A novel gene editing system to treat both Tay–Sachs and Sandhoff diseases
The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme β-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding...
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| Published in | Gene therapy Vol. 27; no. 5; pp. 226 - 236 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.05.2020
Nature Publishing Group |
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| Abstract | The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme β-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding the Hex α subunit, or HEXB, encoding the Hex β subunit, causes Tay–Sachs disease and Sandhoff disease, respectively. Previous studies have showed that a modified human Hex µ subunit (HEXM) can treat both Tay–Sachs and Sandhoff diseases by forming a homodimer to degrade GM2 gangliosides. To this end, we applied this HEXM subunit in our PS813 gene editing system to treat neonatal Sandhoff mice. Through AAV delivery of the CRISPR system, a promoterless HEXM cDNA will be integrated into the albumin safe harbor locus, and lysosomal enzyme will be expressed and secreted from edited hepatocytes. 4 months after the i.v. of AAV vectors, plasma MUGS and MUG activities reached up to 144- and 17-fold of wild-type levels (
n
= 10,
p
< 0.0001), respectively. More importantly, MUGS and MUG activities in the brain also increased significantly compared with untreated Sandhoff mice (
p
< 0.001). Further, HPLC-MS/MS analysis showed that GM2 gangliosides in multiple tissues, except the brain, of treated mice were reduced to normal levels. Rotarod analysis showed that coordination and motor memory of treated mice were improved (
p
< 0.05). Histological analysis of H&E stained tissues showed reduced cellular vacuolation in the brain and liver of treated Sandhoff mice. These results demonstrate the potential of developing a treatment of in vivo genome editing for Tay–Sachs and Sandhoff patients. |
|---|---|
| AbstractList | The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme [beta]-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding the Hex [alpha] subunit, or HEXB, encoding the Hex [beta] subunit, causes Tay-Sachs disease and Sandhoff disease, respectively. Previous studies have showed that a modified human Hex [micro] subunit (HEXM) can treat both Tay-Sachs and Sandhoff diseases by forming a homodimer to degrade GM2 gangliosides. To this end, we applied this HEXM subunit in our PS813 gene editing system to treat neonatal Sandhoff mice. Through AAV delivery of the CRISPR system, a promoterless HEXM cDNA will be integrated into the albumin safe harbor locus, and lysosomal enzyme will be expressed and secreted from edited hepatocytes. 4 months after the i.v. of AAV vectors, plasma MUGS and MUG activities reached up to 144- and 17-fold of wild-type levels (n = 10, p < 0.0001), respectively. More importantly, MUGS and MUG activities in the brain also increased significantly compared with untreated Sandhoff mice (p < 0.001). Further, HPLC-MS/MS analysis showed that GM2 gangliosides in multiple tissues, except the brain, of treated mice were reduced to normal levels. Rotarod analysis showed that coordination and motor memory of treated mice were improved (p < 0.05). Histological analysis of H&E stained tissues showed reduced cellular vacuolation in the brain and liver of treated Sandhoff mice. These results demonstrate the potential of developing a treatment of in vivo genome editing for Tay-Sachs and Sandhoff patients. The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme β-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding the Hex α subunit, or HEXB, encoding the Hex β subunit, causes Tay–Sachs disease and Sandhoff disease, respectively. Previous studies have showed that a modified human Hex µ subunit (HEXM) can treat both Tay–Sachs and Sandhoff diseases by forming a homodimer to degrade GM2 gangliosides. To this end, we applied this HEXM subunit in our PS813 gene editing system to treat neonatal Sandhoff mice. Through AAV delivery of the CRISPR system, a promoterless HEXM cDNA will be integrated into the albumin safe harbor locus, and lysosomal enzyme will be expressed and secreted from edited hepatocytes. 4 months after the i.v. of AAV vectors, plasma MUGS and MUG activities reached up to 144- and 17-fold of wild-type levels (n = 10, p < 0.0001), respectively. More importantly, MUGS and MUG activities in the brain also increased significantly compared with untreated Sandhoff mice (p < 0.001). Further, HPLC-MS/MS analysis showed that GM2 gangliosides in multiple tissues, except the brain, of treated mice were reduced to normal levels. Rotarod analysis showed that coordination and motor memory of treated mice were improved (p < 0.05). Histological analysis of H&E stained tissues showed reduced cellular vacuolation in the brain and liver of treated Sandhoff mice. These results demonstrate the potential of developing a treatment of in vivo genome editing for Tay–Sachs and Sandhoff patients. The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme β-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding the Hex α subunit, or HEXB, encoding the Hex β subunit, causes Tay-Sachs disease and Sandhoff disease, respectively. Previous studies have showed that a modified human Hex μ subunit (HEXM) can treat both Tay-Sachs and Sandhoff diseases by forming a homodimer to degrade GM2 gangliosides. To this end, we applied this HEXM subunit in our PS813 gene editing system to treat neonatal Sandhoff mice. Through AAV delivery of the CRISPR system, a promoterless HEXM cDNA will be integrated into the albumin safe harbor locus, and lysosomal enzyme will be expressed and secreted from edited hepatocytes. Four months after the i.v. of AAV vectors, plasma MUGS and MUG activities reached up to 144- and 17-fold of wildtype levels (n=10, p<0.0001), respectively. More importantly, MUGS and MUG activities in the brain also increased significantly compared with untreated Sandhoff mice (p<0.001). Further, HPLC-MS/MS analysis showed that GM2 gangliosides in multiple tissues, except the brain, of treated mice were reduced to normal levels. Rotarod analysis showed that coordination and motor memory of treated mice were improved (p<0.05). Histological analysis of H&E stained tissues showed reduced cellular vacuolation in the brain and liver of treated Sandhoff mice. These results demonstrate the potential of developing a treatment of in vivo genome editing for Tay-Sachs and Sandhoff patients. The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result from deficiency of a lysosomal enzyme β-hexosaminidase (Hex) and subsequent accumulation of GM2 gangliosides. Genetic changes in HEXA, encoding the Hex α subunit, or HEXB, encoding the Hex β subunit, causes Tay–Sachs disease and Sandhoff disease, respectively. Previous studies have showed that a modified human Hex µ subunit (HEXM) can treat both Tay–Sachs and Sandhoff diseases by forming a homodimer to degrade GM2 gangliosides. To this end, we applied this HEXM subunit in our PS813 gene editing system to treat neonatal Sandhoff mice. Through AAV delivery of the CRISPR system, a promoterless HEXM cDNA will be integrated into the albumin safe harbor locus, and lysosomal enzyme will be expressed and secreted from edited hepatocytes. 4 months after the i.v. of AAV vectors, plasma MUGS and MUG activities reached up to 144- and 17-fold of wild-type levels ( n = 10, p < 0.0001), respectively. More importantly, MUGS and MUG activities in the brain also increased significantly compared with untreated Sandhoff mice ( p < 0.001). Further, HPLC-MS/MS analysis showed that GM2 gangliosides in multiple tissues, except the brain, of treated mice were reduced to normal levels. Rotarod analysis showed that coordination and motor memory of treated mice were improved ( p < 0.05). Histological analysis of H&E stained tissues showed reduced cellular vacuolation in the brain and liver of treated Sandhoff mice. These results demonstrate the potential of developing a treatment of in vivo genome editing for Tay–Sachs and Sandhoff patients. |
| Audience | Academic |
| Author | Ou, Li Jiang, Xuntian Overn, Paula Sidhu, Rohini Tăbăran, Alexandru-Flaviu Kell, Pamela J. Ory, Daniel S. Whitley, Chester B. Przybilla, Michael J. O’Sullivan, M. Gerard |
| AuthorAffiliation | 4 Department of Medicine, Washington University School of Medicine, Saint Louis, Missouri 3 Comparative Pathology Shared Resource, University of Minnesota Masonic Cancer Center, Saint Paul, MN 55108 1 Gene Therapy Center, Department of Pediatrics, University of Minnesota, Minneapolis, MN 55455 2 Department of Genetics, Cell Biology and Development, University of Minnesota, Minneapolis, MN 55455 |
| AuthorAffiliation_xml | – name: 4 Department of Medicine, Washington University School of Medicine, Saint Louis, Missouri – name: 1 Gene Therapy Center, Department of Pediatrics, University of Minnesota, Minneapolis, MN 55455 – name: 3 Comparative Pathology Shared Resource, University of Minnesota Masonic Cancer Center, Saint Paul, MN 55108 – name: 2 Department of Genetics, Cell Biology and Development, University of Minnesota, Minneapolis, MN 55455 |
| Author_xml | – sequence: 1 givenname: Li surname: Ou fullname: Ou, Li email: ouxxx045@umn.edu organization: Gene Therapy Center, Department of Pediatrics, University of Minnesota – sequence: 2 givenname: Michael J. surname: Przybilla fullname: Przybilla, Michael J. organization: Department of Genetics, Cell Biology and Development, University of Minnesota – sequence: 3 givenname: Alexandru-Flaviu surname: Tăbăran fullname: Tăbăran, Alexandru-Flaviu organization: Comparative Pathology Shared Resource, University of Minnesota Masonic Cancer Center – sequence: 4 givenname: Paula surname: Overn fullname: Overn, Paula organization: Comparative Pathology Shared Resource, University of Minnesota Masonic Cancer Center – sequence: 5 givenname: M. Gerard surname: O’Sullivan fullname: O’Sullivan, M. Gerard organization: Comparative Pathology Shared Resource, University of Minnesota Masonic Cancer Center – sequence: 6 givenname: Xuntian orcidid: 0000-0001-9048-7294 surname: Jiang fullname: Jiang, Xuntian organization: Department of Medicine, Washington University School of Medicine – sequence: 7 givenname: Rohini surname: Sidhu fullname: Sidhu, Rohini organization: Department of Medicine, Washington University School of Medicine – sequence: 8 givenname: Pamela J. surname: Kell fullname: Kell, Pamela J. organization: Department of Medicine, Washington University School of Medicine – sequence: 9 givenname: Daniel S. surname: Ory fullname: Ory, Daniel S. organization: Department of Medicine, Washington University School of Medicine – sequence: 10 givenname: Chester B. surname: Whitley fullname: Whitley, Chester B. organization: Gene Therapy Center, Department of Pediatrics, University of Minnesota, Department of Genetics, Cell Biology and Development, University of Minnesota |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31896760$$D View this record in MEDLINE/PubMed |
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| Snippet | The GM2-gangliosidoses are neurological diseases causing premature death, thus developing effective treatment protocols is urgent. GM2-gangliosidoses result... |
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| SubjectTerms | 42 42/44 631/154/152 692/699/375 Albumin Analysis Biomedical and Life Sciences Biomedicine Cell Biology CRISPR Enzymes Gangliosides Gene Expression Gene Therapy Genes Genetic research Genome editing Genomes Genomics Hepatocytes High-performance liquid chromatography Human Genetics Medical research Medicine, Experimental Nanotechnology Neomycin Neonates Nervous system diseases Neurological diseases Tay-Sachs disease |
| Title | A novel gene editing system to treat both Tay–Sachs and Sandhoff diseases |
| URI | https://link.springer.com/article/10.1038/s41434-019-0120-5 https://www.ncbi.nlm.nih.gov/pubmed/31896760 https://www.proquest.com/docview/2407309389 https://www.proquest.com/docview/2474987339 https://search.proquest.com/docview/2333600300 https://pubmed.ncbi.nlm.nih.gov/PMC7260097 |
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