A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing
Phenylalanine hydroxylase–deficient (PAH-deficient) phenylketonuria (PKU) results in systemic hyperphenylalaninemia, leading to neurotoxicity with severe developmental disabilities. Dietary phenylalanine (Phe) restriction prevents the most deleterious effects of hyperphenylalaninemia, but adherence...
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American Society for Clinical investigation
2020-10-01
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| Series: | JCI Insight |
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| Online Access: | https://doi.org/10.1172/jci.insight.141523 |
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doaj-25a4c7bc5404441d96bc2b097f4c68db2021-08-02T17:47:09ZengAmerican Society for Clinical investigationJCI Insight2379-37082020-10-01520A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editingErik A. KoppesBethany K. RedelMarie A. JohnsonKristen J. SkvorakLina Ghaloul-GonzalezMegan E. YatesDale W. LewisSusanne M. GollinYijen L. WuShawn E. ChristMartine YerleAngela LeshinskiLee D. SpateJoshua A. BenneStephanie L. MurphyMelissa S. SamuelEric M. WaltersSarah A. HansenKevin D. WellsUta Lichter-KoneckiRobert A. WagnerJoseph T. NewsomeSteven F. DobrowolskiJerry VockleyRandall S. PratherRobert D. NichollsPhenylalanine hydroxylase–deficient (PAH-deficient) phenylketonuria (PKU) results in systemic hyperphenylalaninemia, leading to neurotoxicity with severe developmental disabilities. Dietary phenylalanine (Phe) restriction prevents the most deleterious effects of hyperphenylalaninemia, but adherence to diet is poor in adult and adolescent patients, resulting in characteristic neurobehavioral phenotypes. Thus, an urgent need exists for new treatments. Additionally, rodent models of PKU do not adequately reflect neurocognitive phenotypes, and thus there is a need for improved animal models. To this end, we have developed PAH-null pigs. After selection of optimal CRISPR/Cas9 genome-editing reagents by using an in vitro cell model, zygote injection of 2 sgRNAs and Cas9 mRNA demonstrated deletions in preimplantation embryos, with embryo transfer to a surrogate leading to 2 founder animals. One pig was heterozygous for a PAH exon 6 deletion allele, while the other was compound heterozygous for deletions of exon 6 and of exons 6–7. The affected pig exhibited hyperphenylalaninemia (2000–5000 μM) that was treatable by dietary Phe restriction, consistent with classical PKU, along with juvenile growth retardation, hypopigmentation, ventriculomegaly, and decreased brain gray matter volume. In conclusion, we have established a large-animal preclinical model of PKU to investigate pathophysiology and to assess new therapeutic interventions.https://doi.org/10.1172/jci.insight.141523GeneticsMetabolism |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Erik A. Koppes Bethany K. Redel Marie A. Johnson Kristen J. Skvorak Lina Ghaloul-Gonzalez Megan E. Yates Dale W. Lewis Susanne M. Gollin Yijen L. Wu Shawn E. Christ Martine Yerle Angela Leshinski Lee D. Spate Joshua A. Benne Stephanie L. Murphy Melissa S. Samuel Eric M. Walters Sarah A. Hansen Kevin D. Wells Uta Lichter-Konecki Robert A. Wagner Joseph T. Newsome Steven F. Dobrowolski Jerry Vockley Randall S. Prather Robert D. Nicholls |
| spellingShingle |
Erik A. Koppes Bethany K. Redel Marie A. Johnson Kristen J. Skvorak Lina Ghaloul-Gonzalez Megan E. Yates Dale W. Lewis Susanne M. Gollin Yijen L. Wu Shawn E. Christ Martine Yerle Angela Leshinski Lee D. Spate Joshua A. Benne Stephanie L. Murphy Melissa S. Samuel Eric M. Walters Sarah A. Hansen Kevin D. Wells Uta Lichter-Konecki Robert A. Wagner Joseph T. Newsome Steven F. Dobrowolski Jerry Vockley Randall S. Prather Robert D. Nicholls A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing JCI Insight Genetics Metabolism |
| author_facet |
Erik A. Koppes Bethany K. Redel Marie A. Johnson Kristen J. Skvorak Lina Ghaloul-Gonzalez Megan E. Yates Dale W. Lewis Susanne M. Gollin Yijen L. Wu Shawn E. Christ Martine Yerle Angela Leshinski Lee D. Spate Joshua A. Benne Stephanie L. Murphy Melissa S. Samuel Eric M. Walters Sarah A. Hansen Kevin D. Wells Uta Lichter-Konecki Robert A. Wagner Joseph T. Newsome Steven F. Dobrowolski Jerry Vockley Randall S. Prather Robert D. Nicholls |
| author_sort |
Erik A. Koppes |
| title |
A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing |
| title_short |
A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing |
| title_full |
A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing |
| title_fullStr |
A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing |
| title_full_unstemmed |
A porcine model of phenylketonuria generated by CRISPR/Cas9 genome editing |
| title_sort |
porcine model of phenylketonuria generated by crispr/cas9 genome editing |
| publisher |
American Society for Clinical investigation |
| series |
JCI Insight |
| issn |
2379-3708 |
| publishDate |
2020-10-01 |
| description |
Phenylalanine hydroxylase–deficient (PAH-deficient) phenylketonuria (PKU) results in systemic hyperphenylalaninemia, leading to neurotoxicity with severe developmental disabilities. Dietary phenylalanine (Phe) restriction prevents the most deleterious effects of hyperphenylalaninemia, but adherence to diet is poor in adult and adolescent patients, resulting in characteristic neurobehavioral phenotypes. Thus, an urgent need exists for new treatments. Additionally, rodent models of PKU do not adequately reflect neurocognitive phenotypes, and thus there is a need for improved animal models. To this end, we have developed PAH-null pigs. After selection of optimal CRISPR/Cas9 genome-editing reagents by using an in vitro cell model, zygote injection of 2 sgRNAs and Cas9 mRNA demonstrated deletions in preimplantation embryos, with embryo transfer to a surrogate leading to 2 founder animals. One pig was heterozygous for a PAH exon 6 deletion allele, while the other was compound heterozygous for deletions of exon 6 and of exons 6–7. The affected pig exhibited hyperphenylalaninemia (2000–5000 μM) that was treatable by dietary Phe restriction, consistent with classical PKU, along with juvenile growth retardation, hypopigmentation, ventriculomegaly, and decreased brain gray matter volume. In conclusion, we have established a large-animal preclinical model of PKU to investigate pathophysiology and to assess new therapeutic interventions. |
| topic |
Genetics Metabolism |
| url |
https://doi.org/10.1172/jci.insight.141523 |
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