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      Systemic AAV Micro-dystrophin Gene Therapy for Duchenne Muscular Dystrophy

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          Abstract

          Duchenne muscular dystrophy (DMD) is a lethal muscle disease caused by dystrophin gene mutation. Conceptually, replacing the mutated gene with a normal one would cure the disease. However, this task has encountered significant challenges due to the enormous size of the gene and the distribution of muscle throughout the body. The former creates a hurdle for viral vector packaging and the latter begs for whole-body therapy. To address these obstacles, investigators have invented the highly abbreviated micro-dystrophin gene and developed body-wide systemic gene transfer with adeno-associated virus (AAV). Numerous microgene configurations and various AAV serotypes have been explored in animal models in many laboratories. Preclinical data suggests that intravascular AAV micro-dystrophin delivery can significantly ameliorate muscle pathology, enhance muscle force, and attenuate dystrophic cardiomyopathy in animals. Against this backdrop, several clinical trials have been initiated to test the safety and tolerability of this promising therapy in DMD patients. While these trials are not powered to reach a conclusion on clinical efficacy, findings will inform the field on the prospects of body-wide DMD therapy with a synthetic micro-dystrophin AAV vector. This review discusses the history, current status, and future directions of systemic AAV micro-dystrophin therapy.

          Abstract

          Adeno-associated virus (AAV)-mediated systemic micro-dystrophin gene therapy has entered clinical trials in Duchenne muscular dystrophy patients. This paper reviews the history of the development of the AAV micro-dystrophin vector, preclinical results in mice and canines, current status of the field, existing problems, and future directions of this revolutionary therapeutic approach.

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          Overview of Complement Activation and Regulation

          Marina Noris, Giuseppe Remuzzi (2013)
          Summary Complement is an important component of the innate immune system that is crucial for defense from microbial infections and for clearance of immune complexes and injured cells. In normal conditions complement is tightly controlled by a number of fluid-phase and cell surface proteins to avoid injury to autologous tissues. When complement is hyperactivated, as occurs in autoimmune diseases or in subjects with dysfunctional regulatory proteins, it drives a severe inflammatory response in numerous organs. The kidney appears to be particularly vulnerable to complement-mediated inflammatory injury. Injury may derive from deposition of circulating active complement fragments in glomeruli, but complement locally produced and activated in the kidney also may have a role. Many kidney disorders have been linked to abnormal complement activation, including immune-complex–mediated glomerulonephritis and rare genetic kidney diseases, but also tubulointerstitial injury associated with progressive proteinuric diseases or ischemia-reperfusion.
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            Macrophage-Derived mir-155-Containing Exosomes Suppress Fibroblast Proliferation and Promote Fibroblast Inflammation during Cardiac Injury.

            Chunxiao Wang, Congcong Zhang, Luxin Liu (2017)
            Inflammation plays an important role in cardiac injuries. Here, we examined the role of miRNA in regulating inflammation and cardiac injury during myocardial infarction. We showed that mir-155 expression was increased in the mouse heart after myocardial infarction. Upregulated mir-155 was primarily presented in macrophages and cardiac fibroblasts of injured hearts, while pri-mir-155 was only expressed in macrophages. mir-155 was also presented in exosomes derived from macrophages, and it can be transferred into cardiac fibroblasts by macrophage-derived exosomes. A mir-155 mimic or mir-155 containing exosomes inhibited cardiac fibroblast proliferation by downregulating Son of Sevenless 1 expression and promoted inflammation by decreasing Suppressor of Cytokine Signaling 1 expression. These effects were reversed by the addition of a mir-155 inhibitor. In vivo, mir-155-deficient mice showed a significant reduction of the incidence of cardiac rupture and an improved cardiac function compared with wild-type mice. Moreover, transfusion of wild-type macrophage exosomes to mir-155(-/-) mice exacerbated cardiac rupture. Finally, the mir-155-deficient mice exhibited elevated fibroblast proliferation and collagen production, along with reduced cardiac inflammation in injured heart. Taken together, our results demonstrate that activated macrophages secrete mir-155-enriched exosomes and identify macrophage-derived mir-155 as a paracrine regulator for fibroblast proliferation and inflammation; thus, a mir-155 inhibitor (i.e., mir-155 antagomir) has the potential to be a therapeutic agent for reducing acute myocardial-infarction-related adverse events.
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              Fatal systemic inflammatory response syndrome in a ornithine transcarbamylase deficient patient following adenoviral gene transfer.

              Steven Raper, Narendra Chirmule, Frank S Lee (2003)
              We report the death of an 18-year-old male with partial ornithine transcarbamylase (OTC) deficiency who participated in a pilot (safety) study of gene therapy. The vector used for this trial was based on human adenovirus type 5, deleted in E1 and E4, and contained human OTC cDNA. It was infused into the right hepatic artery at a dose of 6x10(11)particles/kg. Approximately 18 h. following gene transfer the subject was noted to have altered mental status and jaundice--clinical signs not seen in any of the first 17 subjects in this study. Subsequently, his clinical course was marked by systemic inflammatory response syndrome, biochemically detectable disseminated intravascular coagulation, and multiple organ system failure, leading to death 98 h following gene transfer. Post-mortem examination was consistent with the clinical course, and vector DNA sequences were readily detectable in most tissues. The subject had high serum levels of IL-6 and IL-10 but normal TNFalpha immediately after infusion of the vector. This experience points to the limitations of animal studies in predicting human responses, the steep toxicity curve for replication defective adenovirus vectors, substantial subject-to-subject variation in host responses to systemically administered vectors, and the need for further study of the immune response to these vectors.
              Article 0 comments Cited 172 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Dongsheng Duan
                Journal
                Journal ID (nlm-ta): Mol Ther
                Journal ID (iso-abbrev): Mol. Ther
                Title: Molecular Therapy
                Publisher: American Society of Gene & Cell Therapy
                ISSN (Print): 1525-0016
                ISSN (Electronic): 1525-0024
                Publication date (Print): 03 October 2018
                Publication date (Electronic): 17 July 2018
                Volume: 26
                Issue: 10
                Pages: 2337-2356
                Affiliations
                [1 ]Department of Molecular Microbiology and Immunology, School of Medicine, University of Missouri, Columbia, MO 65212, USA
                [2 ]Department of Biomedical Sciences, College of Veterinary Medicine, University of Missouri, Columbia, MO 65211, USA
                [3 ]Department of Neurology, School of Medicine, University of Missouri, Columbia, MO 65212, USA
                [4 ]Department of Bioengineering, University of Missouri, Columbia, MO 65212, USA
                Author notes
                []Corresponding author: Dongsheng Duan, PhD, Professor, Department of Molecular Microbiology and Immunology, School of Medicine, University of Missouri, One Hospital Dr., Columbia, MO 65212, USA. duand@ 123456missouri.edu
                Article
                Publisher ID: S1525-0016(18)30336-8
                DOI: 10.1016/j.ymthe.2018.07.011
                PMC ID: 6171037
                PubMed ID: 30093306
                SO-VID: 48a0c5d7-2b90-4ac0-913e-b5bfec06e506
                Copyright © © 2018 The Author(s)
                License:

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                Categories
                Subject: Review

                ScienceOpen disciplines: Molecular medicine
                Keywords: duchenne muscular dystrophy,dystrophin,micro-dystrophin,adeno-associated virus,systemic gene therapy,aav,dmd,becker muscular dystrophy,bmd,clinical trial
                Data availability:
                ScienceOpen disciplines: Molecular medicine
                Keywords: duchenne muscular dystrophy, dystrophin, micro-dystrophin, adeno-associated virus, systemic gene therapy, aav, dmd, becker muscular dystrophy, bmd, clinical trial

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