Costa Gabriel L, Sautto Giuseppe A
Florida Research and Innovation Center, Cleveland Clinic, Port Saint Lucie, FL, USA.
Expert Rev Vaccines. 2025 Dec;24(1):96-120. doi: 10.1080/14760584.2025.2452955. Epub 2025 Jan 28.
Fifty-eight million people worldwide are chronically infected with hepatitis C virus (HCV) and are at risk of developing cirrhosis and hepatocellular carcinoma (HCC). Direct-acting antivirals are highly effective; however, they are burdened by high costs and the unchanged risk of HCC and reinfection, making prophylactic countermeasures an urgent medical need. HCV high genetic diversity is one of the main obstacles to vaccine development. The protective role of the humoral response directed against the HCV E2 glycoprotein is well established, and broadly neutralizing antibodies play a crucial role in effective viral clearance.
This review explores the HCV targets and the different vaccination approaches, encompassing different expression systems, antigen selection strategies, and delivery methods, focusing on those aimed at eliciting a broad and effective humoral response. Our search criteria included the keywords 'HCV,' 'Hepatitis C,' and 'vaccine' using publicly available databases. Following the screening, 54 papers were selected.
The investigation of novel vaccine platforms beyond traditional approaches is necessary. While progress has been made in this direction, continued investigations on the HCV virology, immunology, and vaccinology are essential to surmount associated obstacles, heling in the development of an HCV vaccine that can benefit the global public health.
全球有5800万人长期感染丙型肝炎病毒(HCV),面临发展为肝硬化和肝细胞癌(HCC)的风险。直接抗病毒药物非常有效;然而,它们面临高成本以及HCC和再感染风险不变的问题,这使得预防性对策成为迫切的医疗需求。HCV高度的基因多样性是疫苗开发的主要障碍之一。针对HCV E2糖蛋白的体液反应的保护作用已得到充分证实,广泛中和抗体在有效清除病毒中起关键作用。
本综述探讨了HCV靶点和不同的疫苗接种方法,包括不同的表达系统、抗原选择策略和递送方法,重点关注旨在引发广泛而有效的体液反应的方法。我们的检索标准包括使用公开可用数据库的关键词“HCV”、“丙型肝炎”和“疫苗”。筛选后,选择了54篇论文。
有必要研究超越传统方法的新型疫苗平台。虽然在这方面已经取得了进展,但对HCV病毒学、免疫学和疫苗学的持续研究对于克服相关障碍至关重要,有助于开发一种能造福全球公共卫生的HCV疫苗。
