Heterogeneity of HPV16 virus-like particles indicates a complex assembly energy surface

IF 2.8 3区 医学 Q3 VIROLOGY Virology Pub Date : 2024-09-03 DOI:10.1016/j.virol.2024.110211
Angela Patterson , Kim Young , MacRyan P. Biever , Shelby M. Klein , Sheng-Yuan Huang , Pete A. DePhillips , Stephen C. Jacobson , Martin F. Jarrold , Adam Zlotnick
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Abstract

Human Papillomavirus serotype 16 (HPV16) capsid protein (L1) pentamers canonically assemble into T = 7 icosahedral capsids. Such virus-like particles are the basis of the HPV vaccine. We examined assembly of L1 pentamers in response to pH, mild oxidants, and ionic strength and found a mixture of closed, roughly spherical structures from ∼20 to ∼70 nm in diameter, indicating the presence of many kinetically accessible energy minima. Using bulk and single particle techniques we observed that the size distribution changes but does not reach homogeneity. Though heterogenous in size, particles showed uniform responses to low ionic strength dissociation, thermal unfolding, and susceptibility to protease digestion. These assays suggest maturation over time, but at different rates. Cysteine oxidation further stabilized particles at early, but not late, times without changing general characteristics including thermal stability and protease digestion. These data show complex assembly paths to species of different sizes, but with locally similar interactions.

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HPV16 病毒样颗粒的异质性表明存在复杂的装配能量面
人类乳头瘤病毒血清型 16(HPV16)荚膜蛋白(L1)五聚体通常组装成 T = 7 的二十面体荚膜。这种病毒样颗粒是 HPV 疫苗的基础。我们研究了 L1 五聚体在 pH 值、温和氧化剂和离子强度作用下的组装情况,发现了直径从 20 纳米到 70 纳米不等的闭合、大致球形结构的混合物,这表明存在许多动力学可及的能量极值。通过使用大颗粒和单颗粒技术,我们观察到粒度分布发生了变化,但并未达到均匀性。虽然颗粒大小不一,但它们对低离子强度解离、热解折和蛋白酶消化的敏感性表现出一致的反应。这些检测结果表明,随着时间的推移,颗粒会逐渐成熟,但成熟的速度各不相同。半胱氨酸氧化在早期(而非晚期)进一步稳定了颗粒,但没有改变包括热稳定性和蛋白酶消化在内的一般特征。这些数据表明,不同大小的物种具有复杂的组装路径,但在局部具有相似的相互作用。
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来源期刊
Virology
Virology 医学-病毒学
CiteScore
6.00
自引率
0.00%
发文量
157
审稿时长
50 days
期刊介绍: The journal features articles on virus replication, virus-host biology, viral pathogenesis, immunity to viruses, virus structure, and virus evolution and ecology. We aim to publish papers that provide advances to the understanding of virus biology.
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