Department of Pharmacology and Toxicology, Indiana University School of Medicine, Indianapolis, Indiana, USA.
Mol Microbiol. 2024 Apr;121(4):619-635. doi: 10.1111/mmi.15135. Epub 2023 Aug 11.
Apicomplexan parasites comprise significant pathogens of humans, livestock and wildlife, but also represent a diverse group of eukaryotes with interesting and unique cell biology. The study of cell biology in apicomplexan parasites is complicated by their small size, and historically this has required the application of cutting-edge microscopy techniques to investigate fundamental processes like mitosis or cell division in these organisms. Recently, a technique called expansion microscopy has been developed, which rather than increasing instrument resolution like most imaging modalities, physically expands a biological sample. In only a few years since its development, a derivative of expansion microscopy known as ultrastructure-expansion microscopy (U-ExM) has been widely adopted and proven extremely useful for studying cell biology of Apicomplexa. Here, we review the insights into apicomplexan cell biology that have been enabled through the use of U-ExM, with a specific focus on Plasmodium, Toxoplasma and Cryptosporidium. Further, we summarize emerging expansion microscopy modifications and modalities and forecast how these may influence the field of parasite cell biology in future.
质体生物包括对人类、家畜和野生动物有重大影响的病原体,但也包括一组具有有趣和独特细胞生物学特性的多样化真核生物。由于其体积小,研究质体生物的细胞生物学比较复杂,过去,这需要应用最先进的显微镜技术来研究有丝分裂或细胞分裂等基本过程。最近,一种称为扩展显微镜的技术已经被开发出来,它不像大多数成像模式那样提高仪器分辨率,而是物理地扩展生物样本。自从它发展起来的短短几年里,一种称为超微结构扩展显微镜(U-ExM)的扩展显微镜衍生物已经被广泛采用,并被证明对研究质体生物的细胞生物学非常有用。在这里,我们通过使用 U-ExM 来回顾对质体生物细胞生物学的深入了解,特别关注疟原虫、弓形虫和隐孢子虫。此外,我们总结了新兴的扩展显微镜修饰和模式,并预测它们将如何影响寄生虫细胞生物学领域的未来。
