Amelioration of metabolic and behavioral defects through base editing in the PahR408W phenylketonuria mouse model

Shuming Yin; Liangcai Gao; Xiaoyue Sun; Mei Zhang; Hongyi Gao; Xiaoqing Chen; Dan Zhang; Xinyu Ming; Lei Yang; Yaqiang Hu; Xi Chen; Meizhen Liu; Xia Zhan; Yuting Guan; Liren Wang; Lianshu Han; Ping Zhu; Dali Li

doi:10.1016/j.ymthe.2024.11.032

Amelioration of metabolic and behavioral defects through base editing in the Pah^R408W phenylketonuria mouse model

Shuming Yin
, Liangcai Gao
, Xiaoyue Sun
, Mei Zhang
, Hongyi Gao
, Xiaoqing Chen
, Dan Zhang
, Xinyu Ming
, Lei Yang
, Yaqiang Hu
, Xi Chen
, Meizhen Liu
, Xia Zhan
, Yuting Guan
, Liren Wang
, Lianshu Han^*
, Ping Zhu^*
, Dali Li^*

^*此作品的通讯作者

生命科学学院

Guangdong General Hospital
East China Normal University
BRL Medicine Inc.
Shanghai Jiao Tong University
Guangzhou Key Laboratory of Cardiac Pathogenesis and Prevention

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

Phenylketonuria (PKU) is a liver metabolic disorder mainly caused by a deficiency of the hepatic phenylalanine hydroxylase (PAH) enzyme activity, often leading to severe brain function impairment in patients if untreated or if treatment is delayed. In this study, we utilized dual-AAV8 vectors to deliver a near PAM-less adenine base editor variant, known as ABE8e-SpRY, to treat the Pah^R408W PKU mouse model carrying a frequent R408W mutation in the Pah gene. Our findings revealed that a single intravenous injection in adult mice and a single intraperitoneal injection in neonatal mice resulted in 19.1%–34.6% A-to-G editing efficiency at the pathogenic mutation site with minimal bystander edits. Furthermore, the dual-AAV8-treated mice exhibited reduced blood Phe levels to below the therapeutic threshold of 360 μmol L⁻¹ and restored weight and fur color to normal levels. Importantly, the brain function of the mice was restored after the treatment, particularly when administered during the neonatal stage, as levels of monoamine neurotransmitters and metabolites in the brain returned to normal and near-normal levels. Our study demonstrated that ABE8e-SpRY-based base editing could effectively correct the point mutation in the Pah^R408W PKU mouse model, indicating potential clinical applications for PKU and other genetic diseases.

源语言	英语
页（从-至）	119-132
页数	14
期刊	Molecular Therapy
卷	33
期	1
DOI	https://doi.org/10.1016/j.ymthe.2024.11.032
出版状态	已出版 - 8 1月 2025

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10.1016/j.ymthe.2024.11.032

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Yin, S., Gao, L., Sun, X., Zhang, M., Gao, H., Chen, X., Zhang, D., Ming, X., Yang, L., Hu, Y., Chen, X., Liu, M., Zhan, X., Guan, Y., Wang, L., Han, L., Zhu, P., & Li, D. (2025). Amelioration of metabolic and behavioral defects through base editing in the Pah^R408W phenylketonuria mouse model. Molecular Therapy, 33(1), 119-132. https://doi.org/10.1016/j.ymthe.2024.11.032

@article{10765368867740759f9e2a2352b657e7,

title = "Amelioration of metabolic and behavioral defects through base editing in the PahR408W phenylketonuria mouse model",

abstract = "Phenylketonuria (PKU) is a liver metabolic disorder mainly caused by a deficiency of the hepatic phenylalanine hydroxylase (PAH) enzyme activity, often leading to severe brain function impairment in patients if untreated or if treatment is delayed. In this study, we utilized dual-AAV8 vectors to deliver a near PAM-less adenine base editor variant, known as ABE8e-SpRY, to treat the PahR408W PKU mouse model carrying a frequent R408W mutation in the Pah gene. Our findings revealed that a single intravenous injection in adult mice and a single intraperitoneal injection in neonatal mice resulted in 19.1\%–34.6\% A-to-G editing efficiency at the pathogenic mutation site with minimal bystander edits. Furthermore, the dual-AAV8-treated mice exhibited reduced blood Phe levels to below the therapeutic threshold of 360 μmol L−1 and restored weight and fur color to normal levels. Importantly, the brain function of the mice was restored after the treatment, particularly when administered during the neonatal stage, as levels of monoamine neurotransmitters and metabolites in the brain returned to normal and near-normal levels. Our study demonstrated that ABE8e-SpRY-based base editing could effectively correct the point mutation in the PahR408W PKU mouse model, indicating potential clinical applications for PKU and other genetic diseases.",

keywords = "AAV, ABE8e-SpRY, Pah, R408W mutation, base editing, gene therapy, liver metabolic disorders, phenylketonuria, rain function defects",

author = "Shuming Yin and Liangcai Gao and Xiaoyue Sun and Mei Zhang and Hongyi Gao and Xiaoqing Chen and Dan Zhang and Xinyu Ming and Lei Yang and Yaqiang Hu and Xi Chen and Meizhen Liu and Xia Zhan and Yuting Guan and Liren Wang and Lianshu Han and Ping Zhu and Dali Li",

note = "Publisher Copyright: {\textcopyright} 2024 The American Society of Gene and Cell Therapy",

year = "2025",

month = jan,

day = "8",

doi = "10.1016/j.ymthe.2024.11.032",

language = "英语",

volume = "33",

pages = "119--132",

journal = "Molecular Therapy",

issn = "1525-0016",

publisher = "Cell Press",

number = "1",

}

Yin, S, Gao, L, Sun, X, Zhang, M, Gao, H, Chen, X, Zhang, D, Ming, X, Yang, L, Hu, Y, Chen, X, Liu, M, Zhan, X, Guan, Y , Wang, L, Han, L, Zhu, P & Li, D 2025, 'Amelioration of metabolic and behavioral defects through base editing in the Pah^R408W phenylketonuria mouse model', Molecular Therapy, 卷 33, 号码 1, 页码 119-132. https://doi.org/10.1016/j.ymthe.2024.11.032

TY - JOUR

T1 - Amelioration of metabolic and behavioral defects through base editing in the PahR408W phenylketonuria mouse model

AU - Yin, Shuming

AU - Gao, Liangcai

AU - Sun, Xiaoyue

AU - Zhang, Mei

AU - Gao, Hongyi

AU - Chen, Xiaoqing

AU - Zhang, Dan

AU - Ming, Xinyu

AU - Yang, Lei

AU - Hu, Yaqiang

AU - Chen, Xi

AU - Liu, Meizhen

AU - Zhan, Xia

AU - Guan, Yuting

AU - Wang, Liren

AU - Han, Lianshu

AU - Zhu, Ping

AU - Li, Dali

PY - 2025/1/8

Y1 - 2025/1/8

N2 - Phenylketonuria (PKU) is a liver metabolic disorder mainly caused by a deficiency of the hepatic phenylalanine hydroxylase (PAH) enzyme activity, often leading to severe brain function impairment in patients if untreated or if treatment is delayed. In this study, we utilized dual-AAV8 vectors to deliver a near PAM-less adenine base editor variant, known as ABE8e-SpRY, to treat the PahR408W PKU mouse model carrying a frequent R408W mutation in the Pah gene. Our findings revealed that a single intravenous injection in adult mice and a single intraperitoneal injection in neonatal mice resulted in 19.1%–34.6% A-to-G editing efficiency at the pathogenic mutation site with minimal bystander edits. Furthermore, the dual-AAV8-treated mice exhibited reduced blood Phe levels to below the therapeutic threshold of 360 μmol L−1 and restored weight and fur color to normal levels. Importantly, the brain function of the mice was restored after the treatment, particularly when administered during the neonatal stage, as levels of monoamine neurotransmitters and metabolites in the brain returned to normal and near-normal levels. Our study demonstrated that ABE8e-SpRY-based base editing could effectively correct the point mutation in the PahR408W PKU mouse model, indicating potential clinical applications for PKU and other genetic diseases.

AB - Phenylketonuria (PKU) is a liver metabolic disorder mainly caused by a deficiency of the hepatic phenylalanine hydroxylase (PAH) enzyme activity, often leading to severe brain function impairment in patients if untreated or if treatment is delayed. In this study, we utilized dual-AAV8 vectors to deliver a near PAM-less adenine base editor variant, known as ABE8e-SpRY, to treat the PahR408W PKU mouse model carrying a frequent R408W mutation in the Pah gene. Our findings revealed that a single intravenous injection in adult mice and a single intraperitoneal injection in neonatal mice resulted in 19.1%–34.6% A-to-G editing efficiency at the pathogenic mutation site with minimal bystander edits. Furthermore, the dual-AAV8-treated mice exhibited reduced blood Phe levels to below the therapeutic threshold of 360 μmol L−1 and restored weight and fur color to normal levels. Importantly, the brain function of the mice was restored after the treatment, particularly when administered during the neonatal stage, as levels of monoamine neurotransmitters and metabolites in the brain returned to normal and near-normal levels. Our study demonstrated that ABE8e-SpRY-based base editing could effectively correct the point mutation in the PahR408W PKU mouse model, indicating potential clinical applications for PKU and other genetic diseases.

KW - AAV

KW - ABE8e-SpRY

KW - Pah

KW - R408W mutation

KW - base editing

KW - gene therapy

KW - liver metabolic disorders

KW - phenylketonuria

KW - rain function defects

UR - https://www.scopus.com/pages/publications/85211175737

U2 - 10.1016/j.ymthe.2024.11.032

DO - 10.1016/j.ymthe.2024.11.032

M3 - 文章

C2 - 39600089

AN - SCOPUS:85211175737

SN - 1525-0016

VL - 33

SP - 119

EP - 132

JO - Molecular Therapy

JF - Molecular Therapy

IS - 1

ER -

Amelioration of metabolic and behavioral defects through base editing in the PahR408W phenylketonuria mouse model

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Amelioration of metabolic and behavioral defects through base editing in the Pah^R408W phenylketonuria mouse model