促进创新以解决微生物-宿主相互作用的生物力学问题:关注Apicocomplex寄生虫生物学背后的粘附力。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Luis Vigetti, Isabelle Tardieux
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引用次数: 0

摘要

弓形虫和疟原虫是Apicocomplex寄生门的杰出成员,这在很大程度上是由于它们对公众健康和经济的影响。因此,它们可以作为单细胞真核生物的模型,用来探索特定发育形态类型所采用的分子和细胞策略,以及时适应宿主,从而使其长期存在。特别是,被称为zoites的宿主组织和细胞侵袭性形态改变了细胞外和细胞内的生活方式,从而对宿主衍生的关于其伙伴关系的大量生物力学线索进行感知和反应。近年来,特别是与实时力测量相关的生物物理工具被引入,教会我们这些微生物是多么有创造力来塑造一个独特的运动系统,该系统能够快速滑过各种细胞外基质、穿过细胞屏障、在血管系统中或进入宿主细胞。同样具有性能的是,这个工具包开始阐明寄生虫如何操纵宿主细胞的粘附性和流变性以达到其优势。在这篇综述中,除了强调这一过程中的重大发现外,我们还讨论了主动无创力显微镜方法中最有前景的发展、协同作用和多模式集成。在不久的将来,这些应该会解开目前的局限性,并允许捕捉从分子到组织的许多生物力学和生物物理相互作用,包括宿主和微生物的动态伙伴关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Fostering innovation to solve the biomechanics of microbe–host interactions: Focus on the adhesive forces underlying Apicomplexa parasite biology

Fostering innovation to solve the biomechanics of microbe–host interactions: Focus on the adhesive forces underlying Apicomplexa parasite biology

The protozoa, Toxoplasma gondii and Plasmodium spp., are preeminent members of the Apicomplexa parasitic phylum in large part due to their public health and economic impact. Hence, they serve as model unicellular eukaryotes with which to explore the repertoire of molecular and cellular strategies that specific developmental morphotypes deploy to timely adjust to their host(s) in order to perpetuate. In particular, host tissue- and cell-invasive morphotypes termed zoites alternate extracellular and intracellular lifestyles, thereby sensing and reacting to a wealth of host-derived biomechanical cues over their partnership. In the recent years, biophysical tools especially related to real time force measurement have been introduced, teaching us how creative are these microbes to shape a unique motility system that powers fast gliding through a variety of extracellular matrices, across cellular barriers, in vascular systems or into host cells. Equally performant was this toolkit to start illuminating how parasites manipulate their hosting cell adhesive and rheological properties to their advantage. In this review, besides highlighting major discoveries along the way, we discuss the most promising development, synergy, and multimodal integration in active noninvasive force microscopy methods. These should in the near future unlock current limitations and allow capturing, from molecules to tissues, the many biomechanical and biophysical interplays over the dynamic host and microbe partnership.

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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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