Your search keyword '"Zolotukhin I"' showing total 261 results

1. High-titer recombinant adeno-associated virus production utilizing a recombinant herpes simplex virus type I vector expressing AAV-2 Rep and Cap

Author

Conway, J E, Rhys, CMJ ap, Zolotukhin, I, Zolotukhin, S, Muzyczka, N, Hayward, G S, and Byrne, B J

Published

1999

2. Recombinant adeno-associated virus purification using novel methods improves infectious titer and yield

Author

Zolotukhin, S, Byrne, B J, Mason, E, Zolotukhin, I, Potter, M, Chesnut, K, Summerford, C, Samulski, R J, and Muzyczka, N

Published

1999

3. Polyfunctional T cells and unique cytokine clusters imprint the anti rAAV2/rAAV9 vector immune response.

Author

Holtkamp, Stephan J., Lagoda, Florian R., Lister, Adam, Harish, Pradeep, Kleymann, Ulrike, Pesch, Theresa, Soon, Chai Fen, Pirmohamed, Munir, Naisbitt, Dean, and Trautwein, Mark

Subjects

T cells, LYSINS, CELL analysis, ADENO-associated virus, GENE therapy

Abstract

Polyfunctional T cells programmed to perform activities such as degranulation of lytic enzymes and simultaneous production of multiple cytokines are associated with more effective control of viral infections. Immune responses to recombinant adeno-associated virus (rAAV) vector delivery systems can critically influence therapeutic efficacy and safety of gene therapy. However, knowledge of polyfunctional T cells in anti-AAV immune responses is scarce. To bridge this knowledge gap, we have investigated the polyfunctionality of primary human CD4 T cells from healthy donors after in-vitro exposure to rAAV2 or rAAV9 vectors. By performing proliferation assays of co-cultured T cells and rAAV pulsed monocyte-derived dendritic cells from healthy donors we demonstrate T cell reactivity of 43% and 50% to rAAV2 and rAAV9 vectors, respectively. We validated this frequency in a second screen using another set of healthy donors measuring CD25 and CD71 T cell activation. Single T cell secretome analysis of reactive donors uncovered a Th1 pro-inflammatory, cytolytic and chemoattractive cytokine release profile after stimulation with rAAV2 or rAAV9 vectors. 12.4% and 9.6% of the stimulated T cells displayed a polyfunctional cytokine response, respectively, including elevated polyfunctional inflammatory indices. These responses were characterized by cytokine clusters such as Granzyme B, MIP1-α and TNF-α released in combination by single T cells. Overall, our results provide insights into adaptive immunity with rAAV vector serotypes which will be important in advancing gene therapy safety, vector selection, immunogenicity assessment and better patient selection for AAV gene therapy. [ABSTRACT FROM AUTHOR]

Published

2024

4. Macrophage Inhibitor Clodronate Enhances Liver Transduction of Lentiviral but Not Adeno-Associated Viral Vectors or mRNA Lipid Nanoparticles in Neonatal and Juvenile Mice.

Author

Touramanidou, Loukia, Gurung, Sonam, Cozmescu, Claudiu A., Perocheau, Dany, Moulding, Dale, Finn, Patrick F., Frassetto, Andrea, Waddington, Simon N., Gissen, Paul, and Baruteau, Julien

Subjects

GENE therapy, GENETIC vectors, ANIMAL young, VIRAL genes, GENE expression

Abstract

Recently approved adeno-associated viral (AAV) vectors for liver monogenic diseases haemophilia A and B are exemplifying the success of liver-directed viral gene therapy. In parallel, additional gene therapy strategies are rapidly emerging to overcome some inherent AAV limitations, such as the non-persistence of the episomal transgene in the rapidly growing liver and immune response. Viral integrating vectors such as in vivo lentiviral gene therapy and non-viral vectors such as lipid nanoparticles encapsulating mRNA (LNP-mRNA) are rapidly being developed, currently at the preclinical and clinical stages, respectively. Macrophages are the first effector cells of the innate immune response triggered by gene therapy vectors. Macrophage uptake and activation following administration of viral gene therapy and LNP have been reported. In this study, we assessed the biodistribution of AAV, lentiviral, and LNP-mRNA gene therapy following the depletion of tissue macrophages by clodronate pre-treatment in neonatal and juvenile mice. Both neonatal and adult clodronate-treated mice showed a significant increase in lentiviral-transduced hepatocytes. In contrast, clodronate pre-treatment did not modify hepatocyte transduction mediated by hepatotropic AAV8 but reduced LNP-mRNA transfection in neonatal and juvenile animals. These results highlight the importance of age-specific responses in the liver and will have translational applications for gene therapy programs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Synthetic Promoters in Gene Therapy: Design Approaches, Features and Applications.

Author

Artemyev, Valentin, Gubaeva, Anna, Paremskaia, Anastasiia Iu., Dzhioeva, Amina A., Deviatkin, Andrei, Feoktistova, Sofya G., Mityaeva, Olga, and Volchkov, Pavel Yu.

Subjects

GENETIC regulation, GENE expression, GENE therapy, SYNTHETIC genes, NATURAL numbers

Abstract

Gene therapy is a promising approach to the treatment of various inherited diseases, but its development is complicated by a number of limitations of the natural promoters used. The currently used strong ubiquitous natural promoters do not allow for the specificity of expression, while natural tissue-specific promoters have lowactivity. These limitations of natural promoters can be addressed by creating new synthetic promoters that achieve high levels of tissue-specific target gene expression. This review discusses recent advances in the development of synthetic promoters that provide a more precise regulation of gene expression. Approaches to the design of synthetic promoters are reviewed, including manual design and bioinformatic methods using machine learning. Examples of successful applications of synthetic promoters in the therapy of hereditary diseases and cancer are presented, as well as prospects for their clinical use. [ABSTRACT FROM AUTHOR]

Published

2024

6. Challenges in AAV-Based Retinal Gene Therapies and the Role of Magnetic Nanoparticle Platforms.

Author

Siontas, Oliver and Ahn, Seungkuk

Subjects

RETINAL diseases, GENE therapy, GENETIC load, MAGNETIC nanoparticles, INTRAVITREAL injections

Abstract

Retinal diseases, leading to various visual impairments and blindness, are on the rise. However, the advancement of retinal gene therapies offers new hope for treatment of such diseases. Among different vector systems for conferring therapeutic genetic load to retinal cells, adeno-associated viruses (AAVs) have been most intensively explored and have already successfully gained multiple clinical approvals. AAV-based retinal gene therapies have shown great promise in treating retinal disorders, but usually rely on the heavily disruptive administration methods such as subretinal injection. This is because the clinically well-established, minimally invasive alternative of intravitreal injection (IVI) necessitates AAVs to traverse the retinal inner limiting membrane (ILM), which is hard to penetrate in higher eye models, like human or porcine eyes. Additionally, AAVs' natural transduction preference, known as tropism, is commonly not specific to cells of only one target retinal layer, which is another ongoing challenge in retinal gene therapy. This review examines strategies to overcome these obstacles with a focus on the potential of magnetic nanoparticles (MNPs) for improved retinal AAV delivery. [ABSTRACT FROM AUTHOR]

Published

2024

7. The Intra-Articular Delivery of a Low-Dose Adeno-Associated Virus-IL-1 Receptor Antagonist Vector Alleviates the Progress of Arthritis in an Osteoarthritis Rat Model.

Author

Luo, Shuang, Jiang, Hao, Li, Qingwei, Yang, Shiping, Yu, Xuemei, Xu, Xiongliang, Xie, Qing, Ke, Xiao, and Zheng, Qiang

Subjects

JOINT diseases, LABORATORY rats, GENETIC regulation, INTRA-articular injections, CANCELLOUS bone

Abstract

Background/Objectives: Interleukin-1 (IL-1) is a pivotal mediator in the pathological progression of osteoarthritis (OA), playing a central role in disease progression. However, the rapid clearance of IL-1 receptor antagonist (IL-1Ra) from the joints may hinder the efficacy of intra-articular IL-1Ra injections in reducing OA-associated pain or cartilage degradation. Methods: Sustaining sufficient levels of IL-1Ra within the joints via adeno-associated virus (AAV)-mediated gene therapy presents a promising therapeutic strategy for OA. In this study, we constructed an IL-1Ra expression cassette employing intron insertion in the coding sequence (CDS) region to enhance protein expression levels. Furthermore, we incorporated precisely targeted liver-specific microRNA (miRNA) sequences to specifically downregulate transgene expression within hepatic tissues, thereby ensuring more targeted and controlled regulation of gene expression. Results: A rat model of OA was employed to compare the efficacy of AAV5 and AAV9 for IL-1Ra delivery at both high and low doses. It was observed that low-dose, but not high-dose, AAV9-IL-1Ra resulted in a significant reduction in joint swelling, accompanied by a decrease in the diameter of the affected area and the preservation of biomarkers associated with trabecular bone integrity. Conclusions: These results highlight the great potential of AAV9-IL-1Ra in osteoarthritis therapy, with the promise of achieving long-term improvement through a single intra-articular injection. [ABSTRACT FROM AUTHOR]

Published

2024

8. Clinical and Translational Landscape of Viral Gene Therapies.

Author

Yudaeva, Alexandra, Kostyusheva, Anastasiya, Kachanov, Artyom, Brezgin, Sergey, Ponomareva, Natalia, Parodi, Alessandro, Pokrovsky, Vadim S., Lukashev, Alexander, Chulanov, Vladimir, and Kostyushev, Dmitry

Subjects

GENE therapy, TRANSGENE expression, GENE expression, VIRAL genes, ADENO-associated virus, GENETIC vectors

Abstract

Gene therapies hold significant promise for treating previously incurable diseases. A number of gene therapies have already been approved for clinical use. Currently, gene therapies are mostly limited to the use of adeno-associated viruses and the herpes virus. Viral vectors, particularly those derived from human viruses, play a critical role in this therapeutic approach due to their ability to efficiently deliver genetic material to target cells. Despite their advantages, such as stable gene expression and efficient transduction, viral vectors face numerous limitations that hinder their broad application. These limitations include small cloning capacities, immune and inflammatory responses, and risks of insertional mutagenesis. This review explores the current landscape of viral vectors used in gene therapy, discussing the different types of DNA- and RNA-based viral vectors, their characteristics, limitations, and current medical and potential clinical applications. The review also highlights strategies to overcome existing challenges, including optimizing vector design, improving safety profiles, and enhancing transgene expression both using molecular techniques and nanotechnologies, as well as by approved drug formulations. [ABSTRACT FROM AUTHOR]

Published

2024

9. Prevalence of Antibodies against Adeno-Associated Viruses (AAVs) in Göttingen Minipigs and Its Implications for Gene Therapy and Xenotransplantation.

Author

Jacobsen, Kirsten Rosenmay, Mota, Javier, Salerno, Michelle, Willis, Alexis, Pitts, Dennis, and Denner, Joachim

Subjects

GENE therapy, ADENO-associated virus, ANTIBODY titer, ANIMAL experimentation, XENOTRANSPLANTATION

Abstract

Adeno-associated viruses (AAV) are widely used as delivery vectors in clinical trials for in vivo gene therapy due to their unique features. Göttingen minipigs are a well-established animal model for several diseases and can be used for the efficacy and safety testing of AAV-based gene therapy. Pre-existing antibodies against AAV may influence the results of testing and, therefore, the animals should be tested for the presence of antibodies against relevant AAV serotypes. The detection of AAVs in pigs may be also important for the virus safety of xenotransplantation. In this study, we screened Göttingen minipigs from Ellegaard Göttingen Minipigs A/S, Denmark, and Marshall BioResources, USA, for antibodies against AAV1, AAV2, AAV6, AAV9 serotypes. Of the 20 animals tested, 18 had no neutralizing antibodies for all AAVs tested, none had antibodies against AAV9, only one had antibodies against AAV6, and the titers of antibodies against AAV1 and AAV2 were less than 1:100, with two exceptions. For total binding IgG, more individuals showed positivity for all the tested serotypes but, in general, the levels were low or zero. Three animals had no antibodies at all against the AAVs tested. Therefore, Göttingen minipigs could be considered an attractive animal model for gene therapy studies. Since some animals were negative for all AAVs tested, these may be selected and used as donor animals for xenotransplantation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Redundancy in Innate Immune Pathways That Promote CD8 + T-Cell Responses in AAV1 Muscle Gene Transfer.

Author

Li, Ning, Kumar, Sandeep R. P., Cao, Di, Munoz-Melero, Maite, Arisa, Sreevani, Brian, Bridget A., Greenwood, Calista M., Yamada, Kentaro, Duan, Dongsheng, and Herzog, Roland W.

Subjects

DOUBLE-stranded RNA, ANTIBODY formation, GENETIC transformation, ADENO-associated virus, GENE therapy, TRANSGENE expression

Abstract

While adeno-associated viral (AAV) vectors are successfully used in a variety of in vivo gene therapy applications, they continue to be hampered by the immune system. Here, we sought to identify innate and cytokine signaling pathways that promote CD8+ T-cell responses against the transgene product upon AAV1 vector administration to murine skeletal muscle. Eliminating just one of several pathways (including DNA sensing via TLR9, IL-1 receptor signaling, and possibly endosomal sensing of double-stranded RNA) substantially reduced the CD8+ T-cell response at lower vector doses but was surprisingly ineffective at higher doses. Using genetic, antibody-mediated, and vector engineering approaches, we show that blockade of at least two innate pathways is required to achieve an effect at higher vector doses. Concurrent blockade of IL-1R1 > MyD88 and TLR9 > MyD88 > type I IFN > IFNaR pathways was often but not always synergistic and had limited utility in preventing antibody formation against the transgene product. Further, even low-frequency CD8+ T-cell responses could eliminate transgene expression, even in MyD88- or IL-1R1-deficient animals that received a low vector dose. However, we provide evidence that CpG depletion of vector genomes and including TLR9 inhibitory sequences can synergize. When this construct was combined with the use of a muscle-specific promoter, transgene expression in muscle was sustained with minimal local or systemic CD8+ T-cell response. Thus, innate immune avoidance/blockade strategies by themselves, albeit helpful, may not be sufficient to prevent destructive cellular responses in muscle gene transfer because of the redundancy of immune-activating pathways. [ABSTRACT FROM AUTHOR]

Published

2024

11. Designing and optimizing AAV-mediated gene therapy for neurodegenerative diseases: from bench to bedside.

Author

Xu, Liang, Yao, Shun, Ding, Yifan Evan, Xie, Mengxiao, Feng, Dingqi, Sha, Pengfei, Tan, Lu, Bei, Fengfeng, and Yao, Yizheng

Subjects

GENE therapy, TRANSGENE expression, CENTRAL nervous system, NEURODEGENERATION, RECOMBINANT viruses, VIRAL tropism, GENETIC transformation

Abstract

Recombinant adeno-associated viruses (rAAVs) have emerged as an attractive tool for gene delivery, and demonstrated tremendous promise in gene therapy and gene editing—therapeutic modalities with potential "one-and-done" treatment benefits compared to conventional drugs. Given their tropisms for the central nervous system (CNS) across various species including humans, rAAVs have been extensively investigated in both pre-clinical and clinical studies targeting neurodegenerative disease. However, major challenges remain in the application of rAAVs for CNS gene therapy, such as suboptimal vector design, low CNS transduction efficiency and specificity, and therapy-induced immunotoxicity. Therefore, continuing efforts are being made to optimize the rAAV vectors from their "core" genetic payloads to their "coat" or capsid structure. In this review, we describe current approaches for rAAV vector design tailored for transgene expression in the CNS, summarize the development of CNS-targeting AAV serotypes, and highlight recent advancements in AAV capsid engineering, aimed at generating a new generation of rAAVs with improved CNS tropism. Additionally, we discuss various administration routes for delivering rAAVs to the CNS and provide an overview of AAV-mediated gene therapies currently under investigation in clinical trials for the treatment of neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficient AAV9 Purification Using a Single-Step AAV9 Magnetic Affinity Beads Isolation.

Author

Sia, Kian Chuan, Fu, Zhen Ying, Mohd Rodhi, Siti Humairah, Yee, Joan Hua Yi, Qu, Kun, and Gan, Shu Uin

Subjects

ADENO-associated virus, GENE therapy, GENOME editing, PLASMIDS, CLINICAL medicine

Abstract

Adeno-associated viruses (AAVs) have emerged as promising tools for gene therapy due to their safety and efficacy in delivering therapeutic genes or gene editing sequences to various tissues and organs. AAV serotype 9 (AAV9), among AAV serotypes, stands out for its ability to efficiently target multiple tissues, thus holding significant potential for clinical applications. However, existing methods for purifying AAVs are cumbersome, expensive, and often yield inconsistent results. In this study, we explore a novel purification strategy utilizing Dynabeads™ CaptureSelect™ magnetic beads. The AAV9 magnetic beads capture AAV9 with high specificity and recovery between 70 and 90%, whereas the AAVX magnetic beads did not bind to the AAV9. Through continuous interaction with AAVs in solution, these beads offer enhanced clearance of genomic DNA and plasmids even in the absence of endonuclease. The beads could be regenerated at least eight times, and the used beads could be stored for up to six months and reused without a significant reduction in recovery. The potency of the AAV9-purified vectors in vivo was comparable to that of iodixanol purified vectors. [ABSTRACT FROM AUTHOR]

Published

2024

13. Essential role of pre-existing humoral immunity in TLR9- mediated type I IFN response to recombinant AAV vectors in human whole blood.

Author

Alakhras, Nada S., Moreland, Christopher A., Li Chin Wong, Raut, Priyam, Kamalakaran, Sid, Yi Wen, Siegel, Robert W., and Malherbe, Laurent P.

Subjects

HUMORAL immunity, TYPE I interferons, GENE therapy, IMMUNE response, ADENO-associated virus

Abstract

Recombinant adeno-associated virus (AAV) vectors have emerged as the preferred platform for gene therapy of rare human diseases. Despite the clinical promise, host immune responses to AAV vectors and transgene remain a major barrier to the development of successful AAV-based human gene therapies. Here, we assessed the human innate immune response to AAV9, the preferred serotype for AAV-mediated gene therapy of the CNS. We showed that AAV9 induced type I interferon (IFN) and IL-6 responses in human blood from healthy donors. This innate response was replicated with AAV6, required full viral particles, but was not observed in every donor. Depleting CpG motifs from the AAV transgene or inhibiting TLR9 signaling reduced type I IFN response to AAV9 in responding donors, highlighting the importance of TLR9-mediated DNA sensing for the innate response to AAV9. Remarkably, we further demonstrated that only seropositive donors with preexisting antibodies to AAV9 capsid mounted an innate immune response to AAV9 in human whole blood and that anti-AAV9 antibodies were necessary and sufficient to promote type I IFN release and plasmacytoid dendritic (pDC) cell activation in response to AAV9. Thus, our study reveals a previously unidentified requirement for AAV preexisting antibodies for TLR9-mediated type I IFN response to AAV9 in human blood. [ABSTRACT FROM AUTHOR]

Published

2024

14. Engineering of a compact, high-fidelity EbCas12a variant that can be packaged with its crRNA into an all-in-one AAV vector delivery system.

Author

Wang, Hongjian, Zhou, Jin, Lei, Jun, Mo, Guosheng, Wu, Yankang, Liu, Huan, Pang, Ziyan, Du, Mingkun, Zhou, Zihao, Paek, Chonil, Sun, Zaiqiao, Chen, Yongshun, Wang, Yan, Chen, Peng, and Yin, Lei

Subjects

GENE therapy, GENOME editing, ADENO-associated virus, CRISPRS, ENGINEERING

Abstract

The CRISPR-associated endonuclease Cas12a has become a powerful genome-editing tool in biomedical research due to its ease of use and low off-targeting. However, the size of Cas12a severely limits clinical applications such as adeno-associated virus (AAV)-based gene therapy. Here, we characterized a novel compact Cas12a ortholog, termed EbCas12a, from the metagenome-assembled genome of a currently unclassified Erysipelotrichia. It has the PAM sequence of 5′-TTTV-3′ (V = A, G, C) and the smallest size of approximately 3.47 kb among the Cas12a orthologs reported so far. In addition, enhanced EbCas12a (enEbCas12a) was also designed to have comparable editing efficiency with higher specificity to AsCas12a and LbCas12a in mammalian cells at multiple target sites. Based on the compact enEbCas12a, an all-in-one AAV delivery system with crRNA for Cas12a was developed for both in vitro and in vivo applications. Overall, the novel smallest high-fidelity enEbCas12a, this first case of the all-in-one AAV delivery for Cas12a could greatly boost future gene therapy and scientific research. Cas12a nuclease is commonly used in genome editing applications, but it has been difficult to adopt it for AAV-based gene therapy due to its large size. This study characterizes a novel compact Cas12a ortholog from an uncultured bacteria of the class Erysipelotrichia (EbCas12a) and develops an all-in-one AAV delivery system whereby this EbCas12a can be packaged with its crRNA into a single AAV vector. [ABSTRACT FROM AUTHOR]

Published

2024

15. Riboswitch-controlled IL-12 gene therapy reduces hepatocellular cancer in mice.

Author

Düchs, Matthias J., Kratzer, Ramona F., Vieyra-Garcia, Pablo, Strobel, Benjamin, Schönberger, Tanja, Groß, Peter, Aljayyoussi, Ghaith, Gupta, Aradhana, Lang, Isabel, Klein, Holger, Morilla, Sandra Martinez, Hopf, Stefan, Park, John, Kreuz, Sebastian, Klugmann, Matthias, and Igney, Frederik H.

Subjects

HEPATOCELLULAR carcinoma, LIVER cancer, GENE therapy, GENE expression, MICE

Abstract

Hepatocellular carcinoma (HCC) and solid cancers with liver metastases are indications with high unmet medical need. Interleukin-12 (IL-12) is a proinflammatory cytokine with substantial anti-tumor properties, but its therapeutic potential has not been realized due to severe toxicity. Here, we show that orthotopic liver tumors in mice can be treated by targeting hepatocytes via systemic delivery of adeno-associated virus (AAV) vectors carrying the murine IL-12 gene. Controlled cytokine productionwas achieved in vivo by using the tetracyclineinducible K19 riboswitch. AAV-mediated expression of IL-12 led to STAT4 phosphorylation, interferon-γ (IFNγ) production, infiltration of T cells and, ultimately, tumor regression. By detailed analyses of efficacy and tolerability in healthy and tumor-bearing animals, we could define a safe and efficacious vector dose. As a potential clinical candidate, we characterized vectors carrying the human IL-12 (huIL-12) gene. In mice, bioactive human IL-12was expressed in a vector dosedependent manner and could be induced by tetracycline, suggesting tissue-specific AAV vectorswith riboswitch-controlled expression of highly potent proinflammatory cytokines as an attractive approach for vector-based cancer immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

16. Discovering human cell-compatible gene therapy virus variants via optimized screening in mouse models.

Author

Moyu Dai, Ning Yang, Kai Xu, Jingwen Zhang, Xueke Li, Ying Zhang, and Wei Li

Subjects

GENE therapy, LABORATORY mice, HUMAN genes, GENETIC vectors, ADENO-associated virus, LIVER cells, ADENOVIRUSES, RHABDOVIRUSES

Abstract

In gene therapy, intravenous injection of viral vectors reigns as the primary administration route. These vectors include adeno-associated viruses, adenoviruses, herpes viruses, rhabdoviruses and others. However, these naturally occurring viruses lack inherent tissue or organ tropism for tailored disease treatment. To address this, we devised an optimized process involving directed viral capsid evolution, organ-specific humanized mouse models and in vitro-in vivo virus screening. Our approach allows for the rapid generation specifically modified adeno-associated virus variants, surpassing the time required for natural evolution, which spans millions of years. Notably, these variants exhibit robust targeting of the liver, favouring chimeric human liver cells over murine hepatocytes. Furthermore, certain variants achieve augmented targeting with reduced off-target organ infection, thereby mitigating dosage requirements and enhancing safety in gene therapy. [ABSTRACT FROM AUTHOR]

Published

2024

17. Development of Stable Packaging and Producer Cell Lines for the Production of AAV Vectors.

Author

Merten, Otto-Wilhelm

Subjects

CHO cell, ADENO-associated virus, PACKAGING, RECOMBINANT viruses, GENE therapy

Abstract

Today, recombinant adeno-associated virus (rAAV) vectors represent the vector systems which are mostly used for in vivo gene therapy for the treatment of rare and less-rare diseases. Although most of the past developments have been performed by using a transfection-based method and more than half of the authorized rAAV-based treatments are based on transfection process, the tendency is towards the use of stable inducible packaging and producer cell lines because their use is much more straightforward and leads in parallel to reduction in the overall manufacturing costs. This article presents the development of HeLa cell-based packaging/producer cell lines up to their use for large-scale rAAV vector production, the more recent development of HEK293-based packaging and producer cell lines, as well as of packaging cell lines based on the use of Sf9 cells. The production features are presented in brief (where available), including vector titer, specific productivity, and full-to-empty particle ratio. [ABSTRACT FROM AUTHOR]

Published

2024

18. Enhancing the production of recombinant adeno‐associated virus in synthetic cell lines through systematic characterization.

Author

Lu, Min, Lee, Zion, Lin, Yu‐Chieh, Irfanullah, Ibrahim, Cai, Wen, and Hu, Wei‐Shou

Abstract

Recombinant adeno‐associated virus (rAAV) is among the most commonly used in vivo gene delivery vehicles and has seen a number of successes in clinical application. Current manufacturing processes of rAAV employ multiple plasmid transfection or rely on virus infection and face challenges in scale‐up. A synthetic biology approach was taken to generate stable cell lines with integrated genetic modules, which produced rAAV upon induction albeit at a low productivity. To identify potential factors that restrained the productivity, we systematically characterized virus production kinetics through targeted quantitative proteomics and various physical assays of viral components. We demonstrated that reducing the excessive expression of gene of interest by its conditional expression greatly increased the productivity of these synthetic cell lines. Further enhancement was gained by optimizing induction profiles and alleviating proteasomal degradation of viral capsid protein by the addition of proteasome inhibitors. Altogether, these enhancements brought the productivity close to traditional multiple plasmid transfection. The rAAV produced had comparable full particle contents as those produced by conventional transient plasmid transfection. The present work exemplified the versatility of our synthetic biology‐based viral vector production platform and its potential for plasmid‐ and virus‐free rAAV manufacturing. [ABSTRACT FROM AUTHOR]

Published

2024

19. AAV Immunotoxicity: Implications in Anti-HBV Gene Therapy.

Author

Jacobs, Ridhwaanah, Dogbey, Makafui Dennis, Mnyandu, Njabulo, Neves, Keila, Barth, Stefan, Arbuthnot, Patrick, and Maepa, Mohube Betty

Subjects

GENE therapy, HEPATITIS B virus, IMMUNOTOXICOLOGY, ADENO-associated virus, RECOMBINANT viruses

Abstract

Hepatitis B virus (HBV) has afflicted humankind for decades and there is still no treatment that can clear the infection. The development of recombinant adeno-associated virus (rAAV)-based gene therapy for HBV infection has become important in recent years and research has made exciting leaps. Initial studies, mainly using mouse models, showed that rAAVs are non-toxic and induce minimal immune responses. However, several later studies demonstrated rAAV toxicity, which is inextricably associated with immunogenicity. This is a major setback for the progression of rAAV-based therapies toward clinical application. Research aimed at understanding the mechanisms behind rAAV immunity and toxicity has contributed significantly to the inception of approaches to overcoming these challenges. The target tissue, the features of the vector, and the vector dose are some of the determinants of AAV toxicity, with the latter being associated with the most severe adverse events. This review discusses our current understanding of rAAV immunogenicity, toxicity, and approaches to overcoming these hurdles. How this information and current knowledge about HBV biology and immunity can be harnessed in the efforts to design safe and effective anti-HBV rAAVs is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

20. Hepatotoxicity in Adeno-Associated Viral Vector Gene Therapy.

Author

Jagadisan, Barath and Dhawan, Anil

Abstract

Purpose of Review: Recombinant adeno-associated virus (rAAV) is the commonest viral vector used in gene therapies. With the increase in the number of such therapies being employed in human clinical trials and approved clinical use, the associated adverse events are increasingly observed. Hepatotoxicity is the most common adverse event. Recent Findings: Although mild in most, hepatotoxicity may affect gene therapy efficacy, lead to acute liver failure, death and persisting hepatitis necessitating prolonged use of immunosuppressants. There has been an increase in the referrals of such cases to hepatologists. Summary: There is a lack of good quality evidence on the use of reactive immunosuppressants. There is a need to devise empiric protocols to diagnose and treat hepatotoxicity based on the side-effect profile of individual gene therapy, the present understanding of immunological basis of hepatotoxicity, the experience with various immunosuppressants in other disorders and the unique challenges and requirements of gene therapy. [ABSTRACT FROM AUTHOR]

Published

2023

21. AAV-Vectored Expression of Marburg Virus–Neutralizing Antibody MR191 Provides Complete Protection From Challenge in a Guinea Pig Model.

Author

Rghei, Amira D, Cao, Wenguang, He, Shihua, Lopes, Jordyn A, Zielinska, Nicole, Pei, Yanlong, Thompson, Brad, Banadyga, Logan, and Wootton, Sarah K

Subjects

GUINEA pigs, MARBURG virus, MONOCLONAL antibodies, ADENO-associated virus, B cells

Abstract

Although there are no approved countermeasures available to prevent or treat disease caused by Marburg virus (MARV), potently neutralizing monoclonal antibodies (mAbs) derived from B cells of human survivors have been identified. One such mAb, MR191, has been shown to provide complete protection against MARV in nonhuman primates. We previously demonstrated that prophylactic administration of an adeno-associated virus (AAV) expressing MR191 protected mice from MARV. Here, we modified the AAV-MR191 coding sequence to enhance efficacy and reevaluated protection in a guinea pig model. Remarkably, 4 different variants of AAV-MR191 provided complete protection against MARV, despite administration 90 days prior to challenge. Based on superior expression kinetics, AAV-MR191-io2, was selected for evaluation in a dose-reduction experiment. The highest dose provided 100% protection, while a lower dose provided ∼88% protection. These data confirm the efficacy of AAV-mediated expression of MR191 and support the further development of this promising MARV countermeasure. [ABSTRACT FROM AUTHOR]

Published

2023

22. Rational Design of AAV-rh74, AAV3B, and AAV8 with Limited Liver Targeting.

Author

Chan, Christopher, Harris, Kathryn K., Zolotukhin, Sergei, and Keeler, Geoffrey D.

Subjects

HEMATOPOIETIC stem cells, CAPSIDS, ADENO-associated virus, RECOMBINANT viruses, GENE therapy

Abstract

Recombinant adeno-associated viruses (rAAVs) have become one of the leading gene therapies for treating a variety of diseases. One factor contributing to rAAVs' success is the fact that a wide variety of tissue types can be transduced by different serotypes. However, one commonality amongst most serotypes is the high propensity for liver transduction when rAAVs are administered peripherally. One of the few exceptions is the naturally occurring clade F AAV hematopoietic stem cell 16 (AAVHSC16). AAVHSC16 represents an interesting capsid in that it shows minimal liver transduction when injected peripherally. For capsids other than AAVHSC16, targeting non-liver tissues via peripheral AAV injection represents a challenge due to the high liver transduction. Thus, there is a demand for liver-de-targeted rAAV vectors. The rational design of rAAV capsids relies on current knowledge to design improved capsids and represents one means of developing capsids with reduced liver transduction. Here, we utilized data from the AAVHSC16 capsid to rationally design four non-clade F rAAV capsids that result in reduced liver transduction following peripheral injection. [ABSTRACT FROM AUTHOR]

Published

2023

23. One episode of low intensity aerobic exercise prior to systemic AAV9 administration augments transgene delivery to the heart and skeletal muscle.

Author

Pacak, Christina A., Suzuki-Hatano, Silveli, Khadir, Fatemeh, Daugherty, Audrey L., Sriramvenugopal, Mughil, Gosiker, Bennett J., Kang, Peter B., and Cade, William Todd

Subjects

AEROBIC exercises, MYOCARDIUM, EXERCISE intensity, SKELETAL muscle, TREADMILL exercise

Abstract

Introduction: The promising potential of adeno-associated virus (AAV) gene delivery strategies to treat genetic disorders continues to grow with an additional three AAV-based therapies recently approved by the Food and Drug Administration and dozens of others currently under evaluation in clinical trials. With these developments, it has become increasingly apparent that the high doses currently needed for efficacy carry risks of toxicity and entail enormous manufacturing costs, especially for clinical grade products. Strategies to increase the therapeutic efficacy of AAV-mediated gene delivery and reduce the minimal effective dose would have a substantial impact on this field. We hypothesized that an exercise-induced redistribution of tissue perfusion in the body to favor specific target organs via acute aerobic exercise prior to systemic intravenous (IV) AAV administration could increase efficacy. Background: Aerobic exercise triggers an array of downstream physiological effects including increased perfusion of heart and skeletal muscle, which we expected could enhance AAV transduction. Prior preclinical studies have shown promising results for a gene therapy approach to treat Barth syndrome (BTHS), a rare monogenic cardioskeletal myopathy, and clinical studies have shown the benefit of low intensity exercise in these patients, making this a suitable disease in which to test the ability of aerobic exercise to enhance AAV transduction. Methods: Wild-type (WT) and BTHS mice were either systemically administered AAV9 or completed one episode of low intensity treadmill exercise immediately prior to systemic administration of AAV9. Results: We demonstrate that a single episode of acute low intensity aerobic exercise immediately prior to IV AAV9 administration improves marker transgene delivery in WT mice as compared to mice injected without the exercise pre-treatment. In BTHS mice, prior exercise improved transgene delivery and additionally increased improvement in mitochondrial gene transcription levels and mitochondrial function in the heart and gastrocnemius muscles as compared to mice treated without exercise. Conclusions: Our findings suggest that one episode of acute low intensity aerobic exercise improves AAV9 transduction of heart and skeletal muscle. This low-risk, cost effective intervention could be implemented in clinical trials of individuals with inherited cardioskeletal disease as a potential means of improving patient safety for human gene therapy. [ABSTRACT FROM AUTHOR]

Published

2023

24. Bioengineered Hybrid Rep 2/6 Gene Improves Encapsulation of a Single-Stranded Expression Cassette into AAV6 Vectors.

Author

Tejero, Marcos, Duzenli, Ozgun F., Caine, Colin, Kuoch, Hisae, and Aslanidi, George

Subjects

GENE expression, GENES, GENE therapy, GENETIC vectors, MANUFACTURING processes, BIOENGINEERING

Abstract

The production of clinical-grade recombinant adeno-associated viral (AAV) vectors for gene therapy trials remains a major hurdle in the further advancement of the gene therapy field. During the past decades, AAV research has been predominantly focused on the development of new capsid modifications, vector-associated immunogenicity, and the scale-up vector production. However, limited studies have examined the possibility to manipulate non-structural components of AAV such as the Rep genes. Historically, naturally isolated, or recombinant library-derived AAV capsids have been produced using the AAV serotype 2 Rep gene to package ITR2-flanked vector genomes. In the current study, we mutated four variable amino acids in the conservative part of the binding domain in AAV serotype 6 Rep to generate a Rep2/6 hybrid gene. This newly generated Rep2/6 hybrid had improved packaging ability over wild-type Rep6. AAV vectors produced with Rep2/6 exhibited similar in vivo activity as standard AAV6 vectors. Furthermore, we show that this Rep2/6 hybrid also improves full/empty capsid ratios, suggesting that Rep bioengineering can be used to improve the ratio of fully encapsulated AAV vectors during upstream manufacturing processes. [ABSTRACT FROM AUTHOR]

Published

2023

25. Topoisomerase Inhibitors Increase Episomal DNA Expression by Inducing the Integration of Episomal DNA in Hepatic Cells.

Author

Gómez-Moreno, Andoni, San Sebastian, Enara, Moya, Jennifer, Gomollón-Zueco, Pilar, Isola, Sergio, Vales, África, González-Aseguinolaza, Gloria, Unzu, Carmen, and Garaigorta, Urtzi

Subjects

LIVER cells, DNA repair, GENETIC vectors, SMALL molecules, VIRAL genomes, ALKALOIDS, CAMPTOTHECIN

Abstract

Gene therapy is a promising strategy to treat and cure most inherited metabolic liver disorders. Viral vectors such as those based on adeno-associated viruses (AAVs) and lentiviruses (LVs) are used as vehicles to deliver functional genes to affected hepatocytes. Adverse events associated with the use of high vector doses have motivated the use of small molecules as adjuvants to reduce the dose. In this study, we showed that a one-hour treatment with topoisomerase inhibitors (camptothecin and etoposide) prior to viral transduction is enough to increase AAV and LV reporter expression in non-dividing hepatic cells in culture. Topoisomerase inhibitors increased both integration-competent (ICLV) and integration-deficient (IDLV) LV-derived expression, with a much stronger increase in the IDLV transduction system. In agreement with that, topoisomerase inhibitors increased viral genome integration in both strains, with a greater impact on the IDLV strain, supporting the idea that topoisomerase inhibitors increased episomal DNA integration, especially when viral integrase activity is abolished. These effects correlated with an increase in the DNA damage response produced by the treatments. Our study highlights the need to monitor DNA damage and undesired integration of viral episomal DNAs into the host genome when studying chemical compounds that increase viral transduction. [ABSTRACT FROM AUTHOR]

Published

2023

26. Tyrosine-Mutant AAV8 Vector Mediated Efficient and Safe Gene Transfer of Pigment Epithelium-Derived Factor to Mouse Lungs.

Author

Ferreira, Débora P., Martini, Sabrina V., Oliveira, Helena A., Silva, Adriana L., Shenoy, Siddharth, Chen, Daiqin, Simon, Valentina, Han, Eric, West, Natalie E., Suk, Jung Soo, Rocco, Patricia R. M., Petrs-Silva, Hilda, Morales, Marcelo M., and Cruz, Fernanda F.

Subjects

PIGMENT epithelium-derived factor, GENETIC transformation, LUNGS, GENE therapy, RECOMBINANT viruses, ADENO-associated virus, VIRAL genomes

Abstract

Background/Aims: Recombinant adeno-associated viruses (rAAV) are an important tool for lung targeted gene therapy. Substitution of tyrosine with phenylalanine residues (YF) in the capsid have been shown to protect the AAV vector from ubiquitin/proteasome degradation, increasing transduction efficiency. We tested the mutant Y733F-AAV8 vector for mucus diffusion, as well as the safety and efficacy of pigment epithelium-derived factor (PEDF) gene transfer to the lung. Methods: For this purpose, Y733F-AAV8-PEDF (1010 viral genome) was administered intratracheally to C57BL/6 mice. Lung mechanics, morphometry, and inflammation were evaluated 7, 14, 21, and 28 days after injection. Results: The tyrosinemutant AAV8 vector was efficient at penetrating mucus in ex vivo assays and at transferring the gene to lung cells after in vivo instillation. Increased levels of transgene mRNA were observed 28 days after vector administration. Overexpression of PEDF did not affect in vivo lung parameters. Conclusion: These findings provide a basis for further development of Y733F-AAV8-based gene therapies for safe and effective delivery of PEDF, which has antiangiogenic, anti-inflammatory and anti-fibrotic activities and might be a promising therapy for lung inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published

2023

27. Innate Immune Response to Viral Vectors in Gene Therapy.

Author

Wang, Yixuan and Shao, Wenwei

Subjects

GENETIC vectors, GENE therapy, VIRAL genes, IMMUNE response, ADENO-associated virus

Abstract

Viral vectors play a pivotal role in the field of gene therapy, with several related drugs having already gained clinical approval from the EMA and FDA. However, numerous viral gene therapy vectors are currently undergoing pre-clinical research or participating in clinical trials. Despite advancements, the innate response remains a significant barrier impeding the clinical development of viral gene therapy. The innate immune response to viral gene therapy vectors and transgenes is still an important reason hindering its clinical development. Extensive studies have demonstrated that different DNA and RNA sensors can detect adenoviruses, adeno-associated viruses, and lentiviruses, thereby activating various innate immune pathways such as Toll-like receptor (TLR), cyclic GMP-AMP synthase–stimulator of interferon genes (cGAS-STING), and retinoic acid-inducible gene I–mitochondrial antiviral signaling protein (RLR-MAVS). This review focuses on elucidating the mechanisms underlying the innate immune response induced by three widely utilized viral vectors: adenovirus, adeno-associated virus, and lentivirus, as well as the strategies employed to circumvent innate immunity. [ABSTRACT FROM AUTHOR]

Published

2023

28. SMRT Sequencing Enables High-Throughput Identification of Novel AAVs from Capsid Shuffling and Directed Evolution.

Author

Casy, Widler, Garza, Irvin T., Chen, Xin, Dong, Thomas, Hu, Yuhui, Kanchwala, Mohammed, Trygg, Cynthia B., Shyng, Charles, Xing, Chao, Bunnell, Bruce A., Braun, Stephen E., and Gray, Steven J.

Subjects

NUCLEOTIDE sequencing, CENTRAL nervous system, SINGLE molecules, PEPTIDES

Abstract

The use of AAV capsid libraries coupled with various selection strategies has proven to be a remarkable approach for generating novel AAVs with enhanced and desired features. The inability to reliably sequence the complete capsid gene in a high-throughput manner has been the bottleneck of capsid engineering. As a result, many library strategies are confined to localized and modest alterations in the capsid, such as peptide insertions or single variable region (VR) alterations. The caveat of short reads by means of next-generation sequencing (NGS) hinders the diversity of capsid library construction, shifting the field away from whole-capsid modifications. We generated AAV capsid shuffled libraries of naturally occurring AAVs and applied directed evolution in both mice and non-human primates (NHPs), with the goal of yielding AAVs that are compatible across both species for translational applications. We recovered DNA from the tissues of injected animal and used single molecule real-time (SMRT) sequencing to identify variants enriched in the central nervous system (CNS). We provide insights and considerations for variant identification by comparing bulk tissue sequencing to that of isolated nuclei. Our work highlights the potential advantages of whole-capsid engineering, as well as indispensable methodological improvements for the analysis of recovered capsids, including the nuclei-enrichment step and SMRT sequencing. [ABSTRACT FROM AUTHOR]

Published

2023

29. Transcriptomic Analysis Reveals the Inability of Recombinant AAV8 to Activate Human Monocyte-Derived Dendritic Cells.

Author

Masri, Samer, Carré, Laure, Jaulin, Nicolas, Vandamme, Céline, Couzinié, Célia, Guy-Duché, Aurélien, Dupont, Jean-Baptiste, Pereira, Allwyn, Charpentier, Eric, David, Laurent, Gernoux, Gwladys, Guilbaud, Mickaël, and Adjali, Oumeya

Subjects

DENDRITIC cells, GENETIC vectors, TRANSCRIPTOMES, GENE therapy, NATURAL immunity, IMMUNE response

Abstract

Recombinant Adeno-Associated Virus (rAAV) is considered as one of the most successful and widely used viral vectors for in vivo gene therapy. However, host immune responses to the vector and/or the transgene product remain a major hurdle to successful AAV gene transfer. In contrast to antivector adaptive immunity, the initiation of the innate immunity towards rAAV is still poorly understood but is directly dependent on the interaction between the viral vector and innate immune cells. Here, we used a quantitative transcriptomic-based approach to determine the activation of inflammatory and anti-viral pathways after rAAV8-based infection of monocyte-derived dendritic cells (moDCs) obtained from 12 healthy human donors. We have shown that rAAV8 particles are efficiently internalized, but that this uptake does not induce any detectable transcriptomic change in moDCs in contrast to an adenoviral infection, which upregulates anti-viral pathways. These findings suggest an immunologically favorable profile for rAAV8 serotype with regard to in vitro activation of moDC model. Transcriptomic analysis of rAAV-infected innate immune cells is a powerful method to determine the ability of the viral vector to be seen by these sensor cells, which remains of great importance to better understand the immunogenicity of rAAV vectors and to design immune-stealth products. [ABSTRACT FROM AUTHOR]

Published

2023

30. Corneal Regeneration Using Gene Therapy Approaches.

Author

Sarkar, Subhradeep, Panikker, Priyalakshmi, D'Souza, Sharon, Shetty, Rohit, Mohan, Rajiv R., and Ghosh, Arkasubhra

Subjects

GENE therapy, CORNEA, SURGICAL complications, CORNEAL transplantation, GRAFT rejection

Abstract

One of the most remarkable advancements in medical treatments of corneal diseases in recent decades has been corneal transplantation. However, corneal transplants, including lamellar strategies, have their own set of challenges, such as graft rejection, delayed graft failure, shortage of donor corneas, repeated treatments, and post-surgical complications. Corneal defects and diseases are one of the leading causes of blindness globally; therefore, there is a need for gene-based interventions that may mitigate some of these challenges and help reduce the burden of blindness. Corneas being immune-advantaged, uniquely avascular, and transparent is ideal for gene therapy approaches. Well-established corneal surgical techniques as well as their ease of accessibility for examination and manipulation makes corneas suitable for in vivo and ex vivo gene therapy. In this review, we focus on the most recent advances in the area of corneal regeneration using gene therapy and on the strategies involved in the development of such therapies. We also discuss the challenges and potential of gene therapy for the treatment of corneal diseases. Additionally, we discuss the translational aspects of gene therapy, including different types of vectors, particularly focusing on recombinant AAV that may help advance targeted therapeutics for corneal defects and diseases. [ABSTRACT FROM AUTHOR]

Published

2023

31. Prevalence of Neutralizing Antibodies against Adeno-Associated Virus Serotypes 1, 2, and 9 in Non-Injected Latin American Patients with Heart Failure—ANVIAS Study.

Author

Sierra-Delgado, Julieth A., Likhite, Shibi, Bautista, Paula K., Gómez-Ochoa, Sergio A., Echeverría, Luis E., Guío, Elizabeth, Vargas, Clara, Serrano, Norma C., Meyer, Kathrin C., and Rincon, Melvin Y.

Subjects

LATIN Americans, HEART failure patients, ADENO-associated virus, VIRAL antibodies, TRANSGENE expression, SEROTYPES, FOOT & mouth disease, GENETIC vectors

Abstract

Neutralizing antibody (NAb) activity against the viral capsid of adeno-associated viral (AAV) vectors decreases transduction efficiency, thus limiting transgene expression. Several reports have mentioned a variation in NAb prevalence according to age, AAV serotype, and, most importantly, geographic location. There are currently no reports specifically describing the anti-AAV NAb prevalence in Latin America. Here, we describe the prevalence of NAb against different serotypes of AAV vectors (AAV1, AAV2, and AAV9) in Colombian patients with heart failure (HF) (referred to as cases) and healthy individuals (referred to as controls). The levels of NAb were evaluated in serum samples of 60 subjects from each group using an in vitro inhibitory assay. The neutralizing titer was reported as the first dilution inhibiting ≥50% of the transgene signal, and the samples with neutralizing titers at ≥1:50 dilution were considered positive. The prevalence of NAb in the case and control groups were similar (AAV2: 43% and 45%, respectively; AAV1 33.3% in each group; AAV9: 20% and 23.2%, respectively). The presence of NAb for two or more of the serotypes analyzed was observed in 25% of the studied samples, with the largest amount in the positive samples for AAV1 (55–75%) and AAV9 (93%), suggesting serial exposures, cross-reactivity, or coinfection. Moreover, patients in the HF group exhibited more common combined seropositivity for NAb against AAV1 d AAV9 than those in the control group (91.6% vs. 35.7%, respectively; p = 0.003). Finally, exposure to toxins was significantly associated with the presence of NAb in all regression models. These results constitute the first report of the prevalence of NAb against AAV in Latin America, being the first step to implementing therapeutic strategies based on AAV vectors in this population in our region. [ABSTRACT FROM AUTHOR]

Published

2023

32. Various AAV Serotypes and Their Applications in Gene Therapy: An Overview.

Author

Issa, Shaza S., Shaimardanova, Alisa A., Solovyeva, Valeriya V., and Rizvanov, Albert A.

Subjects

GENE therapy, GENETIC engineering, SEROTYPES, SCIENTIFIC discoveries, METHODS engineering, VIRAL tropism

Abstract

Despite scientific discoveries in the field of gene and cell therapy, some diseases still have no effective treatment. Advances in genetic engineering methods have enabled the development of effective gene therapy methods for various diseases based on adeno-associated viruses (AAVs). Today, many AAV-based gene therapy medications are being investigated in preclinical and clinical trials, and new ones are appearing on the market. In this article, we present a review of AAV discovery, properties, different serotypes, and tropism, and a following detailed explanation of their uses in gene therapy for disease of different organs and systems. [ABSTRACT FROM AUTHOR]

Published

2023

33. Host Cell Restriction Factors Blocking Efficient Vector Transduction: Challenges in Lentiviral and Adeno-Associated Vector Based Gene Therapies.

Author

Coroadinha, Ana Sofia

Subjects

GENE therapy, TYPE I interferons, GENETIC transduction, ADENO-associated virus, TREATMENT effectiveness, ENDOTHELIAL cells

Abstract

Gene therapy relies on the delivery of genetic material to the patient's cells in order to provide a therapeutic treatment. Two of the currently most used and efficient delivery systems are the lentiviral (LV) and adeno-associated virus (AAV) vectors. Gene therapy vectors must successfully attach, enter uncoated, and escape host restriction factors (RFs), before reaching the nucleus and effectively deliver the therapeutic genetic instructions to the cell. Some of these RFs are ubiquitously expressed in mammalian cells, while others are cell-specific, and others still are expressed only upon induction by danger signals as type I interferons. Cell restriction factors have evolved to protect the organism against infectious diseases and tissue damage. These restriction factors can be intrinsic, directly acting on the vector, or related with the innate immune response system, acting indirectly through the induction of interferons, but both are intertwined. The innate immunity is the first line of defense against pathogens and, as such cells derived from myeloid progenitors (but not only), are well equipped with RFs to detect pathogen-associated molecular patterns (PAMPs). In addition, some non-professional cells, such as epithelial cells, endothelial cells, and fibroblasts, play major roles in pathogen recognition. Unsurprisingly, foreign DNA and RNA molecules are among the most detected PAMPs. Here, we review and discuss identified RFs that block LV and AAV vector transduction, hindering their therapeutic efficacy. [ABSTRACT FROM AUTHOR]

Published

2023

34. Mitigating Serious Adverse Events in Gene Therapy with AAV Vectors: Vector Dose and Immunosuppression.

Author

Ertl, Hildegund C. J.

Subjects

PROTEASE inhibitors, IMMUNOGLOBULINS, DISEASE vectors, IMMUNOSUPPRESSION, REGULATORY B cells, CELLULAR signal transduction, GENE therapy, DRUG therapy, DRUG side effects, DRUG toxicity, ANTIBIOTICS

Abstract

Gene transfer with high doses of adeno-associated viral (AAV) vectors has resulted in serious adverse events and even death of the recipients. Toxicity could most likely be circumvented by repeated injections of lower and less toxic doses of vectors. This has not been pursued as AAV vectors induce potent neutralizing antibodies, which prevent cell transduction upon reinjection of the same vector. This review discusses different types of immune responses against AAV vectors and how they offer targets for the elimination or inhibition of vector-specific neutralizing antibodies. Such antibodies can be circumvented by using different virus serotypes for sequential injections, they can be removed by plasmapheresis, or they can be destroyed by enzymatic degradation. Antibody producing cells can be eliminated by proteasome inhibitors. Drugs that inhibit T-cell responses, B-cell signaling, or presentation of the vector's antigens to B cells can prevent or reduce induction of AAV-specific antibodies. Combinations of different approaches and drugs are likely needed to suppress or eliminate neutralizing antibodies, which would then allow for repeated dosing. Alternatively, novel AAV vectors with higher transduction efficacy are being developed and may allow for a dose reduction, although it remains unknown if this will completely address the problem of high-dose adverse events. [ABSTRACT FROM AUTHOR]

Published

2023

35. AAV Engineering for Improving Tropism to the Central Nervous System.

Author

Ghauri, Muhammad S. and Ou, Li

Subjects

CENTRAL nervous system, BLOOD-brain barrier, TROPISMS, VIRAL tropism, ADENO-associated virus, GENE therapy, METHODS engineering

Abstract

Simple Summary: Adeno-associated virus (AAV) is a small, non-pathogenic, and replication-defective virus that mainly infects primates. AAV has demonstrated great success in pre-clinical and clinical applications, including central nervous system (CNS), ocular, muscular, and liver diseases. We have encountered a variety of obstacles, such as delivery efficiency, packaging optimization, and immunogenicity that have hindered the therapeutic potential of AAV gene delivery. Much progress has been made to enhance AAV trophism to the CNS while de-targeting peripheral organs such as the liver, to minimize toxicity. However, the blood-brain barrier (BBB), remains a significant challenge for clinical applications, complicating vector delivery into and within various CNS compartments. Here, we outline the key studies utilizing AAV engineering methods including directed evolution, rational design, and in silico design that have been developed to accelerate the discovery and translation of novel CNS capsids. Adeno-associated virus (AAV) is a non-pathogenic virus that mainly infects primates with the help of adenoviruses. AAV is being widely used as a delivery vector for in vivo gene therapy, as evidenced by five currently approved drugs and more than 255 clinical trials across the world. Due to its relatively low immunogenicity and toxicity, sustained efficacy, and broad tropism, AAV holds great promise for treating many indications, including central nervous system (CNS), ocular, muscular, and liver diseases. However, low delivery efficiency, especially for the CNS due to the blood-brain barrier (BBB), remains a significant challenge for more clinical application of AAV gene therapy. Thus, there is an urgent need for utilizing AAV engineering to discover next-generation capsids with improved properties, e.g., enhanced BBB penetrance, lower immunogenicity, and higher packaging efficiency. AAV engineering methods, including directed evolution, rational design, and in silico design, have been developed, resulting in the discovery of novel capsids (e.g., PhP.B, B10, PAL1A/B/C). In this review, we discuss key studies that identified engineered CNS capsids and/or established methodological improvements. Further, we also discussed important issues that need to be addressed, including cross-species translatability, cell specificity, and modular engineering to improve multiple properties simultaneously. [ABSTRACT FROM AUTHOR]

Published

2023

36. Magnetofection of miR-21 promoted by electromagnetic field and iron oxide nanoparticles via the p38 MAPK pathway contributes to osteogenesis and angiogenesis for intervertebral fusion.

Author

Wang, Tianqi, Zhao, Hongqi, Jing, Shaoze, Fan, Yang, Sheng, Gaohong, Ding, Qing, Liu, Chaoxu, Wu, Hua, and Liu, Yang

Subjects

IRON oxide nanoparticles, ELECTROMAGNETIC fields, NEOVASCULARIZATION, MICRORNA, BONE growth, MITOGEN-activated protein kinases, CELL fusion

Abstract

Background: Magnetofection-mediated gene delivery shows great therapeutic potential through the regulation of the direction and degree of differentiation. Lumbar degenerative disc disease (DDD) is a serious global orthopaedic problem. However, even though intervertebral fusion is the gold standard for the treatment of DDD, its therapeutic effect is unsatisfactory. Here, we described a novel magnetofection system for delivering therapeutic miRNAs to promote osteogenesis and angiogenesis in patients with lumbar DDD. Results: Co-stimulation with electromagnetic field (EMF) and iron oxide nanoparticles (IONPs) enhanced magnetofection efficiency significantly. Moreover, in vitro, magnetofection of miR-21 into bone marrow mesenchymal stem cells (BMSCs) and human umbilical endothelial cells (HUVECs) influenced their cellular behaviour and promoted osteogenesis and angiogenesis. Then, gene-edited seed cells were planted onto polycaprolactone (PCL) and hydroxyapatite (HA) scaffolds (PCL/HA scaffolds) and evolved into the ideal tissue-engineered bone to promote intervertebral fusion. Finally, our results showed that EMF and polyethyleneimine (PEI)@IONPs were enhancing transfection efficiency by activating the p38 MAPK pathway. Conclusion: Our findings illustrate that a magnetofection system for delivering miR-21 into BMSCs and HUVECs promoted osteogenesis and angiogenesis in vitro and in vivo and that magnetofection transfection efficiency improved significantly under the co-stimulation of EMF and IONPs. Moreover, it relied on the activation of p38 MAPK pathway. This magnetofection system could be a promising therapeutic approach for various orthopaedic diseases. [ABSTRACT FROM AUTHOR]

Published

2023

37. Adeno-Associated Virus Gene Therapy for Hemophilia.

Author

Samelson-Jones, Benjamin J. and George, Lindsey A.

Abstract

In vivo gene therapy is rapidly emerging as a new therapeutic paradigm for monogenic disorders. For almost three decades, hemophilia A (HA) and hemophilia B (HB) have served as model disorders for the development of gene therapy. This effort is soon to bear fruit with completed pivotal adeno-associated viral (AAV) vector gene addition trials reporting encouraging results and regulatory approval widely anticipated in the near future for the current generation of HA and HB AAV vectors. Here we review the clinical development of AAV gene therapy for HA and HB and examine outstanding questions that have recently emerged from AAV clinical trials for hemophilia and other monogenic disorders. [ABSTRACT FROM AUTHOR]

Published

2023

38. One Health: Animal Models of Heritable Human Bleeding Diseases.

Author

Dodds, W. Jean

Subjects

ANIMAL models in research, ANIMAL health, GENOME editing, ANIMAL diseases, GENE therapy

Abstract

Simple Summary: Animal models of human and animal diseases have been studied for decades in both experimental and clinical research with the findings applied to their management and therapy. Today, molecular and genomic research has led to the gene editing and gene therapies of an increasing number of these disorders. This review summarizes current knowledge about the molecular genetics and therapeutic approaches applied to the heritable human and animal bleeding diseases. Animal models of human and animal diseases have long been used as the lynchpin of experimental and clinical research. With the discovery and implementation of novel molecular and nano-technologies, cellular research now has advanced to assessing signal transduction pathways, gene editing, and gene therapies. The contribution of heritable animal models to human and animal health as related to hemostasis is reviewed and updated with the advent of gene editing, recombinant and gene therapies. [ABSTRACT FROM AUTHOR]

Published

2023

39. Optogenetic approaches to therapy for inherited retinal degenerations.

Author

De Silva, Samantha R. and Moore, Anthony T.

Subjects

RETINAL degeneration, GENETIC vectors, VISION, VISION disorders, RETINITIS pigmentosa, GENE therapy, DIABETIC retinopathy

Abstract

Inherited retinal degenerations such as retinitis pigmentosa (RP) affect around one in 4000 people and are the leading cause of blindness in working age adults in several countries. In these typically monogenic conditions, there is progressive degeneration of photoreceptors; however, inner retinal neurons such as bipolar cells and ganglion cells remain largely structurally intact, even in end‐stage disease. Therapeutic approaches aiming to stimulate these residual cells, independent of the underlying genetic cause, could potentially restore visual function in patients with advanced vision loss, and benefit many more patients than therapies directed at the specific gene implicated in each disorder. One approach investigated for this purpose is that of optogenetics, a method of neuromodulation that utilises light to activate neurons engineered to ectopically express a light‐sensitive protein. Using gene therapy via adeno‐associated viral vectors, a range of photosensitive proteins have been expressed in remaining retinal cells in advanced retinal degeneration with in vivo studies demonstrating restoration of visual function. Developing an effective optogenetic strategy requires consideration of multiple factors, including the light‐sensitive protein that is used, the vector and method for gene delivery, and the target cell for expression because these in turn may affect the quality of vision that can be restored. Currently, at least four clinical trials are ongoing to investigate optogenetic therapies in patients, with the ultimate aim of reversing visual loss in end‐stage disease. [ABSTRACT FROM AUTHOR]

Published

2022

40. Engineered Oncolytic Adenoviruses: An Emerging Approach for Cancer Therapy.

Author

Tan, Ee Wern, Abd-Aziz, Noraini, Poh, Chit Laa, and Tan, Kuan Onn

Subjects

CANCER treatment, ADENOVIRUSES, GENE therapy, TUMOR microenvironment, CANCER chemotherapy, BIOLOGY

Abstract

Cancer is among the major leading causes of mortality globally, and chemotherapy is currently one of the most effective cancer therapies. Unfortunately, chemotherapy is invariably accompanied by dose-dependent cytotoxic side effects. Recently, genetically engineered adenoviruses emerged as an alternative gene therapy approach targeting cancers. This review focuses on the characteristics of genetically modified adenovirus and oncology clinical studies using adenovirus-mediated gene therapy strategies. In addition, modulation of the tumor biology and the tumor microenvironment as well as the immunological responses associated with adenovirus-mediate cancer therapy are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

41. Organoids and microphysiological systems: Promising models for accelerating AAV gene therapy studies.

Author

Ramamurthy, Ritu Mahesh, Atala, Anthony, Porada, Christopher D., and Almeida-Porada, Graҫa

Subjects

GENE therapy, ORGANOIDS, ADENO-associated virus, HUMAN physiology, ANIMAL models in research

Abstract

The FDA has predicted that at least 10-20 gene therapy products will be approved by 2025. The surge in the development of such therapies can be attributed to the advent of safe and effective gene delivery vectors such as adeno-associated virus (AAV). The enormous potential of AAV has been demonstrated by its use in over 100 clinical trials and the FDA’s approval of two AAV-based gene therapy products. Despite its demonstrated success in some clinical settings, AAV-based gene therapy is still plagued by issues related to host immunity, and recent studies have suggested that AAV vectors may actually integrate into the host cell genome, raising concerns over the potential for genotoxicity. To better understand these issues and develop means to overcome them, preclinical model systems that accurately recapitulate human physiology are needed. The objective of this review is to provide a brief overview of AAV gene therapy and its current hurdles, to discuss how 3D organoids, microphysiological systems, and body-on-a-chip platforms could serve as powerful models that could be adopted in the preclinical stage, and to provide some examples of the successful application of these models to answer critical questions regarding AAV biology and toxicity that could not have been answered using current animal models. Finally, technical considerations while adopting these models to study AAV gene therapy are also discussed. [ABSTRACT FROM AUTHOR]

Published

2022

42. Pre-existing humoral immunity and complement pathway contribute to immunogenicity of adeno-associated virus (AAV) vector in human blood.

Author

Smith, Corinne J., Ross, Nikki, Kamal, Ali, Kim, Kevin Y., Kropf, Elizabeth, Deschatelets, Pascal, Francois, Cedric, QuinnIII, William J., Singh, Inderpal, Majowicz, Anna, Mingozzi, Federico, and Kuranda, Klaudia

Subjects

HUMORAL immunity, IMMUNE response, ECULIZUMAB, ADENO-associated virus, ANTIGEN presenting cells, COMPLEMENT activation

Abstract

AAV gene transfer is a promising treatment for many patients with lifethreatening genetic diseases. However, host immune response to the vector poses a significant challenge for the durability and safety of AAV-mediated gene therapy. Here, we characterize the innate immune response to AAV in human whole blood. We identified neutrophils, monocyte-related dendritic cells, and monocytes as the most prevalent cell subsets able to internalize AAV particles, while conventional dendritic cells were the most activated in terms of the CD86 co-stimulatory molecule upregulation. Although low titers (=1:10) of AAV neutralizing antibodies (NAb) in blood did not have profound effects on the innate immune response to AAV, higher NAb titers (=1:100) significantly increased pro-inflammatory cytokine/chemokine secretion, vector uptake by antigen presenting cells (APCs) and complement activation. Interestingly, both full and empty viral particles were equally potent in inducing complement activation and cytokine secretion. By using a compstatin-based C3 and C3b inhibitor, APL-9, we demonstrated that complement pathway inhibition lowered CD86 levels on APCs, AAV uptake, and cytokine/chemokine secretion in response to AAV. Together these results suggest that the preexisting humoral immunity to AAV may contribute to trigger adverse immune responses observed in AAV-based gene therapy, and that blockade of complement pathway may warrant further investigation as a potential strategy for decreasing immunogenicity of AAV-based therapeutics. [ABSTRACT FROM AUTHOR]

Published

2022

43. Age‐stratified adeno‐associated virus serotype 3 neutralizing and total antibody prevalence in hemophilia A patients from India.

Author

Daniel, Hubert D.‐J, Kumar, Sanjay, Kannangai, Rajesh, J., Farzana, Joel, Joseph N., Abraham, Aby, Lakshmi, Kavitha M., Agbandje‐McKenna, Mavis, Coleman, Kirsten E., Srivastava, Arun, Srivastava, Alok, and Abraham, Asha M.

Subjects

HEMOPHILIACS, ADENO-associated virus, ENZYME-linked immunosorbent assay, HEMOPHILIA, GENE therapy

Abstract

Gene therapy using an adeno‐associated virus (AAV) vector offers a new treatment option for individuals with monogenetic disorders. The major bottleneck is the presence of pre‐existing anti‐AAV antibodies, which impacts its use. Even very low titers of neutralizing antibodies (NAb) to capsids from natural AAV infections have been reported to inhibit the transduction of intravenously administered AAV in animal models and are associated with limited efficacy in human trials. Assessing the level of pre‐existing NAb is important for determining the primary eligibility of patients for AAV vector‐based gene therapy clinical trials. Techniques used to screen AAV‐antibodies include AAV capsid enzyme‐linked immunosorbent assay (ELISA) and transduction inhibition assay (TIA) for detecting total capsid‐binding (TAb) and Nab, respectively. In this study, we screened 521 individuals with hemophilia A from India for TAb and NAb using ELISA and TIA, respectively. The prevalence of TAb and NAb in hemophilia A patients from India were 96% and 77.5%, respectively. There was a significant increase in anti‐AAV3 NAb prevalence with age in the hemophilia A patient group from India. There was a trend in anti‐AAV3 TAb positivity between the pediatric age group (94.4%) and the adult age group (97.4%). [ABSTRACT FROM AUTHOR]

Published

2022

44. Organoid transduction using recombinant adeno‐associated viral vectors: Challenges and opportunities.

Author

Belova, Lyubava, Lavrov, Alexander, and Smirnikhina, Svetlana

Subjects

GENETIC transduction, GENE therapy, MEDICAL research, THERAPEUTICS, CELL anatomy, GENETIC vectors

Abstract

Cellular 3D structures, for example, organoids, are an excellent model for studying and developing treatments for various diseases, including hereditary ones. Therefore, they are increasingly being used in biomedical research. From the point of view of safety and efficacy, recombinant adeno‐associated viral (rAAV) vectors are currently most in demand for the delivery of various transgenes for gene replacement therapy or other applications. The delivery of transgenes using rAAV vectors to various types of organoids is an urgent task, however, it is associated with a number of problems that are discussed in this review. Cellular heterogeneity and specifics of cultivation of 3D structures determine the complexity of rAAV delivery and are sometimes associated with low transduction efficiency. This review surveys the main ways to solve emerging problems and increase the efficiency of transgene delivery using rAAVs to organoids. A clear understanding of the stage of development of the organoid, its cellular composition and the presence of surface receptors will allow obtaining high levels of organoid transduction with existing rAAV vectors. [ABSTRACT FROM AUTHOR]

Published

2022

45. Immunogenicity and toxicity of AAV gene therapy.

Author

Ertl, Hildegund C. J.

Subjects

IMMUNE response, GENE therapy, DORSAL root ganglia, T cells, B cells

Abstract

Gene transfer using adeno-associated viral (AAV) vectors has made tremendous progress in the last decade and has achieved cures of debilitating diseases such as hemophilia A and B. Nevertheless, progress is still being hampered by immune responses against the AAV capsid antigens or the transgene products. Immunosuppression designed to blunt T cell responses has shown success in some patients but failed in others especially if they received very high AAV vectors doses. Although it was initially thought that AAV vectors induce only marginal innate responses below the threshold of systemic symptoms recent trials have shown that complement activation can results in serious adverse events. Dorsal root ganglia toxicity has also been identified as a complication of high vector doses as has severe hepatotoxicity. Most of the critical complications occur in patients who are treated with very high vector doses indicating that the use of more efficient AAV vectors to allow for dose sparing or giving smaller doses repeatedly, the latter in conjunction with antibody or B cell depleting measures, should be explored. [ABSTRACT FROM AUTHOR]

Published

2022

46. In vivo Delivery Tools for Clustered Regularly Interspaced Short Palindromic Repeat/Associated Protein 9-Mediated Inhibition of Hepatitis B Virus Infection: An Update.

Author

Hoque Kayesh, Mohammad Enamul, Hashem, Md Abul, Kohara, Michinori, Kyoko Tsukiyama-Kohara, Arbuthnot, Patrick, and Limin Chen

Subjects

CRISPRS, HEPATITIS B, CHRONIC hepatitis B, HEPATITIS B virus, VIRUS diseases

Abstract

Chronic hepatitis B virus (HBV) infection remains a major global health problem despite the availability of an effective prophylactic HBV vaccine. Current antiviral therapies are unable to fully cure chronic hepatitis B (CHB) because of the persistent nature of covalently closed circular DNA (cccDNA), a replicative template for HBV, which necessitates the development of alternative therapeutic approaches. The CRISPR/Cas system, a newly emerging genome editing tool, holds great promise for genome editing and gene therapy. Several in vitro and/or in vivo studies have demonstrated the effectiveness of HBV-specific clustered regularly interspaced short palindromic repeat (CRISPR)/associated protein 9 (CRISPR/Cas9) systems in cleaving HBV DNA and cccDNA. Although recent advances in CRISPR/Cas technology enhance its prospects for clinical application against HBV infection, in vivo delivery of the CRISPR/Cas9 system at targets sites remains a major challenge that needs to be resolved before its clinical application in gene therapy for CHB. In the present review, we discuss CRISPR/Cas9 delivery tools for targeting HBV infection, with a focus on the development of adeno-associated virus vectors and lipid nanoparticle (LNP)-based CRISPR/Cas ribonucleoprotein (RNP) delivery to treat CHB. In addition, we discuss the importance of delivery tools in the enhancement of the antiviral efficacy of CRISPR/Cas9 against HBV infection. [ABSTRACT FROM AUTHOR]

Published

2022

47. Fantastic AAV Gene Therapy Vectors and How to Find Them—Random Diversification, Rational Design and Machine Learning.

Author

Becker, Jonas, Fakhiri, Julia, and Grimm, Dirk

Subjects

GENE therapy, MACHINE learning, VIRAL tropism, MACHINE design, ADENO-associated virus, DNA viruses, GENETIC transformation, TRANSGENE expression

Abstract

Parvoviruses are a diverse family of small, non-enveloped DNA viruses that infect a wide variety of species, tissues and cell types. For over half a century, their intriguing biology and pathophysiology has fueled intensive research aimed at dissecting the underlying viral and cellular mechanisms. Concurrently, their broad host specificity (tropism) has motivated efforts to develop parvoviruses as gene delivery vectors for human cancer or gene therapy applications. While the sum of preclinical and clinical data consistently demonstrates the great potential of these vectors, these findings also illustrate the importance of enhancing and restricting in vivo transgene expression in desired cell types. To this end, major progress has been made especially with vectors based on Adeno-associated virus (AAV), whose capsid is highly amenable to bioengineering, repurposing and expansion of its natural tropism. Here, we provide an overview of the state-of-the-art approaches to create new AAV variants with higher specificity and efficiency of gene transfer in on-target cells. We first review traditional and novel directed evolution approaches, including high-throughput screening of AAV capsid libraries. Next, we discuss programmable receptor-mediated targeting with a focus on two recent technologies that utilize high-affinity binders. Finally, we highlight one of the latest stratagems for rational AAV vector characterization and optimization, namely, machine learning, which promises to facilitate and accelerate the identification of next-generation, safe and precise gene delivery vehicles. [ABSTRACT FROM AUTHOR]

Published

2022

48. Approaches to purification and concentration of rAAV vectors for gene therapy.

Author

Belova, Lyubava, Kochergin‐Nikitsky, Konstantin, Erofeeva, Anastasia, Lavrov, Alexander, and Smirnikhina, Svetlana

Subjects

GENE therapy, ADENO-associated virus, RECOMBINANT viruses, EUKARYOTIC cells, LABOR time, GENETIC vectors

Abstract

Recombinant adeno‐associated viruses (rAAVs) are promising vectors for the delivery of various genetic constructs into eukaryotic cells. rAAVs have a number of properties that make it possible to successfully use them both in vitro and in vivo. Purification and concentration of rAAV vectors are critical for achieving high viral titer, stability, efficiency, and purity. This review systematically analyses all available purification approaches. The purification methods described in this work differ substantially from each other in mechanisms, efficiency, labor time, and cost. Researchers have to choose a purification algorithm depending on the purpose of their work. We strive to simplify the choice of the necessary and sufficient technique based on the experimental needs and available resources of the laboratory. [ABSTRACT FROM AUTHOR]

Published

2022

49. Magnetite Nanoparticles in Magnetic Hyperthermia and Cancer Therapies: Challenges and Perspectives.

Author

Włodarczyk, Agnieszka, Gorgoń, Szymon, Radoń, Adrian, and Bajdak-Rusinek, Karolina

Subjects

MAGNETIC nanoparticle hyperthermia, MAGNETIC nanoparticles, THERMOTHERAPY, CANCER treatment, GENE therapy, MAGNETIC fields, MAGNETITE

Abstract

Until now, strategies used to treat cancer are imperfect, and this generates the need to search for better and safer solutions. The biggest issue is the lack of selective interaction with neoplastic cells, which is associated with occurrence of side effects and significantly reduces the effectiveness of therapies. The use of nanoparticles in cancer can counteract these problems. One of the most promising nanoparticles is magnetite. Implementation of this nanoparticle can improve various treatment methods such as hyperthermia, targeted drug delivery, cancer genotherapy, and protein therapy. In the first case, its feature makes magnetite useful in magnetic hyperthermia. Interaction of magnetite with the altered magnetic field generates heat. This process results in raised temperature only in a desired part of a patient body. In other therapies, magnetite-based nanoparticles could serve as a carrier for various types of therapeutic load. The magnetic field would direct the drug-related magnetite nanoparticles to the pathological site. Therefore, this material can be used in protein and gene therapy or drug delivery. Since the magnetite nanoparticle can be used in various types of cancer treatment, they are extensively studied. Herein, we summarize the latest finding on the applicability of the magnetite nanoparticles, also addressing the most critical problems faced by smart nanomedicine in oncological therapies. [ABSTRACT FROM AUTHOR]

Published

2022

50. HydrAd: A Helper-Dependent Adenovirus Targeting Multiple Immune Pathways for Cancer Immunotherapy.

Author

Rosewell Shaw, Amanda, Porter, Caroline, Biegert, Greyson, Jatta, Lisa, and Suzuki, Masataka

Subjects

TUMOR treatment, IMMUNOMODULATORS, ADENOVIRUSES, GENE expression, GENE therapy, IMMUNITY, MIXED infections, IMMUNOTHERAPY, ONCOGENIC viruses

Abstract

Simple Summary: Solid tumors are highly immunosuppressive and develop multiple inhibitory mechanisms that must be targeted simultaneously for successful cancer immunotherapy. Adenoviral vectors are promising cancer gene therapy vectors due to their inherent ability to stimulate multiple immune pathways. Adenoviruses are well characterized, and their genomes are easily manipulated, allowing for therapeutic transgene expression. Oncolytic adenoviruses are engineered to replicate specifically in malignant cells, resulting in cancer cell lysis. However, oncolytic adenoviral vectors have limited transgene capacity. Helper-dependent adenoviral vectors have been developed with the capability of expressing multiple transgenes through removal of all viral coding sequences. We have developed a helper-dependent platform for cancer immunotherapy and demonstrate expression of up to four functional transgenes. This platform allows us to target tumors with specific inhibitory pathways using our library of immunomodulatory transgenes in a mix-and-match approach for a synchronized cancer immunotherapy strategy. For decades, Adenoviruses (Ads) have been staple cancer gene therapy vectors. Ads are highly immunogenic, making them effective adjuvants. These viruses have well characterized genomes, allowing for substantial modifications including capsid chimerism and therapeutic transgene insertion. Multiple generations of Ad vectors have been generated with reduced or enhanced immunogenicity, depending on their intended purpose, and with increased transgene capacity. The latest-generation Ad vector is the Helper-dependent Ad (HDAd), in which all viral coding sequences are removed from the genome, leaving only the cis-acting ITRs and packaging sequences, providing up to 34 kb of transgene capacity. Although HDAds are replication incompetent, their innate immunogenicity remains intact. Therefore, the HDAd is an ideal cancer gene therapy vector as its infection results in anti-viral immune stimulation that can be enhanced or redirected towards the tumor via transgene expression. Co-infection of tumor cells with an oncolytic Ad and an HDAd results in tumor cell lysis and amplification of HDAd-encoded transgene expression. Here, we describe an HDAd-based cancer gene therapy expressing multiple classes of immunomodulatory molecules to simultaneously stimulate multiple axes of immune pathways: the HydrAd. Overall, the HydrAd platform represents a promising cancer immunotherapy agent against complex solid tumors. [ABSTRACT FROM AUTHOR]

Published

2022