Neuraminidase‐mediated desialylation augments AAV9‐mediated gene expression in skeletal muscle

Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia‐augmented expression include: (i) i...

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Published in	The journal of gene medicine Vol. 20; no. 9; pp. e3049 - n/a
Main Authors	Zhu, Hongling, Wang, Tao, John Lye, Robert, French, Brent A., Annex, Brian H.
Format	Journal Article
Language	English
Published	England Wiley Periodicals Inc 01.09.2018
Subjects	Adeno‐associated virus Bioluminescence Cell surface Copy number Exo-a-sialidase Gene expression Gene therapy Gene transfer Genomes Histamine Injection Intravenous administration Ischemia Liver muscle‐specific promoter neuraminidase Neuroimaging Permeability Polysaccharides receptor Skeletal muscle gene therapy Adeno-associated virus muscle-specific promoter receptor neuraminidase
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Abstract	Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia‐augmented expression include: (i) increased vascular permeability and (ii) “unmasking” of endogenous AAV9 receptors. In the present study, we aimed to reconstitute the ischemic induction of AAV9 in vivo, using local injection of histamine (to increase vascular permeability) and neuraminidase (to desialylate cell surface glycans). Methods Bioassays were performed to optimize the effects of histamine and neuraminidase after intramuscular injection. Histamine and/or neuraminidase were then injected intramuscularly shortly before intravenous injection of an AAV9 vector expressing luciferase. Luciferase expression was serially assessed with bioluminescence imaging. At the end of the study, tissues were harvested for assays of luciferase activity and AAV9 genome copy number aiming to assess AAV‐mediated gene expression and transduction, respectively. Results Intramuscular injection of either neuraminidase or neuraminidase plus histamine significantly increased both transduction and gene expression, whereas histamine alone had little effect. Pre‐injection with neuraminidase increased AAV9‐mediated gene delivery by four‐ to nine‐fold and luciferase activity by 60–100‐fold. Luciferase activity in neuraminidase‐injected muscle was > 100‐fold higher than in any off‐target tissue (including heart, liver and brain). Conclusions The ischemic induction of AAV9‐mediated gene expression in muscle can largely be reconstituted by pre‐injecting neuraminidase intranmuscularly. This strategy may prove useful in future human gene therapy protocols as a quick and efficient means to selectively target systemically injected AAV9 to localized regions of muscle, thus decreasing the potential for adverse effects in off‐target tissues.
AbstractList	Abstract Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia‐augmented expression include: (i) increased vascular permeability and (ii) “unmasking” of endogenous AAV9 receptors. In the present study, we aimed to reconstitute the ischemic induction of AAV9 in vivo, using local injection of histamine (to increase vascular permeability) and neuraminidase (to desialylate cell surface glycans). Methods Bioassays were performed to optimize the effects of histamine and neuraminidase after intramuscular injection. Histamine and/or neuraminidase were then injected intramuscularly shortly before intravenous injection of an AAV9 vector expressing luciferase. Luciferase expression was serially assessed with bioluminescence imaging. At the end of the study, tissues were harvested for assays of luciferase activity and AAV9 genome copy number aiming to assess AAV‐mediated gene expression and transduction, respectively. Results Intramuscular injection of either neuraminidase or neuraminidase plus histamine significantly increased both transduction and gene expression, whereas histamine alone had little effect. Pre‐injection with neuraminidase increased AAV9‐mediated gene delivery by four‐ to nine‐fold and luciferase activity by 60–100‐fold. Luciferase activity in neuraminidase‐injected muscle was > 100‐fold higher than in any off‐target tissue (including heart, liver and brain). Conclusions The ischemic induction of AAV9‐mediated gene expression in muscle can largely be reconstituted by pre‐injecting neuraminidase intranmuscularly. This strategy may prove useful in future human gene therapy protocols as a quick and efficient means to selectively target systemically injected AAV9 to localized regions of muscle, thus decreasing the potential for adverse effects in off‐target tissues. BACKGROUNDFollowing systemic delivery, AAV9-mediated gene expression is significantly increased in ischemic versus non-ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia-augmented expression include: (i) increased vascular permeability and (ii) "unmasking" of endogenous AAV9 receptors. In the present study, we aimed to reconstitute the ischemic induction of AAV9 in vivo, using local injection of histamine (to increase vascular permeability) and neuraminidase (to desialylate cell surface glycans). METHODSBioassays were performed to optimize the effects of histamine and neuraminidase after intramuscular injection. Histamine and/or neuraminidase were then injected intramuscularly shortly before intravenous injection of an AAV9 vector expressing luciferase. Luciferase expression was serially assessed with bioluminescence imaging. At the end of the study, tissues were harvested for assays of luciferase activity and AAV9 genome copy number aiming to assess AAV-mediated gene expression and transduction, respectively. RESULTSIntramuscular injection of either neuraminidase or neuraminidase plus histamine significantly increased both transduction and gene expression, whereas histamine alone had little effect. Pre-injection with neuraminidase increased AAV9-mediated gene delivery by four- to nine-fold and luciferase activity by 60-100-fold. Luciferase activity in neuraminidase-injected muscle was > 100-fold higher than in any off-target tissue (including heart, liver and brain). CONCLUSIONSThe ischemic induction of AAV9-mediated gene expression in muscle can largely be reconstituted by pre-injecting neuraminidase intranmuscularly. This strategy may prove useful in future human gene therapy protocols as a quick and efficient means to selectively target systemically injected AAV9 to localized regions of muscle, thus decreasing the potential for adverse effects in off-target tissues. Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia‐augmented expression include: (i) increased vascular permeability and (ii) “unmasking” of endogenous AAV9 receptors. In the present study, we aimed to reconstitute the ischemic induction of AAV9 in vivo, using local injection of histamine (to increase vascular permeability) and neuraminidase (to desialylate cell surface glycans). Methods Bioassays were performed to optimize the effects of histamine and neuraminidase after intramuscular injection. Histamine and/or neuraminidase were then injected intramuscularly shortly before intravenous injection of an AAV9 vector expressing luciferase. Luciferase expression was serially assessed with bioluminescence imaging. At the end of the study, tissues were harvested for assays of luciferase activity and AAV9 genome copy number aiming to assess AAV‐mediated gene expression and transduction, respectively. Results Intramuscular injection of either neuraminidase or neuraminidase plus histamine significantly increased both transduction and gene expression, whereas histamine alone had little effect. Pre‐injection with neuraminidase increased AAV9‐mediated gene delivery by four‐ to nine‐fold and luciferase activity by 60–100‐fold. Luciferase activity in neuraminidase‐injected muscle was > 100‐fold higher than in any off‐target tissue (including heart, liver and brain). Conclusions The ischemic induction of AAV9‐mediated gene expression in muscle can largely be reconstituted by pre‐injecting neuraminidase intranmuscularly. This strategy may prove useful in future human gene therapy protocols as a quick and efficient means to selectively target systemically injected AAV9 to localized regions of muscle, thus decreasing the potential for adverse effects in off‐target tissues. Following systemic delivery, AAV9-mediated gene expression is significantly increased in ischemic versus non-ischemic muscle, suggesting that AAV9 is an attractive vector for treating peripheral arterial disease. Potential mechanisms underlying ischemia-augmented expression include: (i) increased vascular permeability and (ii) "unmasking" of endogenous AAV9 receptors. In the present study, we aimed to reconstitute the ischemic induction of AAV9 in vivo, using local injection of histamine (to increase vascular permeability) and neuraminidase (to desialylate cell surface glycans). Bioassays were performed to optimize the effects of histamine and neuraminidase after intramuscular injection. Histamine and/or neuraminidase were then injected intramuscularly shortly before intravenous injection of an AAV9 vector expressing luciferase. Luciferase expression was serially assessed with bioluminescence imaging. At the end of the study, tissues were harvested for assays of luciferase activity and AAV9 genome copy number aiming to assess AAV-mediated gene expression and transduction, respectively. Intramuscular injection of either neuraminidase or neuraminidase plus histamine significantly increased both transduction and gene expression, whereas histamine alone had little effect. Pre-injection with neuraminidase increased AAV9-mediated gene delivery by four- to nine-fold and luciferase activity by 60-100-fold. Luciferase activity in neuraminidase-injected muscle was > 100-fold higher than in any off-target tissue (including heart, liver and brain). The ischemic induction of AAV9-mediated gene expression in muscle can largely be reconstituted by pre-injecting neuraminidase intranmuscularly. This strategy may prove useful in future human gene therapy protocols as a quick and efficient means to selectively target systemically injected AAV9 to localized regions of muscle, thus decreasing the potential for adverse effects in off-target tissues.
Author	Annex, Brian H. Zhu, Hongling Wang, Tao French, Brent A. John Lye, Robert
AuthorAffiliation	3 Robert M. Berne Cardiovascular Research Center, University of Virginia, Charlottesville, VA, USA 22908 2 Department of Biomedical Engineering, University of Virginia, Charlottesville, VA, USA 22908 1 Department of Medicine, Division of Cardiovascular Medicine, University of Virginia, Charlottesville, VA, USA 22908
AuthorAffiliation_xml	– name: 2 Department of Biomedical Engineering, University of Virginia, Charlottesville, VA, USA 22908 – name: 1 Department of Medicine, Division of Cardiovascular Medicine, University of Virginia, Charlottesville, VA, USA 22908 – name: 3 Robert M. Berne Cardiovascular Research Center, University of Virginia, Charlottesville, VA, USA 22908
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Current address: Department of Cardiology, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, Hubei 430030, China
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Snippet	Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9... Following systemic delivery, AAV9-mediated gene expression is significantly increased in ischemic versus non-ischemic muscle, suggesting that AAV9 is an... Abstract Background Following systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting... BackgroundFollowing systemic delivery, AAV9‐mediated gene expression is significantly increased in ischemic versus non‐ischemic muscle, suggesting that AAV9 is... BACKGROUNDFollowing systemic delivery, AAV9-mediated gene expression is significantly increased in ischemic versus non-ischemic muscle, suggesting that AAV9 is...
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SubjectTerms	Adeno‐associated virus Bioluminescence Cell surface Copy number Exo-a-sialidase Gene expression Gene therapy Gene transfer Genomes Histamine Injection Intravenous administration Ischemia Liver muscle‐specific promoter neuraminidase Neuroimaging Permeability Polysaccharides receptor Skeletal muscle
Title	Neuraminidase‐mediated desialylation augments AAV9‐mediated gene expression in skeletal muscle
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