An engineered Escherichia coli Nissle strain prevents lethal liver injury in a mouse model of tyrosinemia type 1

酪氨酸血症 大肠杆菌 拉伤 微生物学 生物 酪氨酸 生物化学 遗传学 基因 解剖
作者
Peng Gu,Li Xie,Tao Chen,Qin Yang,Xianglong Zhang,Ruofan Liu,Jiayin Guo,Rongjuan Wei,Dongping Li,Yong Jiang,Ye Chen,Wei Gong,Peng Chen
出处
期刊:Journal of Hepatology [Elsevier BV]
卷期号:80 (3): 454-466 被引量:20
标识
DOI:10.1016/j.jhep.2023.10.037
摘要

Highlights•Both in vitro and in vivo, EcN-HT has the ability to quickly consume tyrosine.•EcN-HT protected against liver injury and increased survival in a mouse model of HT1.•EcN-HT was well tolerated and partially restored the impaired gene expression pattern in HT1 mice.•EcN-HT holds promise as a safe and effective strategy for HT1 treatment.AbstractBackground & AimsHereditary tyrosinemia type 1 (HT1) results from the loss of fumarylacetoacetate hydrolase (FAH) activity and can lead to lethal liver injury. Therapeutic options for HT1 remain limited. In this study, we aimed to construct an engineered bacterium capable of reprogramming host metabolism and thereby provide a potential alternative approach for the treatment of HT1.MethodsEscherichia coli Nissle 1917 (EcN) was engineered to express genes involved in tyrosine metabolism in the anoxic conditions that are characteristic of the intestine (EcN-HT). Bodyweight, survival rate, plasma (tyrosine/liver function), H&E staining and RNA sequencing were used to assess its ability to degrade tyrosine and protect against lethal liver injury in Fah-knockout (KO) mice, a well-accepted model of HT1.ResultsEcN-HT consumed tyrosine and produced L-DOPA (levodopa) in an in vitro system. Importantly, in Fah-KO mice, the oral administration of EcN-HT enhanced tyrosine degradation, reduced the accumulation of toxic metabolites, and protected against lethal liver injury. RNA sequencing analysis revealed that EcN-HT rescued the global gene expression pattern in the livers of Fah-KO mice, particularly of genes involved in metabolic signaling and liver homeostasis. Moreover, EcN-HT treatment was found to be safe and well-tolerated in the mouse intestine.ConclusionsThis is the first report of an engineered live bacterium that can degrade tyrosine and alleviate lethal liver injury in mice with HT1. EcN-HT represents a novel engineered probiotic with the potential to treat this condition.Impact and ImplicationsPatients with hereditary tyrosinemia type 1 (HT1) are characterized by an inability to metabolize tyrosine normally and suffer from liver failure, renal dysfunction, neurological impairments, and cancer. Given the overlap and complementarity between the host and microbial metabolic pathways, the gut microbiome provides a potential chance to regulate host metabolism through degradation of tyrosine and reduction of byproducts that might be toxic. Herein, we demonstrated that an engineered live bacterium, EcN-HT, could enhance tyrosine breakdown, reduce the accumulation of toxic tyrosine byproducts, and protect against lethal liver injury in Fah-knockout mice. These findings suggested that engineered live biotherapeutics that can degrade tyrosine in the gut may represent a viable and safe strategy for the prevention of lethal liver injury in HT1 as well as the mitigation of its associated pathologies.Graphical abstract
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