Characterization of the 263K-derived microsomal fraction: a source of prions for nanofiltration validation studies.

IF 2.5 3区 医学 Q2 HEMATOLOGY Transfusion Pub Date : 2024-07-01 Epub Date: 2024-05-15 DOI:10.1111/trf.17860
Steve Simoneau, Angélique Igel, Danica Ciric, Mohammed Moudjou, Sergey Tcherniuk, Vincent Béringue, Human Rezaei, Benoit Flan
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Abstract

Background: The manufacturing processes of plasma products include steps that can remove prions. The efficacy of these steps is measured in validation studies using animal brain-derived prion materials called spikes. Because the nature of the prion agent in blood is not known, the relevance of these spikes, particularly with steps that are based on retention mechanisms such as nanofiltration, is important to investigate.

Study design and methods: The aggregation and sizes of PrPres assemblies of microsomal fractions (MFs) extracted from 263K-infected hamster brains were analyzed using velocity gradients. The separated gradient fractions were either inoculated to Tg7 mice expressing hamster-PrPc to measure infectivity or used in Protein Misfolding Cyclic Amplification for measuring seeding activity. The collected data allowed for reanalyzing results from previous nanofiltration validation studies.

Results: A significant portion of MFs was found to be composed of small PrPres assemblies, estimated to have a size ≤24 mers (~22-528 kDa), and to contain a minimum of 20% of total prion infectivity. With this data we could calculate reductions of 4.10 log (15 N), 2.53 log (35 N), and 1.77 log (35 N) from validation studies specifically for these small PrPres objects.

Conclusion: Our gradient data provided evidence that nanofilters can remove the majority of the smallest PrPres entities within microsomes spikes, estimated to be in a size below 24 mers, giving insight about the fact that, in our conditions, size exclusion may not be the only mechanism for retention nanofiltration.

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263K 衍生微粒体部分的特征:纳滤验证研究的朊病毒来源。
背景:血浆产品的生产过程包括可去除朊病毒的步骤。在验证研究中,使用动物脑源性朊病毒材料(称为尖峰)来测量这些步骤的功效。由于血液中朊病毒的性质尚不清楚,因此这些尖峰材料的相关性,尤其是与纳滤等基于截留机制的步骤的相关性,是非常重要的研究内容:研究设计与方法:使用速度梯度分析了从 263K 感染仓鼠大脑中提取的微粒体馏分(MFs)中 PrPres 集合体的聚集和大小。将分离出的梯度馏分接种到表达仓鼠-PrPc的Tg7小鼠体内以测量感染性,或用于蛋白质错构循环扩增以测量播种活性。收集到的数据可用于重新分析以前纳滤验证研究的结果:结果:我们发现,中型滤膜中有很大一部分是由小型 PrPres 集合体组成的,估计其大小≤24 mers(约 22-528 kDa),至少包含朊病毒总感染性的 20%。根据这些数据,我们可以计算出这些小型 PrPres 物体在验证研究中分别减少了 4.10 log (15 N)、2.53 log (35 N) 和 1.77 log (35 N):我们的梯度数据提供了证据,证明纳滤器可以去除微粒体尖峰中的大多数最小的PrPres实体(估计大小低于24 mers),这让我们了解到,在我们的条件下,大小排阻可能不是纳滤保留的唯一机制。
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来源期刊
Transfusion
Transfusion 医学-血液学
CiteScore
4.70
自引率
20.70%
发文量
426
审稿时长
1 months
期刊介绍: TRANSFUSION is the foremost publication in the world for new information regarding transfusion medicine. Written by and for members of AABB and other health-care workers, TRANSFUSION reports on the latest technical advances, discusses opposing viewpoints regarding controversial issues, and presents key conference proceedings. In addition to blood banking and transfusion medicine topics, TRANSFUSION presents submissions concerning patient blood management, tissue transplantation and hematopoietic, cellular, and gene therapies.
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