Gene Therapy for Angelman Syndrome: Contemporary Approaches and Future Endeavors

Background: Angelman Syndrome (AS) is a congenital non inherited neurodevelopmental disorder. The contemporary AS management is symptomatic and it has been accepted that gene therapy may play a key role in the treatment of AS. Objective: The purpose of this study is to summarize existing and suggested gene therapy approaches to Angelman syndrome. Methods: This is a literature review. Pubmed and Scopus databases were researched with keywords (gene therapy, Angelman’s syndrome, neurological disorders, neonates). Peer-reviewed studies that were closely related to gene therapies in Angelman syndrome and available in English, Greek, Ukrainian or Indonesian were included. Studies that were published before 2000 were excluded and did not align with the aforementioned criteria. Results: UBE3A serves multiple roles in signaling and degradation procedures. Although the restoration of UBE3A expression rather than targeting known activities of the molecule would be the optimal therapeutic goal, it is not possible so far. Reinstatement of paternal UBE3A appears as an adequate alternative. This can be achieved by administering topoisomerase-I inhibitors or reducing UBE3A antisense transcript (UBE3A-ATS), a molecule which silences paternal UBE3A. Conclusion: Understanding UBE3A imprinting unravels the path to an etiologic treatment of AS. Gene therapy models tested on mice appeared less effective than anticipated pointing out that activation of paternal UBE3A cannot counteract the existing CNS defects. On the other hand, targeting abnormal downstream cell signaling pathways has provided promising rescue effects. Perhaps, combined reinstatement of paternal UBE3A expression with abnormal signaling pathways-oriented treatment is expected to provide better therapeutic effects. However, AS gene therapy remains debatable in pharmacoeconomics and ethics context.

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Gene therapy: a concept for the future in medical practice?

Hämostaseologie ◽

10.1055/s-0037-1619633 ◽

2004 ◽

Vol 24 (03) ◽

pp. 173-178

Author(s):

N. Bender

Keyword(s):

Gene Therapy ◽

Clinical Studies ◽

Vascular Diseases ◽

Clinical Development ◽

Actual State ◽

Therapeutic Effects ◽

Medline Search ◽

Review Period ◽

Continuous Approach ◽

Keywords Gene Therapy

SummaryGene therapy is a new therapeutic approach which is tested in numerous diseases connected with either non or only limited therapeutic effects. This paper aims at discussing the actual state of the clinical development of gene-therapy which targets an approval by either the FDA or EMEA. Basis of all the figures and tables presented is a BioMedNet/Medline search reviewing all titles found under the keywords gene therapy and/or clinical development. The review period begins in the year 1992 and ends in 2002. Publications identified were sorted into the following categories: therapeutic areas with gene therapy activities; indications and diseases with gene-therapy activities; vectors used in gene therapy and clinical studies using gene therapy. Only in some indications like breast cancer, colorectal cancer, HIV, and cystic fibrosis a variety of clinical studies had been published indicating a serious attempt to develop the indication for approval. But most developments are still in phase I/II. In all other therapeutic areas no systematic continuous approach was identified. Clinical activities in cardiovascular diseases and in peripheral vascular diseases increased during the preceding five years compared other therapeutic areas.

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Bruton’s Tyrosine Kinase, a Component of B Cell Signaling Pathways, Has Multiple Roles in the Pathogenesis of Lupus

Frontiers in Immunology ◽

10.3389/fimmu.2017.01986 ◽

2018 ◽

Vol 8 ◽

Cited By ~ 13

Author(s):

Anne B. Satterthwaite

Keyword(s):

Tyrosine Kinase ◽

Cell Signaling ◽

B Cell ◽

Signaling Pathways ◽

Multiple Roles ◽

Bruton’S Tyrosine Kinase ◽

Bruton's Tyrosine Kinase ◽

B Cell Signaling ◽

Cell Signaling Pathways ◽

Kinase A

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Emerging Gene and Small Molecule Therapies for the Neurodevelopmental Disorder Angelman Syndrome

Neurotherapeutics ◽

10.1007/s13311-021-01082-x ◽

2021 ◽

Author(s):

Nycole A. Copping ◽

Stephanie M. McTighe ◽

Kyle D. Fink ◽

Jill L. Silverman

Keyword(s):

Small Molecule ◽

Angelman Syndrome ◽

Sleep Disturbances ◽

Single Gene ◽

Neurodevelopmental Disorder ◽

The Body ◽

Motor Deficits ◽

Loss Of Function ◽

Gene Therapies ◽

High Prevalence

AbstractAngelman syndrome (AS) is a rare (~1:15,000) neurodevelopmental disorder characterized by severe developmental delay and intellectual disability, impaired communication skills, and a high prevalence of seizures, sleep disturbances, ataxia, motor deficits, and microcephaly. AS is caused by loss-of-function of the maternally inherited UBE3A gene. UBE3A is located on chromosome 15q11–13 and is biallelically expressed throughout the body but only maternally expressed in the brain due to an RNA antisense transcript that silences the paternal copy. There is currently no cure for AS, but advancements in small molecule drugs and gene therapies offer a promising approach for the treatment of the disorder. Here, we review AS and how loss-of-function of the maternal UBE3A contributes to the disorder. We also discuss the strengths and limitations of current animal models of AS. Furthermore, we examine potential small molecule drug and gene therapies for the treatment of AS and associated challenges faced by the therapeutic design. Finally, gene therapy offers the opportunity for precision medicine in AS and advancements in the treatment of this disorder can serve as a foundation for other single-gene neurodevelopmental disorders.

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Nanoparticle-Based Gene Therapy Intervention for Stroke Treatment: A Systematic Review

Current Gene Therapy ◽

10.2174/1566523220666201012150130 ◽

2020 ◽

Vol 20 (5) ◽

pp. 373-382

Author(s):

Sorayya Ghasemi ◽

Kimia Alavian ◽

Firoozeh Alavian

Keyword(s):

Systematic Review ◽

Gene Therapy ◽

Target Genes ◽

Data Extraction ◽

Final Analysis ◽

Therapeutic Effects ◽

Stroke Treatment ◽

Gene Therapies ◽

Therapeutic Consequences ◽

Brain Regeneration

Ischemic stroke is one of the main causes of mortality in advanced societies. Although gene therapy can be helpful, delivering gene therapy agents is challenging. Nanotechnology can enhance the potential therapeutic effects and the efficiency of gene therapy for some brain disorders. The present systematic review was conducted based on the PRISMA protocol to investigate the possible therapeutic effects of nanoparticles as the carriers of gene therapy agents in stroke therapy. Relevant keywords were used to search from ISI Web of Science, PubMed, and Scopus for relevant publications up to April 24, 2020. The selected articles were assessed using certain scores on the quality of the articles. Data extraction and quality judgment were carried out by the present reviewers. Of 130 articles retrieved, seven met the inclusion criteria and were, therefore, included in the final analysis. The outcome of the reviewing process revealed that depending on the selection of the target genes, stroke gene therapies have acceptable therapeutic consequences. The nanoparticles could be used to carry the gene therapy agents that are efficient targeting in stroke treatment. Also, it appears that the use of nanoparticles such as PEGylation and PAMAM, can be a valuable option to intensify the efficiency and specific targeting of stroke location. In conclusion, due to the inability of brain regeneration and the importance of genes in stroke-related complications, gene therapy seems to be a suitable treatment strategy. The use of suitable nanoparticles for transportation ensures the efficiency and usefulness of this method.

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Cell signaling pathways involved in enhanced cardiac repair mediated by TGF-β treated amnion epithelial cells

The Thoracic and Cardiovascular Surgeon ◽

10.1055/s-0032-1332323 ◽

2013 ◽

Vol 61 (S 01) ◽

Author(s):

R Roy ◽

A Brodarac ◽

H Stachelscheid ◽

YH Choi ◽

R Hetzer ◽

...

Keyword(s):

Epithelial Cells ◽

Cell Signaling ◽

Signaling Pathways ◽

Cardiac Repair ◽

Cell Signaling Pathways ◽

Amnion Epithelial Cells

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Aberrant aggressive behavior in a mouse model of Angelman syndrome

Scientific Reports ◽

10.1038/s41598-020-79984-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Lilach Simchi ◽

Hanoch Kaphzan

Keyword(s):

Social Behavior ◽

Mouse Model ◽

Aggressive Behavior ◽

Social Interactions ◽

Angelman Syndrome ◽

Case Reports ◽

Neurodevelopmental Disorder ◽

Therapeutic Interventions ◽

Affiliative Behavior ◽

Severe Difficulty

AbstractAngelman syndrome (AS) is a genetic neurodevelopmental disorder due to the absence of the E3-ligase protein, UBE3A. Inappropriate social interactions, usually hyper-sociability, is a part of that syndrome. In addition, clinical surveys and case reports describe aggressive behavior in AS individuals as a severe difficulty for caretakers. A mouse model for AS recapitulates most of the human AS phenotypes. However, very few studies utilized this mouse model for investigating affiliative social behavior, and not even a single study examined aggressive behavior. Hence, the aim of the herein study was to examine affiliative and aggressive social behavior. For that, we utilized a battery of behavioral paradigms, and performed detailed analyses of these behaviors. AS mice exhibited a unique characteristic of reduced habituation towards a social stimulus in comparison to their wild-type (WT) littermates. However, overall there were no additional marked differences in affiliative social behavior. In contrast to the mild changes in affiliative behavior, there was a striking enhanced aggression in the AS mice compared to their WT littermates. The herein findings emphasize the use of AS mouse model in characterizing and measuring inappropriate aggressive behavior, and suggests these as tools for investigating therapeutic interventions aimed at attenuating aggressive behavior.

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Inhibition Effect of Chloroquine and Integrin-Linked Kinase Knockdown on Translation in Melanoma Cells

International Journal of Molecular Sciences ◽

10.3390/ijms22073682 ◽

2021 ◽

Vol 22 (7) ◽

pp. 3682

Author(s):

Dorota Gil ◽

Piotr Laidler ◽

Marta Zarzycka ◽

Joanna Dulińska-Litewka

Keyword(s):

Signaling Pathways ◽

Melanoma Cell ◽

Melanoma Cells ◽

Antitumor Effects ◽

Regulatory Pathways ◽

Scratch Wound ◽

Integrin Linked Kinase ◽

And Migration ◽

Cell Signaling Pathways

The twofold role of autophagy in cancer is often the therapeutic target. Numerous regulatory pathways are shared between autophagy and other molecular processes needed in tumorigenesis, such as translation or survival signaling. Thus, we have assumed that ILK knockdown should promote autophagy, and used together with chloroquine, an autophagy inhibitor, it could generate a better anticancer effect by dysregulation of common signaling pathways. Expression at the protein level was analyzed using Western Blot; siRNA transfection was done for ILK. Analysis of cell signaling pathways was monitored with phospho-specific antibodies. Melanoma cell proliferation was assessed with the crystal violet test, and migration was evaluated by scratch wound healing assays. Autophagy was monitored by the accumulation of its marker, LC3-II. Our data show that ILK knockdown by siRNA suppresses melanoma cell growth by inducing autophagy through AMPK activation, and simultaneously initiates apoptosis. We demonstrated that combinatorial treatment of melanoma cells with CQ and siILK has a stronger antitumor effect than monotherapy with either of these. It generates the synergistic antitumor effects by the decrease of translation of both global and oncogenic proteins synthesis. In our work, we point to the crosstalk between translation and autophagy regulation.

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The Ocular Gene Delivery Landscape

Biomolecules ◽

10.3390/biom11081135 ◽

2021 ◽

Vol 11 (8) ◽

pp. 1135

Author(s):

Bhubanananda Sahu ◽

Isha Chug ◽

Hemant Khanna

Keyword(s):

Gene Therapy ◽

Genetic Diseases ◽

Gene Therapies ◽

Advantages And Disadvantages ◽

Fda Approval ◽

New Information ◽

Efficient Delivery ◽

Delivery Routes ◽

History Of ◽

Different Parts

The eye is at the forefront of developing therapies for genetic diseases. With the FDA approval of the first gene-therapy drug for a form of congenital blindness, numerous studies have been initiated to develop gene therapies for other forms of eye diseases. These examinations have revealed new information about the benefits as well as restrictions to using drug-delivery routes to the different parts of the eye. In this article, we will discuss a brief history of gene therapy and its importance to the eye and ocular delivery landscape that is currently being investigated, and provide insights into their advantages and disadvantages. Efficient delivery routes and vehicle are crucial for an effective, safe, and longer-lasting therapy.

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