss of GFP expression from retinal pigment epithelial cells, but persistent expression in scleral fibroblasts. Suprachoroidal AAV8 triggered B cell and T cell responses against GFP, but only mild antibody responses to the viral capsid compared to intravitreal injections of the same vector and dose. Systemic biodistribution studies showed lower AAV8 levels in liver and spleen after suprachoroidal injection compared with intravitreal delivery. Our findings suggest that suprachoroidal AAV8 primarily triggers host immune responses to GFP, likely due to sustained transgene expression in scleral fibroblasts outside the blood-retinal barrier, but elicits less humoral immune reactivity to the viral capsid than intravitreal delivery due to lower egress into systemic circulation. As GFP is not native to primates and not a clinically relevant transgene, suprachoroidal AAV delivery of human transgenes may have significant translational potential for retinal gene therapy.

Published
2021

25. Functional rescue in an Angelman syndrome model following treatment with lentivector transduced hematopoietic stem cells

Author

Adhikari, Anna, Copping, Nycole A, Beegle, Julie, Cameron, David L, Deng, Peter, O’Geen, Henriette, Segal, David J, Fink, Kyle D, Silverman, Jill L, and Anderson, Joseph S

Subjects
Biological Sciences, Genetics, Stem Cell Research - Nonembryonic - Human, Mental Health, Intellectual and Developmental Disabilities (IDD), Stem Cell Research - Nonembryonic - Non-Human, Rare Diseases, Pediatric, Biotechnology, Gene Therapy, Neurodegenerative, Stem Cell Research, Brain Disorders, Transplantation, Neurosciences, Regenerative Medicine, 2.1 Biological and endogenous factors, Aetiology, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Neurological, Angelman Syndrome, Animals, Antigens, CD34, Ataxia, Brain, Cognitive Dysfunction, Disease Models, Animal, Electroencephalography, Gene Expression Regulation, Genetic Therapy, Genetic Vectors, Hematopoietic Stem Cell Transplantation, Humans, Intellectual Disability, Interleukin-2, Lentivirus, Mice, Motor Skills Disorders, Seizures, Ubiquitin-Protein Ligases, Medical and Health Sciences, Genetics & Heredity
Abstract

Angelman syndrome (AS) is a rare neurodevelopmental disorder characterized by impaired communication skills, ataxia, motor and balance deficits, intellectual disabilities, and seizures. The genetic cause of AS is the neuronal loss of UBE3A expression in the brain. A novel approach, described here, is a stem cell gene therapy which uses lentivector-transduced hematopoietic stem and progenitor cells to deliver functional UBE3A to affected cells. We have demonstrated both the prevention and reversal of AS phenotypes upon transplantation and engraftment of human CD34+ cells transduced with a Ube3a lentivector in a novel immunodeficient Ube3amat-/pat+ IL2rg-/y mouse model of AS. A significant improvement in motor and cognitive behavioral assays as well as normalized delta power measured by electroencephalogram was observed in neonates and adults transplanted with the gene modified cells. Human hematopoietic profiles observed in the lymphoid organs by detection of human immune cells were normal. Expression of UBE3A was detected in the brains of the adult treatment group following immunohistochemical staining illustrating engraftment of the gene-modified cells expressing UBE3A in the brain. As demonstrated with our data, this stem cell gene therapy approach offers a promising treatment strategy for AS, not requiring a critical treatment window.

Published
2021

26. Immune function in X-linked retinoschisis subjects in an AAV8-RS1 phase I/IIa gene therapy trial

Author

Mishra, Alaknanda, Vijayasarathy, Camasamudram, Cukras, Catherine A, Wiley, Henry E, Sen, H Nida, Zeng, Yong, Wei, Lisa L, and Sieving, Paul A

Subjects
Clinical Research, Genetics, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Inflammatory and immune system, Cytokines, Dependovirus, Disease Management, Eye Proteins, Genetic Diseases, X-Linked, Genetic Predisposition to Disease, Genetic Therapy, Genetic Vectors, Humans, Immunity, Immunity, Cellular, Retinoschisis, T-Lymphocyte Subsets, Treatment Outcome, AAV8 vector, T cells, X-linked retinoschisis, cytokines, gene therapy clinical trial, immune function, ocular inflammation, retinoschisin, Biological Sciences, Technology, Medical and Health Sciences, Biotechnology
Abstract

This study explored systemic immune changes in 11 subjects with X-linked retinoschisis (XLRS) in a phase I/IIa adeno-associated virus 8 (AAV8)-RS1 gene therapy trial (ClinicalTrials.gov: NCT02317887). Immune cell proportions and serum analytes were compared to 12 healthy male controls. At pre-dosing baseline the mean CD4/CD8 ratio of XLRS subjects was elevated. CD11c+ myeloid dendritic cells (DCs) and the serum epidermal growth factor (EGF) level were decreased, while CD123+ plasmacytoid DCs and serum interferon (IFN)-γ and tumor necrosis factor (TNF)-α were increased, indicating that the XLRS baseline immune status differs from that of controls. XLRS samples 14 days after AAV8-RS1 administration were compared with the XLRS baseline. Frequency of CD11b+CD11c+ DCc was decreased in 8 of 11 XLRS subjects across all vector doses (1e9-3e11 vector genomes [vg]/eye). CD8+human leukocyte antigen-DR isotype (HLA-DR)+ cytotoxic T cells and CD68+CD80+ macrophages were upregulated in 10 of 11 XLRS subjects, along with increased serum granzyme B in 8 of 11 XLRS subjects and elevated IFN-γ in 9 of 11 XLRS subjects. The six XLRS subjects with ocular inflammation after vector application gave a modestly positive correlation of inflammation score to their respective baseline CD4/CD8 ratios. This exploratory study indicates that XLRS subjects may exhibit a proinflammatory, baseline immune phenotype, and that intravitreal dosing with AAV8-RS1 leads to systemic immune activation with an increase of activated lymphocytes, macrophages, and proinflammatory cytokines.

Published
2021

27. A phenotypically supervised single-cell analysis protocol to study within-cell-type heterogeneity of cultured mammalian cells

Author

Chen, Kevin, Ozturk, Kivilcim, Liefeld, Ted, Reich, Michael, Mesirov, Jill P, Carter, Hannah, and Fraley, Stephanie I

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Human Genome, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Aetiology, 2.1 Biological and endogenous factors, Generic health relevance, Animals, Cloning, Molecular, Genetic Vectors, HEK293 Cells, High-Throughput Screening Assays, Humans, Lentivirus, Mammals, Phenotype, Sequence Analysis, RNA, Single-Cell Analysis, Bioinformatics, Cell culture, Cell isolation, Cell-based Assays, Flow Cytometry/Mass Cytometry, High-Throughput Screening, Microscopy, Molecular Biology, RNA-seq, Single Cell
Abstract

Here, we describe a protocol combining functional metrics with genomic data to elucidate drivers of within-cell-type heterogeneity via the phenotype-to-genotype link. This technique involves using fluorescence tagging to label and isolate cells grown in 3D culture, enabling high-throughput enrichment of phenotypically defined cell subpopulations by fluorescence-activated cell sorting. We then perform a validated phenotypically supervised single-cell analysis pipeline to reveal unique functional cell states, including genes and pathways that contribute to cellular heterogeneity and were undetectable by unsupervised analysis. For complete details on the use and execution of this protocol, please refer to Chen et al. (2020).

Published
2021

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

Author

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

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Biotechnology, Transplantation, Gene Therapy, Genetics, Regenerative Medicine, Clinical Research, Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Evaluation of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, 6.2 Cellular and gene therapies, Good Health and Well Being, Adenosine Deaminase, Adolescent, Agammaglobulinemia, Child, Child, Preschool, Genetic Therapy, Genetic Vectors, Hematopoietic Stem Cell Transplantation, Humans, Infant, Lentivirus, Lymphocyte Count, Progression-Free Survival, Prospective Studies, Severe Combined Immunodeficiency, Transplantation, Autologous, Medical and Health Sciences, General & Internal Medicine, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundSevere combined immunodeficiency due to adenosine deaminase (ADA) deficiency (ADA-SCID) is a rare and life-threatening primary immunodeficiency.MethodsWe 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.ResultsOverall 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.ConclusionsTreatment 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

29. Discovery and characterization of bromodomain 2–specific inhibitors of BRDT

Author

Yu, Zhifeng, Ku, Angela F, Anglin, Justin L, Sharma, Rajesh, Ucisik, Melek Nihan, Faver, John C, Li, Feng, Nyshadham, Pranavanand, Simmons, Nicholas, Sharma, Kiran L, Nagarajan, Sureshbabu, Riehle, Kevin, Kaur, Gundeep, Sankaran, Banumathi, Storl-Desmond, Marta, Palmer, Stephen S, Young, Damian W, Kim, Choel, and Matzuk, Martin M

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Biological Sciences, Contraception/Reproduction, Genetics, Cancer, Animals, Azepines, Binding Sites, Cell Cycle Proteins, Cloning, Molecular, Contraceptive Agents, Male, Crystallography, X-Ray, Drug Discovery, Escherichia coli, Gene Expression, Genetic Vectors, High-Throughput Screening Assays, Humans, Ligands, Male, Mice, Molecular Docking Simulation, Nuclear Proteins, Protein Binding, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Protein Interaction Domains and Motifs, Quantitative Structure-Activity Relationship, Recombinant Proteins, Testis, Transcription Factors, Triazoles, BET bromodomains, DNA-encoded chemistry, male contraceptive, small-molecule inhibitors
Abstract

Bromodomain testis (BRDT), a member of the bromodomain and extraterminal (BET) subfamily that includes the cancer targets BRD2, BRD3, and BRD4, is a validated contraceptive target. All BET subfamily members have two tandem bromodomains (BD1 and BD2). Knockout mice lacking BRDT-BD1 or both bromodomains are infertile. Treatment of mice with JQ1, a BET BD1/BD2 nonselective inhibitor with the highest affinity for BRD4, disrupts spermatogenesis and reduces sperm number and motility. To assess the contribution of each BRDT bromodomain, we screened our collection of DNA-encoded chemical libraries for BRDT-BD1 and BRDT-BD2 binders. High-enrichment hits were identified and resynthesized off-DNA and examined for their ability to compete with JQ1 in BRDT and BRD4 bromodomain AlphaScreen assays. These studies identified CDD-1102 as a selective BRDT-BD2 inhibitor with low nanomolar potency and >1,000-fold selectivity over BRDT-BD1. Structure-activity relationship studies of CDD-1102 produced a series of additional BRDT-BD2/BRD4-BD2 selective inhibitors, including CDD-1302, a truncated analog of CDD-1102 with similar activity, and CDD-1349, an analog with sixfold selectivity for BRDT-BD2 versus BRD4-BD2. BROMOscan bromodomain profiling confirmed the great affinity and selectivity of CDD-1102 and CDD-1302 on all BET BD2 versus BD1 with the highest affinity for BRDT-BD2. Cocrystals of BRDT-BD2 with CDD-1102 and CDD-1302 were determined at 2.27 and 1.90 Å resolution, respectively, and revealed BRDT-BD2 specific contacts that explain the high affinity and selectivity of these compounds. These BD2-specific compounds and their binding to BRDT-BD2 are unique compared with recent reports and enable further evaluation of their nonhormonal contraceptive potential in vitro and in vivo.

Published
2021

30. The sustained expression of Cas9 targeting toxic RNAs reverses disease phenotypes in mouse models of myotonic dystrophy type 1

Author

Batra, Ranjan, Nelles, David A, Roth, Daniela M, Krach, Florian, Nutter, Curtis A, Tadokoro, Takahiro, Thomas, James D, Sznajder, Łukasz J, Blue, Steven M, Gutierrez, Haydee L, Liu, Patrick, Aigner, Stefan, Platoshyn, Oleksandr, Miyanohara, Atsushi, Marsala, Martin, Swanson, Maurice S, and Yeo, Gene W

Subjects
Engineering, Biomedical Engineering, Rare Diseases, Biotechnology, Muscular Dystrophy, Genetics, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Neurosciences, Myotonic Dystrophy, Adenoviridae, Animals, CRISPR-Associated Protein 9, CRISPR-Cas Systems, Disease Models, Animal, Female, Gene Editing, Genetic Vectors, Male, Mice, Transgenic, Muscle, Skeletal, Phenotype, RNA, Biomedical engineering
Abstract

Myotonic dystrophy type I (DM1) is a multisystemic autosomal-dominant inherited human disorder that is caused by CTG microsatellite repeat expansions (MREs) in the 3' untranslated region of DMPK. Toxic RNAs expressed from such repetitive sequences can be eliminated using CRISPR-mediated RNA targeting, yet evidence of its in vivo efficacy and durability is lacking. Here, using adult and neonatal mouse models of DM1, we show that intramuscular or systemic injections of adeno-associated virus (AAV) vectors encoding nuclease-dead Cas9 and a single-guide RNA targeting CUG repeats results in the expression of the RNA-targeting Cas9 for up to three months, redistribution of the RNA-splicing protein muscleblind-like splicing regulator 1, elimination of foci of toxic RNA, reversal of splicing biomarkers and amelioration of myotonia. The sustained reversal of DM1 phenotypes provides further support that RNA-targeting Cas9 is a viable strategy for treating DM1 and other MRE-associated diseases.

Published
2021

31. Restoration of visual function in adult mice with an inherited retinal disease via adenine base editing

Author

Suh, Susie, Choi, Elliot H, Leinonen, Henri, Foik, Andrzej T, Newby, Gregory A, Yeh, Wei-Hsi, Dong, Zhiqian, Kiser, Philip D, Lyon, David C, Liu, David R, and Palczewski, Krzysztof

Subjects
Eye Disease and Disorders of Vision, Neurosciences, Genetics, Rare Diseases, 2.1 Biological and endogenous factors, Aetiology, Eye, Adenine, Animals, CRISPR-Associated Protein 9, Codon, Nonsense, Gene Editing, Genetic Vectors, Lentivirus, Mice, Inbred C57BL, Retinal Diseases, Vision, Ocular
Abstract

Cytosine base editors and adenine base editors (ABEs) can correct point mutations predictably and independent of Cas9-induced double-stranded DNA breaks (which causes substantial indel formation) and homology-directed repair (which typically leads to low editing efficiency). Here, we show, in adult mice, that a subretinal injection of a lentivirus expressing an ABE and a single-guide RNA targeting a de novo nonsense mutation in the Rpe65 gene corrects the pathogenic mutation with up to 29% efficiency and with minimal formation of indel and off-target mutations, despite the absence of the canonical NGG sequence as a protospacer-adjacent motif. The ABE-treated mice displayed restored RPE65 expression and retinoid isomerase activity, and near-normal levels of retinal and visual functions. Our findings motivate the further testing of ABEs for the treatment of inherited retinal diseases and for the correction of pathological mutations with non-canonical protospacer-adjacent motifs.

Published
2021

32. A Replicating Viral Vector Greatly Enhances Accumulation of Helical Virus-Like Particles in Plants

Author

Thuenemann, Eva C, Byrne, Matthew J, Peyret, Hadrien, Saunders, Keith, Castells-Graells, Roger, Ferriol, Inmaculada, Santoni, Mattia, Steele, John FC, Ranson, Neil A, Avesani, Linda, Lopez-Moya, Juan Jose, and Lomonossoff, George P

Subjects
Plant Biology, Biological Sciences, Genetics, 2.2 Factors relating to the physical environment, Aetiology, Infection, Capsid, Genetic Vectors, Plant Viruses, Plants, Tobacco, Transduction, Genetic, Virus Replication, virus-like particle, overexpression, filamentous, rod-shaped, pEAQ-HT, pEff, Potexvirus, Potyviridae, high-resolution cryo-EM, Microbiology
Abstract

The production of plant helical virus-like particles (VLPs) via plant-based expression has been problematic with previous studies suggesting that an RNA scaffold may be necessary for their efficient production. To examine this, we compared the accumulation of VLPs from two potexviruses, papaya mosaic virus and alternanthera mosaic virus (AltMV), when the coat proteins were expressed from a replicating potato virus X- based vector (pEff) and a non-replicating vector (pEAQ-HT). Significantly greater quantities of VLPs could be purified when pEff was used. The pEff system was also very efficient at producing VLPs of helical viruses from different virus families. Examination of the RNA content of AltMV and tobacco mosaic virus VLPs produced from pEff revealed the presence of vector-derived RNA sequences, suggesting that the replicating RNA acts as a scaffold for VLP assembly. Cryo-EM analysis of the AltMV VLPs showed they had a structure very similar to that of authentic potexvirus particles. Thus, we conclude that vectors generating replicating forms of RNA, such as pEff, are very efficient for producing helical VLPs.

Published
2021

33. AAV ablates neurogenesis in the adult murine hippocampus

Author

Johnston, Stephen, Parylak, Sarah, Kim, Stacy, Mac, Nolan, Lim, Christina, Gallina, Iryna, Bloyd, Cooper, Newberry, Alexander, Saavedra, Christian D, Novak, Ondrej, Goncalves, J Tiago, Gage, Fred H, and Shtrahman, Matthew

Subjects
Biotechnology, Stem Cell Research, Neurosciences, Stem Cell Research - Nonembryonic - Non-Human, Gene Therapy, Regenerative Medicine, Genetics, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Adult, Animals, Cell Death, Cell Proliferation, Central Nervous System, Dependovirus, Genetic Therapy, Genetic Vectors, Hippocampus, Humans, Inflammation, Male, Mice, Mice, Inbred C57BL, Neural Stem Cells, Neurogenesis, Neurons, adeno-associated virus, adult neurogenesis, dentate gyrus, gene therapy, hippocampus, mouse, neural progenitor cell, neuroscience, regenerative medicine, stem cells, Biochemistry and Cell Biology
Abstract

Recombinant adeno-associated virus (rAAV) has been widely used as a viral vector across mammalian biology and has been shown to be safe and effective in human gene therapy. We demonstrate that neural progenitor cells (NPCs) and immature dentate granule cells (DGCs) within the adult murine hippocampus are particularly sensitive to rAAV-induced cell death. Cell loss is dose dependent and nearly complete at experimentally relevant viral titers. rAAV-induced cell death is rapid and persistent, with loss of BrdU-labeled cells within 18 hr post-injection and no evidence of recovery of adult neurogenesis at 3 months post-injection. The remaining mature DGCs appear hyperactive 4 weeks post-injection based on immediate early gene expression, consistent with previous studies investigating the effects of attenuating adult neurogenesis. In vitro application of AAV or electroporation of AAV2 inverted terminal repeats (ITRs) is sufficient to induce cell death. Efficient transduction of the dentategyrus (DG)- without ablating adult neurogenesis- can be achieved by injection of rAAV2-retro serotyped virus into CA3. rAAV2-retro results in efficient retrograde labeling of mature DGCs and permits in vivo two-photon calcium imaging of dentate activity while leaving adult neurogenesis intact. These findings expand on recent reports implicating rAAV-linked toxicity in stem cells and other cell types and suggest that future work using rAAV as an experimental tool in the DG and as a gene therapy for diseases of the central nervous system should be carefully evaluated.

Published
2021

34. Epigenetic silencing directs expression heterogeneity of stably integrated multi-transcript unit genetic circuits

Author

Zimak, Jan, Wagoner, Zachary W, Nelson, Nellie, Waechtler, Brooke, Schlosser, Hana, Kopecky, Morgan, Wu, Jie, and Zhao, Weian

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, Generic health relevance, DNA Methylation, Epigenesis, Genetic, Gene Expression Regulation, Gene Order, Gene Regulatory Networks, Gene Silencing, Genetic Heterogeneity, Genetic Vectors
Abstract

We report that epigenetic silencing causes the loss of function of multi-transcript unit constructs that are integrated using CRISPR-Cas9. Using a modular two color reporter system flanked by selection markers, we demonstrate that expression heterogeneity does not correlate with sequence alteration but instead correlates with chromosomal accessibility. We partially reverse this epigenetic silencing via small-molecule inhibitors of methylation and histone deacetylation. We then correlate each heterogeneously-expressing phenotype with its expected epigenetic state by employing ATAC-seq. The stability of each expression phenotype is reinforced by selective pressure, which indicates that ongoing epigenetic remodeling can occur for over one month after integration. Collectively, our data suggests that epigenetic silencing limits the utility of multi-transcript unit constructs that are integrated via double-strand repair pathways. Our research implies that mammalian synthetic biologists should consider localized epigenetic outcomes when designing complex genetic circuits.

Published
2021

35. β-Globin Lentiviral Vectors Have Reduced Titers due to Incomplete Vector RNA Genomes and Lowered Virion Production

Author

Han, Jiaying, Tam, Kevin, Ma, Feiyang, Tam, Curtis, Aleshe, Bamidele, Wang, Xiaoyan, Quintos, Jason P, Morselli, Marco, Pellegrini, Matteo, Hollis, Roger P, and Kohn, Donald B

Subjects
Biochemistry and Cell Biology, Biological Sciences, Biotechnology, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research - Nonembryonic - Human, Regenerative Medicine, Gene Therapy, Genetics, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Infection, Gene Transfer Techniques, Genetic Vectors, HEK293 Cells, Humans, Lentivirus, RNA, Virion, beta-Globins, tat Gene Products, Human Immunodeficiency Virus, gene and cell therapy, hematopoietic stem cells, hemoglobinopathy, lentiviral vector, sickle cell disease, Clinical Sciences, Biochemistry and cell biology
Abstract

Lentiviral vectors (LVs) commonly used for the treatment of hemoglobinopathies often have low titers and sub-optimal gene transfer efficiency for human hematopoietic stem and progenitor cells (HSPCs), hindering clinical translation and commercialization for ex vivo gene therapy. We observed that a high percentage of β-globin LV viral genomic RNAs were incomplete toward the 3' end in packaging cells and in released vector particles. The incomplete vector genomes impeded reverse transcription in target cells, limiting stable gene transfer to HSPCs. By combining three modifications to vector design and production (shortening the vector length to 5.3 kb; expressing HIV-1 Tat protein during packaging; and packaging in PKR-/- cells) there was a 30-fold increase in vector titer and a 3-fold increase in vector infectivity in HSPCs. These approaches may improve the manufacturing of β-globin and other complex LVs for enhanced gene delivery and may facilitate clinical applications.

Published
2021

36. scAAVengr, a transcriptome-based pipeline for quantitative ranking of engineered AAVs with single-cell resolution

Author

Öztürk, Bilge E, Johnson, Molly E, Kleyman, Michael, Turunç, Serhan, He, Jing, Jabalameli, Sara, Xi, Zhouhuan, Visel, Meike, Dufour, Valérie L, Iwabe, Simone, Marinho, Felipe Pompeo, Aguirre, Gustavo D, Sahel, José-Alain, Schaffer, David V, Pfenning, Andreas R, Flannery, John G, Beltran, William A, Stauffer, William R, and Byrne, Leah C

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Biotechnology, Neurosciences, Eye Disease and Disorders of Vision, Gene Therapy, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Inflammatory and immune system, Animals, Dependovirus, Gene Expression Profiling, Genetic Vectors, Macaca fascicularis, Retina, Transcriptome, Transduction, Genetic, macaca fascicularis, callithrix jacchus, scRNA-Seq, retinal degeneration, adeno-associated virus, Rhesus macaque, Other, medicine, neuroscience, rhesus macaque, Biochemistry and Cell Biology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundAdeno-associated virus (AAV)-mediated gene therapies are rapidly advancing to the clinic, and AAV engineering has resulted in vectors with increased ability to deliver therapeutic genes. Although the choice of vector is critical, quantitative comparison of AAVs, especially in large animals, remains challenging.MethodsHere, we developed an efficient single-cell AAV engineering pipeline (scAAVengr) to simultaneously quantify and rank efficiency of competing AAV vectors across all cell types in the same animal.ResultsTo demonstrate proof-of-concept for the scAAVengr workflow, we quantified - with cell-type resolution - the abilities of naturally occurring and newly engineered AAVs to mediate gene expression in primate retina following intravitreal injection. A top performing variant identified using this pipeline, K912, was used to deliver SaCas9 and edit the rhodopsin gene in macaque retina, resulting in editing efficiency similar to infection rates detected by the scAAVengr workflow. scAAVengr was then used to identify top-performing AAV variants in mouse brain, heart, and liver following systemic injection.ConclusionsThese results validate scAAVengr as a powerful method for development of AAV vectors.FundingThis work was supported by funding from the Ford Foundation, NEI/NIH, Research to Prevent Blindness, Foundation Fighting Blindness, UPMC Immune Transplant and Therapy Center, and the Van Sloun fund for canine genetic research.

Published
2021

37. The structure of a calsequestrin filament reveals mechanisms of familial arrhythmia.

Author

Titus, Erron W, Deiter, Frederick H, Shi, Chenxu, Wojciak, Julianne, Scheinman, Melvin, Jura, Natalia, and Deo, Rahul C

Subjects
Myocardium, Humans, Escherichia coli, Tachycardia, Ventricular, Calcium, Calcium-Binding Proteins, Calsequestrin, Mitochondrial Proteins, Recombinant Proteins, Crystallography, X-Ray, Cloning, Molecular, Pedigree, Gene Expression, Binding Sites, Protein Binding, Kinetics, Genes, Dominant, Mutation, Genetic Vectors, Models, Molecular, Adult, Middle Aged, Female, Male, Protein Interaction Domains and Motifs, Protein Multimerization, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Heart Disease, Cardiovascular, Genetics, 2.1 Biological and endogenous factors, Biophysics, Developmental Biology, Chemical Sciences, Biological Sciences, Medical and Health Sciences
Abstract

Mutations in the calcium-binding protein calsequestrin cause the highly lethal familial arrhythmia catecholaminergic polymorphic ventricular tachycardia (CPVT). In vivo, calsequestrin multimerizes into filaments, but there is not yet an atomic-resolution structure of a calsequestrin filament. We report a crystal structure of a human cardiac calsequestrin filament with supporting mutational analysis and in vitro filamentation assays. We identify and characterize a new disease-associated calsequestrin mutation, S173I, that is located at the filament-forming interface, and further show that a previously reported dominant disease mutation, K180R, maps to the same surface. Both mutations disrupt filamentation, suggesting that disease pathology is due to defects in multimer formation. An ytterbium-derivatized structure pinpoints multiple credible calcium sites at filament-forming interfaces, explaining the atomic basis of calsequestrin filamentation in the presence of calcium. Our study thus provides a unifying molecular mechanism through which dominant-acting calsequestrin mutations provoke lethal arrhythmias.

Published
2020

38. Recent advances in gene therapy: genetic bullets to the root of the problem.

Author

Danaeifar, Mohsen

Subjects
*GENE therapy, *GENETIC vectors, *GENETIC techniques, *GENE targeting, *MOLECULAR genetics, *GENOME editing, *DOUBLE-stranded RNA
Abstract

Genetics and molecular genetic techniques have changed many perspectives and paradigms in medicine. Using genetic methods, many diseases have been cured or alleviated. Gene therapy, in its simplest definition, is application of genetic materials and related techniques to treat various human diseases. Evaluation of the trends in the field of medicine and therapeutics clarifies that gene therapy has attracted a lot of attention due to its powerful potential to treat a number of diseases. There are various genetic materials that can be used in gene therapy such as DNA, single- and double-stranded RNA, siRNA and shRNA. The main gene editing techniques used for in vitro and in vivo gene modification are ZNF, TALEN and CRISPR-Cas9. The latter has increased hopes for more precise and efficient gene targeting as it requires two separate recognition sites which makes it more specific and can also cause rapid and sufficient cleavage within the target sequence. There must be carriers for delivering genes to the target tissue. The most commonly used carriers for this purpose are viral vectors such as adenoviruses, adeno-associated viruses and lentiviruses. Non-viral vectors consist of bacterial vectors, liposomes, dendrimers and nanoparticles. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Data-driven evolution of neurosurgical gene therapy delivery in Parkinson’s disease

Author

Richardson, R Mark, Bankiewicz, Krystof S, Christine, Chadwick W, Van Laar, Amber D, Gross, Robert E, Lonser, Russell, Factor, Stewart A, Kostyk, Sandra K, Kells, Adrian P, Ravina, Bernard, and Larson, Paul S

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Clinical Trials and Supportive Activities, Neurosciences, Gene Therapy, Neurodegenerative, Clinical Research, Parkinson's Disease, Rare Diseases, Biotechnology, Brain Disorders, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Neurological, Animals, Aromatic-L-Amino-Acid Decarboxylases, Basal Ganglia, Corpus Striatum, Dependovirus, Evidence-Based Medicine, GTP Cyclohydrolase, Genetic Therapy, Genetic Vectors, Glutamate Decarboxylase, Humans, Intraoperative Care, Lentivirus, Magnetic Resonance Imaging, Neurosurgical Procedures, Neurturin, Parkinson Disease, Parvovirinae, Primates, Substantia Nigra, Surgery, Computer-Assisted, Tyrosine 3-Monooxygenase, neurosurgery, Parkinson&apos, s disease, Parkinson's disease, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences
Abstract

Loss of nigrostriatal dopaminergic projection neurons is a key pathology in Parkinson's disease, leading to abnormal function of basal ganglia motor circuits and the accompanying characteristic motor features. A number of intraparenchymally delivered gene therapies designed to modify underlying disease and/or improve clinical symptoms have shown promise in preclinical studies and subsequently were evaluated in clinical trials. Here we review the challenges with surgical delivery of gene therapy vectors that limited therapeutic outcomes in these trials, particularly the lack of real-time monitoring of vector administration. These challenges have recently been addressed during the evolution of novel techniques for vector delivery that include the use of intraoperative MRI. The preclinical development of these techniques are described in relation to recent clinical translation in an adeno-associated virus serotype 2-mediated human aromatic L-amino acid decarboxylase gene therapy development programme. This new paradigm allows visualisation of the accuracy and adequacy of viral vector delivery within target structures, enabling intertrial modifications in surgical approaches, cannula design, vector volumes and dosing. The rapid, data-driven evolution of these procedures is unique and has led to improved vector delivery.

Published
2020

40. Epigenetic Suppression of Transgenic T-cell Receptor Expression via Gamma-Retroviral Vector Methylation in Adoptive Cell Transfer Therapy

Author

Nowicki, Theodore S, Farrell, Colin, Morselli, Marco, Rubbi, Liudmilla, Campbell, Katie M, Macabali, Mignonette H, Berent-Maoz, Beata, Comin-Anduix, Begoña, Pellegrini, Matteo, and Ribas, Antoni

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Immunology, Rare Diseases, Cancer, Genetics, Immunization, Gene Therapy, Biotechnology, Transplantation, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Epigenesis, Genetic, Genetic Vectors, Humans, Immunotherapy, Adoptive, Receptors, Antigen, T-Cell, Transduction, Genetic, Oncology and Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Transgenic T-cell receptor (TCR) adoptive cell therapies recognizing tumor antigens are associated with robust initial response rates, but frequent disease relapse. This usually occurs in the setting of poor long-term persistence of cells expressing the transgenic TCR, generated using murine stem cell virus (MSCV) γ-retroviral vectors. Analysis of clinical transgenic adoptive cell therapy products in vivo revealed that despite strong persistence of the transgenic TCR DNA sequence over time, its expression was profoundly decreased over time at the RNA and protein levels. Patients with the greatest degrees of expression suppression displayed significant increases in DNA methylation over time within the MSCV promoter region, as well as progressive increases in DNA methylation within the entire MSCV vector over time. These increases in vector methylation occurred independently of its integration site within the host genomes. These results have significant implications for the design of future viral vector gene-engineered adoptive cell transfer therapies. SIGNIFICANCE: Cellular immunotherapies' reliance on retroviral vectors encoding foreign genetic material can be vulnerable to progressive acquisition of DNA methylation and subsequent epigenetic suppression of the transgenic product in TCR adoptive cell therapy. This must be considered in the design of future generations of cellular immunotherapies for cancer.This article is highlighted in the In This Issue feature, p. 1611.

Published
2020

41. Regulatory Elements Inserted into AAVs Confer Preferential Activity in Cortical Interneurons

Author

Rubin, Anna N, Malik, Ruchi, Cho, Kathleen KA, Lim, Kenneth J, Lindtner, Susan, Schwartz, Sarah E Robinson, Vogt, Daniel, Sohal, Vikaas S, and Rubenstein, John LR

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Biotechnology, Gene Therapy, Human Genome, Neurosciences, Mental Health, 1.1 Normal biological development and functioning, Underpinning research, Animals, Animals, Genetically Modified, Autistic Disorder, Dependovirus, Genetic Vectors, Interneurons, Mice, Regulatory Elements, Transcriptional, Schizophrenia, Transcription Factors, AAV, cortical interneurons, enhancers, fast spiking, regular spiking
Abstract

Cortical interneuron (CIN) dysfunction is thought to play a major role in neuropsychiatric conditions like epilepsy, schizophrenia and autism. It is therefore essential to understand how the development, physiology, and functions of CINs influence cortical circuit activity and behavior in model organisms such as mice and primates. While transgenic driver lines are powerful tools for studying CINs in mice, this technology is limited in other species. An alternative approach is to use viral vectors such as AAV, which can be used in multiple species including primates and also have potential for therapeutic use in humans. Thus, we sought to discover gene regulatory enhancer elements (REs) that can be used in viral vectors to drive expression in specific cell types. The present study describes the systematic genome-wide identification of putative REs (pREs) that are preferentially active in immature CINs by histone modification chromatin immunoprecipitation and sequencing (ChIP-seq). We evaluated two novel pREs in AAV vectors, alongside the well-established Dlx I12b enhancer, and found that they drove CIN-specific reporter expression in adult mice. We also showed that the identified Arl4d pRE could drive sufficient expression of channelrhodopsin for optogenetic rescue of behavioral deficits in the Dlx5/6+/- mouse model of fast-spiking CIN dysfunction.

Published
2020

42. Supramolecular nanosubstrate–mediated delivery system enables CRISPR-Cas9 knockin of hemoglobin beta gene for hemoglobinopathies

Author

Yang, Peng, Chou, Shih-Jie, Li, Jindian, Hui, Wenqiao, Liu, Wenfei, Sun, Na, Zhang, Ryan Y, Zhu, Yazhen, Tsai, Ming-Long, Lai, Henkie I, Smalley, Matthew, Zhang, Xinyue, Chen, Jiayuan, Romero, Zulema, Liu, Dahai, Ke, Zunfu, Zou, Chang, Lee, Chin-Fa, Jonas, Steven J, Ban, Qian, Weiss, Paul S, Kohn, Donald B, Chen, Kai, Chiou, Shih-Hwa, and Tseng, Hsian-Rong

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Biotechnology, Genetics, Gene Therapy, Rare Diseases, 5.2 Cellular and gene therapies, Aetiology, Development of treatments and therapeutic interventions, 2.1 Biological and endogenous factors, Animals, CRISPR-Cas Systems, Gene Editing, Genetic Vectors, Hemoglobinopathies, Hemoglobins, Mice
Abstract

Leveraging the endogenous homology-directed repair (HDR) pathway, the CRISPR-Cas9 gene-editing system can be applied to knock in a therapeutic gene at a designated site in the genome, offering a general therapeutic solution for treating genetic diseases such as hemoglobinopathies. Here, a combined supramolecular nanoparticle (SMNP)/supramolecular nanosubstrate-mediated delivery (SNSMD) strategy is used to facilitate CRISPR-Cas9 knockin of the hemoglobin beta (HBB) gene into the adeno-associated virus integration site 1 (AAVS1) safe-harbor site of an engineered K562 3.21 cell line harboring the sickle cell disease mutation. Through stepwise treatments of the two SMNP vectors encapsulating a Cas9•single-guide RNA (sgRNA) complex and an HBB/green fluorescent protein (GFP)-encoding plasmid, CRISPR-Cas9 knockin was successfully achieved via HDR. Last, the HBB/GFP-knockin K562 3.21 cells were introduced into mice via intraperitoneal injection to show their in vivo proliferative potential. This proof-of-concept demonstration paves the way for general gene therapeutic solutions for treating hemoglobinopathies.

Published
2020

43. Stable integration of an optimized inducible promoter system enables spatiotemporal control of gene expression throughout avian development

Author

Chu, Daniel, Nguyen, An, Smith, Spenser S, Vavrušová, Zuzana, and Schneider, Richard A

Subjects
Medical Biotechnology, Biological Sciences, Biomedical and Clinical Sciences, Biotechnology, Bioengineering, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Cells, Cultured, Cloning, Molecular, DNA Transposable Elements, Embryo, Nonmammalian, Embryonic Development, Gene Expression Regulation, Developmental, Gene Order, Genes, Reporter, Genetic Vectors, Green Fluorescent Proteins, Plasmids, Promoter Regions, Genetic, Gene expression, PiggyBac transposon, Tet-inducible, Avian embryos, Other Biological Sciences, Biological sciences, Biomedical and clinical sciences, Environmental sciences
Abstract

Precisely altering gene expression is critical for understanding molecular processes of embryogenesis. Although some tools exist for transgene misexpression in developing chick embryos, we have refined and advanced them by simplifying and optimizing constructs for spatiotemporal control. To maintain expression over the entire course of embryonic development we use an enhanced piggyBac transposon system that efficiently integrates sequences into the host genome. We also incorporate a DNA targeting sequence to direct plasmid translocation into the nucleus and a D4Z4 insulator sequence to prevent epigenetic silencing. We designed these constructs to minimize their size and maximize cellular uptake, and to simplify usage by placing all of the integrating sequences on a single plasmid. Following electroporation of stage HH8.5 embryos, our tetracycline-inducible promoter construct produces robust transgene expression in the presence of doxycycline at any point during embryonic development in ovo or in culture. Moreover, expression levels can be modulated by titrating doxycycline concentrations and spatial control can be achieved using beads or gels. Thus, we have generated a novel, sensitive, tunable, and stable inducible-promoter system for high-resolution gene manipulation in vivo.

Published
2020

44. Viral Vectors for Neural Circuit Mapping and Recent Advances in Trans-synaptic Anterograde Tracers

Author

Xu, Xiangmin, Holmes, Todd C, Luo, Min-Hua, Beier, Kevin T, Horwitz, Gregory D, Zhao, Fei, Zeng, Wenbo, Hui, May, Semler, Bert L, and Sandri-Goldin, Rozanne M

Subjects
Biomedical and Clinical Sciences, Neurosciences, Biotechnology, Brain Disorders, Genetics, Gene Therapy, Infection, Animals, Connectome, Genetic Vectors, Humans, Neural Pathways, Neuroanatomical Tract-Tracing Techniques, Synapses, Viruses, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Viral tracers are important tools for neuroanatomical mapping and genetic payload delivery. Genetically modified viruses allow for cell-type-specific targeting and overcome many limitations of non-viral tracers. Here, we summarize the viruses that have been developed for neural circuit mapping, and we provide a primer on currently applied anterograde and retrograde viral tracers with practical guidance on experimental uses. We also discuss and highlight key technical and conceptual considerations for developing new safer and more effective anterograde trans-synaptic viral vectors for neural circuit analysis in multiple species.

Published
2020

45. Split AAV-Mediated Gene Therapy Restores Ureagenesis in a Murine Model of Carbamoyl Phosphate Synthetase 1 Deficiency

Author

Nitzahn, Matthew, Allegri, Gabriella, Khoja, Suhail, Truong, Brian, Makris, Georgios, Häberle, Johannes, and Lipshutz, Gerald S

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Rare Diseases, Digestive Diseases, Gene Therapy, Neurosciences, Brain Disorders, Liver Disease, Nutrition, Genetics, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Ammonia, Animals, Carbamoyl-Phosphate Synthase (Ammonia), Carbamoyl-Phosphate Synthase I Deficiency Disease, DNA Packaging, Dependovirus, Disease Models, Animal, Female, Genetic Therapy, Genetic Vectors, Humans, Mice, Proof of Concept Study, Urea, adeno-associated virus, carbamoyl phosphate synthetase deficiency, gene therapy, hyperammonemia, split AAV, urea cycle disorder, ureagenesis, Biological Sciences, Technology, Medical and Health Sciences, Biotechnology, Clinical sciences, Medical biotechnology
Abstract

The urea cycle enzyme carbamoyl phosphate synthetase 1 (CPS1) catalyzes the initial step of the urea cycle; bi-allelic mutations typically present with hyperammonemia, vomiting, ataxia, lethargy progressing into coma, and death due to brain edema if ineffectively treated. The enzyme deficiency is particularly difficult to treat; early recognition is essential to minimize injury to the brain. Even under optimal conditions, therapeutic interventions are of limited scope and efficacy, with most patients developing long-term neurologic sequelae. One significant encumberment to gene therapeutic development is the size of the CPS1 cDNA, which, at 4.5 kb, nears the packaging capacity of adeno-associated virus (AAV). Herein we developed a split AAV (sAAV)-based approach, packaging the large transgene and its regulatory cassette into two separate vectors, thereby delivering therapeutic CPS1 by a dual vector system with testing in a murine model of the disorder. Cps1-deficient mice treated with sAAVs survive long-term with markedly improved ammonia levels, diminished dysregulation of circulating amino acids, and increased hepatic CPS1 expression and activity. In response to acute ammonia challenging, sAAV-treated female mice rapidly incorporated nitrogen into urea. This study demonstrates the first proof-of-principle that sAAV-mediated therapy is a viable, potentially clinically translatable approach to CPS1 deficiency, a devastating urea cycle disorder.

Published
2020

46. Trans-Ocular Electric Current In Vivo Enhances AAV-Mediated Retinal Transduction in Large Animal Eye After Intravitreal Vector Administration

Author

Song, Hongman, Zeng, Yong, Pasha, Pran Babu Sardar, Bush, Ronald A, Vijayasarathy, Camasamudram, Qian, Haohua, Wei, Lisa, Wiley, Henry E, Wu, Zhijian, and Sieving, Paul A

Subjects
Biotechnology, Eye Disease and Disorders of Vision, Genetics, Gene Therapy, Neurosciences, Eye, Animals, Dependovirus, Gene Expression, Genetic Vectors, Rabbits, Retina, Transduction, Genetic, AAV vector, electric current, gene delivery and expression in the retina, intravitreal administration, large-animal models, Biomedical Engineering, Opthalmology and Optometry
Abstract

PurposeElectric micro-current has been shown to enhance penetration and transduction of adeno-associated viral (AAV) vectors in mouse retina after intravitreal administration. We termed this: "electric-current vector mobility (ECVM)." The present study considered whether ECVM could augment retinal transduction efficiency of intravitreal AAV8-CMV-EGFP in normal rabbit and nonhuman primate (NHP) macaque. Potential mechanisms underlying enhanced retinal transduction by ECVM were also studied.MethodsWe applied an electric micro-current across the intact eye of normal rabbit and monkey in vivo for a brief period immediately after intravitreal injection of AAV8-CMV-EGFP. Retinal GFP expression was evaluated by fundus imaging in vivo. Retinal immunohistochemistry was performed to assess the distribution of retinal cells transduced by the AAV8-EGFP. Basic fibroblast growth factor (bFGF) was analyzed by quantitative RT-polymerase chain reaction (PCR). Müller glial reactivity and inner limiting membrane (ILM) were examined by the glial fibrillary acidic protein (GFAP) and vimentin staining in mouse retina, respectively.ResultsECVM significantly increased the efficiency of AAV reaching and transducing the rabbit retina following intravitreal injection, with gene expression in inner nuclear layer, ganglion cells, and Müller cells. Similar trend of improvement was observed in the ECVM-treated monkey eye. The electric micro-current upregulated bFGF expression in Müller cells and vimentin showed ILM structural changes in mouse retina.ConclusionsECVM promotes the transduction efficiency of AAV8-CMV-GFP in normal rabbit and monkey retinas following intravitreal injection.Translational relevanceThis work has potential translational relevance to human ocular gene therapy by increasing retinal expression of therapeutic vectors given by intravitreal administration.

Published
2020

47. In vivo directed evolution of AAV in the primate retina

Author

Byrne, Leah C, Day, Timothy P, Visel, Meike, Strazzeri, Jennifer A, Fortuny, Cécile, Dalkara, Deniz, Merigan, William H, Schaffer, David V, and Flannery, John G

Subjects
Gene Therapy, Biotechnology, Eye Disease and Disorders of Vision, Neurosciences, Genetics, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Eye, Infection, Animals, Dependovirus, Directed Molecular Evolution, Genetic Vectors, HEK293 Cells, Haplorhini, Humans, Retina, Transduction, Genetic, Gene therapy, Ophthalmology
Abstract

Efficient adeno-associated virus-mediated (AAV-mediated) gene delivery remains a significant obstacle to effective retinal gene therapies. Here, we apply directed evolution - guided by deep sequencing and followed by direct in vivo secondary selection of high-performing vectors with a GFP-barcoded library - to create AAV viral capsids with the capability to deliver genes to the outer retina in primates. A replication-incompetent library, produced via providing rep in trans, was created to mitigate risk of AAV propagation. Six rounds of in vivo selection with this library in primates - involving intravitreal library administration, recovery of genomes from outer retina, and extensive next-generation sequencing of each round - resulted in vectors with redirected tropism to the outer retina and increased gene delivery efficiency to retinal cells. These viral vectors expand the toolbox of vectors available for primate retina, and they may enable less invasive delivery of therapeutic genes to patients, potentially offering retina-wide infection at a similar dosage to vectors currently in clinical use.

Published
2020

48. Carnitine palmitoyltransferase 1C contributes to progressive cellular senescence

Author

Wang, Yongtao, Yu, Tao, Zhou, Yanying, Wang, Shike, Zhou, Xunian, Wang, Limin, Ou, Tianmiao, Chen, Yixin, Zhou, Yawen, Zhang, Huizhen, Wang, Ying, Fan, Xiaomei, Chen, Pan, Gonzalez, Frank J, Yu, Aiming, Huang, Peng, Huang, Min, and Bi, Huichang

Subjects
Digestive Diseases, Genetics, Aetiology, 2.1 Biological and endogenous factors, Animals, Carcinogenesis, Carcinoma, Carnitine, Carnitine O-Palmitoyltransferase, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cell Survival, Cellular Senescence, Cyclin-Dependent Kinase Inhibitor p21, DNA-Binding Proteins, Gene Expression Regulation, Genetic Vectors, Humans, Male, Metabolomics, Mice, Mitochondria, Mitochondrial Proteins, Mitophagy, Neoplasm Transplantation, Nuclear Respiratory Factor 1, PPAR alpha, Pancreatic Neoplasms, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Protein Transport, RNA, Messenger, Signal Transduction, Telomere Shortening, Transcription Factors, Tumor Suppressor Proteins, carnitine palmitoyltransferase 1C, stable transfection, senescence, mitochondria, metabolic reprogramming, Biochemistry and Cell Biology, Physiology, Oncology and Carcinogenesis, Developmental Biology
Abstract

Stable transfection manipulation with antibiotic selection and passaging induces progressive cellular senescence phenotypes. However, the underlying mechanisms remain poorly understood. This study demonstrated that stable transfection of the empty vector induced PANC-1 cells into cellular senescence. Metabolomics revealed several acylcarnitines and their upstream regulatory gene, carnitine palmitoyltransferase 1C (CPT1C) involved in fatty acid β-oxidation in mitochondria, were strikingly decreased in senescent PANC-1 cells. Low CPT1C expression triggered mitochondrial dysfunction, inhibited telomere elongation, impaired cell survival under metabolic stress, and hindered the malignance and tumorigenesis of senescent cells. On the contrary, mitochondrial activity was restored by CPT1C gain-of-function in senescent vector PANC-1 cells. PPARα and TP53/CDKN1A, crucial signaling components in cellular senescence, were downregulated in senescent PANC-1 cells. This study identifies CPT1C as a key regulator of stable transfection-induced progressive PANC-1 cell senescence that inhibits mitochondrial function-associated metabolic reprogramming. These findings confirm the need to identify cell culture alterations after stable transfection, particularly when cells are used for metabolomics and mitochondria-associated studies, and suggest inhibition of CPT1C could be a promising target to intervene pancreatic tumorigenesis.

Published
2020

49. Postmortem Analysis in a Clinical Trial of AAV2-NGF Gene Therapy for Alzheimer's Disease Identifies a Need for Improved Vector Delivery

Author

Castle, Michael J, Baltanás, Fernando C, Kovacs, Imre, Nagahara, Alan H, Barba, David, and Tuszynski, Mark H

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Clinical Sciences, Aging, Biotechnology, Alzheimer's Disease, Acquired Cognitive Impairment, Neurodegenerative, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Genetics, Brain Disorders, Neurosciences, Gene Therapy, Dementia, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Neurological, Aged, Alzheimer Disease, Amyloid beta-Peptides, Autopsy, Basal Forebrain, Cholinergic Neurons, Dependovirus, Female, Gene Transfer Techniques, Genetic Therapy, Genetic Vectors, Humans, Male, Middle Aged, Nerve Growth Factor, Neuropsychological Tests, AAV, AAV2-NGF, Alzheimer's disease, clinical trial, gene therapy, NGF, Medical biotechnology
Abstract

Nerve growth factor (NGF) gene therapy rescues and stimulates cholinergic neurons, which degenerate in Alzheimer's disease (AD). In a recent clinical trial for AD, intraparenchymal adeno-associated virus serotype 2 (AAV2)-NGF delivery was safe but did not improve cognition. Before concluding that NGF gene therapy is ineffective, it must be shown that AAV2-NGF successfully engaged the target cholinergic neurons of the basal forebrain. In this study, patients with clinically diagnosed early- to middle-stage AD received a total dose of 2 × 1011 vector genomes of AAV2-NGF by stereotactic injection of the nucleus basalis of Meynert. After a mean survival of 4.0 years, AAV2-NGF targeting, spread, and expression were assessed by immunolabeling of NGF and the low-affinity NGF receptor p75 at 15 delivery sites in 3 autopsied patients. NGF gene expression persisted for at least 7 years at sites of AAV2-NGF injection. However, the mean distance of AAV2-NGF spread was only 0.96 ± 0.34 mm. NGF did not directly reach cholinergic neurons at any of the 15 injection sites due to limited spread and inaccurate stereotactic targeting. Because AAV2-NGF did not directly engage the target cholinergic neurons, we cannot conclude that growth factor gene therapy is ineffective for AD. Upcoming clinical trials for AD will utilize real-time magnetic resonance imaging guidance and convection-enhanced delivery to improve the targeting and spread of growth factor gene delivery.

Published
2020

50. PRPs localized to the middle lamellae are required for cortical tissue integrity in Medicago truncatula roots

Author

Erickson, B Joy, Staples, Nathan C, Hess, Nicole, Staples, Michelle A, Weissert, Christian, Finkelstein, Ruth R, and Cooper, James B

Subjects
Plant Biology, Biological Sciences, Biotechnology, Cell Wall, Gene Expression Regulation, Plant, Gene Knockdown Techniques, Genetic Vectors, Glucuronidase, Medicago truncatula, Plant Proteins, Plant Roots, Plants, Genetically Modified, Proline-Rich Protein Domains, Promoter Regions, Genetic, Salivary Proline-Rich Proteins, Xylem, Proline-rich proteins, Medicago, Root cell walls, Pectins, Root structure, Biochemistry and Cell Biology, Genetics, Plant Biology & Botany, Plant biology
Abstract

Key messageA family of repetitive proline-rich proteins interact with acidic pectins and play distinct roles in legume root cell walls affecting cortical and vascular structure. A proline-rich protein (PRP) family, composed of tandemly repeated Pro-Hyp-Val-X-Lys pentapeptide motifs, is found primarily in the Leguminosae. Four distinct size classes within this family are encoded by seven tightly linked genes: MtPRP1, MtPRP2 and MtPRP3, and four nearly identical MtPRP4 genes. Promoter fusions to β-glucuronidase showed strong expression in the stele of hairy roots for all 4 PRP genes tested, with additional expression in the cortex for PRP1, PRP2 and PRP4. All except MtPRP4 are strongly expressed in non-tumorous roots, and secreted and ionically bound to root cell walls. These PRPs are absent from root epidermal cell walls, and PRP accumulation is highly localized within the walls of root cortical and vascular tissues. Within xylem tissue, PRPs are deposited in secondary thickenings where it is spatially exclusive to lignin. In newly differentiating xylem, PRPs are deposited in the regularly spaced paired-pits and pit membranes that hydraulically connect neighboring xylem elements. Hairpin-RNA knock-down constructs reducing PRP expression in Medicago truncatula hairy root tumors disrupted cortical and vascular patterning. Immunoblots showed that the knockdown tumors had potentially compensating increases in the non-targeted PRPs, all of which cross-react with the anti-PRP antibodies. However, PRP3 knockdown differed from knockdown of PRP1 and PRP2 in that it greatly reduced viability of hairy root tumors. We hypothesize that repetitive PRPs interact with acidic pectins to form block-copolymer gels that can play distinct roles in legume root cell walls.

Published
2020

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