Physiomimetic In Vitro Human Models for Viral Infection in the Liver.

IF 4.3 3区 医学 Q1 GASTROENTEROLOGY & HEPATOLOGY Seminars in liver disease Pub Date : 2023-02-01 DOI:10.1055/a-1981-5944
Dennis Gregory McDuffie, David Murat Barr, Madeline Grace Helm, Thomas F Baumert, Ashutosh Agarwal, Emmanuel Thomas
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引用次数: 1

Abstract

Viral hepatitis is a leading cause of liver morbidity and mortality globally. The mechanisms underlying acute infection and clearance, versus the development of chronic infection, are poorly understood. In vitro models of viral hepatitis circumvent the high costs and ethical considerations of animal models, which also translate poorly to studying the human-specific hepatitis viruses. However, significant challenges are associated with modeling long-term infection in vitro. Differentiated hepatocytes are best able to sustain chronic viral hepatitis infection, but standard two-dimensional models are limited because they fail to mimic the architecture and cellular microenvironment of the liver, and cannot maintain a differentiated hepatocyte phenotype over extended periods. Alternatively, physiomimetic models facilitate important interactions between hepatocytes and their microenvironment by incorporating liver-specific environmental factors such as three-dimensional ECM interactions and co-culture with non-parenchymal cells. These physiologically relevant interactions help maintain a functional hepatocyte phenotype that is critical for sustaining viral hepatitis infection. In this review, we provide an overview of distinct, novel, and innovative in vitro liver models and discuss their functionality and relevance in modeling viral hepatitis. These platforms may provide novel insight into mechanisms that regulate viral clearance versus progression to chronic infections that can drive subsequent liver disease.

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体外模拟人肝脏病毒感染模型的建立。
病毒性肝炎是全球肝脏发病和死亡的主要原因。急性感染和清除的潜在机制,相对于慢性感染的发展,尚不清楚。病毒性肝炎的体外模型规避了动物模型的高成本和伦理考虑,这也很难转化为研究人类特异性肝炎病毒。然而,在体外建立长期感染模型面临重大挑战。分化的肝细胞最能维持慢性病毒性肝炎感染,但标准的二维模型是有限的,因为它们不能模拟肝脏的结构和细胞微环境,并且不能长时间维持分化的肝细胞表型。另外,仿生模型通过纳入肝脏特异性环境因素,如三维ECM相互作用和与非实质细胞共培养,促进肝细胞与其微环境之间的重要相互作用。这些生理上相关的相互作用有助于维持功能性肝细胞表型,这对于维持病毒性肝炎感染至关重要。在这篇综述中,我们提供了独特的、新颖的和创新的体外肝脏模型的概述,并讨论了它们的功能和在模拟病毒性肝炎中的相关性。这些平台可能为调节病毒清除与慢性感染进展的机制提供新的见解,慢性感染可以驱动随后的肝脏疾病。
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来源期刊
Seminars in liver disease
Seminars in liver disease 医学-胃肠肝病学
CiteScore
8.20
自引率
2.40%
发文量
38
期刊介绍: Seminars in Liver Disease is a quarterly review journal that publishes issues related to the specialties of hepatology and gastroenterology. As the premiere review journal in the field, Seminars in Liver Disease provides in-depth coverage with articles and issues focusing on topics such as cirrhosis, transplantation, vascular and coagulation disorders, cytokines, hepatitis B & C, Nonalcoholic Steatosis Syndromes (NASH), pediatric liver diseases, hepatic stem cells, porphyrias as well as a myriad of other diseases related to the liver. Attention is also given to the latest developments in drug therapy along with treatment and current management techniques. Seminars in Liver Disease publishes commissioned reviews. Unsolicited reviews of an exceptional nature or original articles presenting remarkable results will be considered, but case reports will not be published.
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