Model biological systems demonstrate the inducibility of pathways that strongly reduce cryoprotectant toxicity

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-02 DOI:10.1016/j.cryobiol.2024.104881
Anna Mazur , Srinivas Ayyadevara , Nirjal Mainali , Stephanie Patchett , Matthew Uden , Roberto I. Roa , Gregory M. Fahy , Robert J. Shmookler Reis
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Abstract

Cryoprotectant toxicity is a limiting factor for the cryopreservation of many living systems. We were moved to address this problem by the potential of organ vitrification to relieve the severe shortage of viable donor organs available for human transplantation. The M22 vitrification solution is presently the only solution that has enabled the vitrification and subsequent transplantation with survival of large mammalian organs, but its toxicity remains an obstacle to organ stockpiling for transplantation. We therefore undertook a series of exploratory studies to identify potential pretreatment interventions that might reduce the toxic effects of M22. Hormesis, in which a living system becomes more resistant to toxic stress after prior subtoxic exposure to a related stress, was investigated as a potential remedy for M22 toxicity in yeast, in the nematode worm C. elegans, and in mouse kidney slices. In yeast, heat shock pretreatment increased survival by 18-fold after exposure to formamide and by over 9-fold after exposure to M22 at 30 °C; at 0 °C and with two-step addition, treatment with 90% M22 resulted in 100% yeast survival. In nematodes, surveying a panel of pretreatment interventions revealed 3 that conferred nearly total protection from acute whole-worm M22-induced damage. One of these protective pretreatments (exposure to hydrogen peroxide) was applied to mouse kidney slices in vitro and was found to strongly protect nuclear and plasma membrane integrity in both cortical and medullary renal cells exposed to 75–100% M22 at room temperature for 40 min. These studies demonstrate for the first time that endogenous cellular defenses, conserved from yeast to mammals, can be marshalled to substantially ameliorate the toxic effects of one of the most toxic single cryoprotectants and the toxicity of the most concentrated vitrification solution so far described for whole organs.

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模型生物系统证明,诱导途径可大大降低低温保护剂的毒性。
低温保护剂的毒性是许多活体系统低温保存的限制因素。器官玻璃化技术可以缓解用于人体移植的存活捐献器官严重短缺的问题,这促使我们着手解决这一问题。M22 玻璃化溶液是目前唯一能使大型哺乳动物器官玻璃化并随后移植存活的溶液,但其毒性仍然是器官储备用于移植的障碍。因此,我们开展了一系列探索性研究,以确定可能减少 M22 毒性影响的预处理干预措施。在酵母、线虫和小鼠肾脏切片中,我们研究了作为M22毒性潜在补救措施的 "激素作用"(Hormesis)。在酵母中,暴露于甲酰胺后,热休克预处理可使存活率提高 18 倍;在 30 °C,暴露于 M22 后,热休克预处理可使存活率提高 9 倍以上。在线虫中,对一系列预处理干预措施进行调查后发现,有 3 种干预措施几乎能完全保护线虫免受 M22 诱导的急性全虫损伤。将其中一种保护性预处理方法(暴露于过氧化氢)应用于体外小鼠肾脏切片,结果发现,在室温下暴露于 75-100% M22 40 分钟的皮质和髓质肾细胞中,都能有效保护细胞核和质膜的完整性。这些研究首次证明,从酵母到哺乳动物都保留下来的内源性细胞防御功能可以被调动起来,从而大大减轻毒性最强的单一低温保护剂的毒性效应,以及迄今为止描述的用于整个器官的浓度最高的玻璃化溶液的毒性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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