Modelling BK Polyomavirus dissemination and cytopathology using polarized human renal tubule epithelial cells.

IF 6.7 1区 医学 Q1 Immunology and Microbiology PLoS Pathogens Pub Date : 2023-08-28 eCollection Date: 2023-08-01 DOI:10.1371/journal.ppat.1011622
Elias Myrvoll Lorentzen, Stian Henriksen, Christine Hanssen Rinaldo
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Abstract

Most humans have a lifelong imperceptible BK Polyomavirus (BKPyV) infection in epithelial cells lining the reno-urinary tract. In kidney transplant recipients, unrestricted high-level replication of donor-derived BKPyV in the allograft underlies polyomavirus-associated nephropathy, a condition with massive epithelial cell loss and inflammation causing premature allograft failure. There is limited understanding on how BKPyV disseminates throughout the reno-urinary tract and sometimes causes kidney damage. Tubule epithelial cells are tightly connected and have unique apical and basolateral membrane domains with highly specialized functions but all in vitro BKPyV studies have been performed in non-polarized cells. We therefore generated a polarized cell model of primary renal proximal tubule epithelial cells (RPTECs) and characterized BKPyV entry and release. After 8 days on permeable inserts, RPTECs demonstrated apico-basal polarity. BKPyV entry was most efficient via the apical membrane, that in vivo faces the tubular lumen, and depended on sialic acids. Progeny release started between 48 and 58 hours post-infection (hpi), and was exclusively detected in the apical compartment. From 72 hpi, cell lysis and detachment gradually increased but cells were mainly shed by extrusion and the barrier function was therefore maintained. The decoy-like cells were BKPyV infected and could transmit BKPyV to uninfected cells. By 120 hpi, the epithelial barrier was disrupted by severe cytopathic effects, and BKPyV entered the basolateral compartment mimicking the interstitial space. Addition of BKPyV-specific neutralizing antibodies to this compartment inhibited new infections. Taken together, we propose that during in vivo low-level BKPyV replication, BKPyV disseminates inside the tubular system, thereby causing minimal damage and delaying immune detection. However, in kidney transplant recipients lacking a well-functioning immune system, replication in the allograft will progress and eventually cause denudation of the basement membrane, leading to an increased number of decoy cells, high-level BKPyV-DNAuria and DNAemia, the latter a marker of allograft damage.

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使用极化人肾小管上皮细胞模拟BK多瘤病毒传播和细胞病理学。
大多数人在肾泌尿道上皮细胞中有终身难以察觉的BK多瘤病毒(BKPyV)感染。在肾移植受者中,供体来源的BKPyV在同种异体移植物中的不受限制的高水平复制是多瘤病毒相关肾病的基础,这种疾病伴有大量上皮细胞损失和炎症,导致同种异体移动物过早衰竭。关于BKPyV如何在整个肾泌尿道传播,有时会导致肾脏损伤,目前了解有限。微管上皮细胞紧密连接,具有独特的顶端和基底外侧膜结构域,具有高度特异性的功能,但所有体外BKPyV研究都是在非极化细胞中进行的。因此,我们建立了原发性肾近端小管上皮细胞(RPTEC)的极化细胞模型,并对BKPyV的进入和释放进行了表征。使用可渗透插入物8天后,RPTEC表现出顶端基底极性。BKPyV通过根尖膜进入最有效,根尖膜在体内面向管状管腔,并依赖于唾液酸。子代释放在感染后48至58小时(hpi)开始,仅在心尖室中检测到。从72 hpi开始,细胞裂解和脱离逐渐增加,但细胞主要通过挤压脱落,因此维持了屏障功能。诱饵样细胞被BKPyV感染,并可将BKPyV传播给未感染的细胞。到120hpi时,上皮屏障被严重的细胞病变作用破坏,BKPyV进入基底外侧隔室,模拟间质间隙。将BKPyV特异性中和抗体添加到该隔室中可以抑制新的感染。总之,我们提出,在体内低水平BKPyV复制过程中,BKPyV在管状系统内传播,从而造成最小的损伤并延迟免疫检测。然而,在缺乏功能良好的免疫系统的肾移植受者中,同种异体移植物中的复制将进行,并最终导致基底膜的剥脱,导致诱饵细胞数量增加、高水平BKPyV DNA尿和DNA血症,后者是同种移植物损伤的标志。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
PLoS Pathogens
PLoS Pathogens 生物-病毒学
CiteScore
11.40
自引率
3.00%
发文量
598
审稿时长
2 months
期刊介绍: Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.
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