研究弓形虫完整体外生命周期的进展。

Faculty reviews Pub Date : 2023-02-13 eCollection Date: 2023-01-01 DOI:10.12703/r/12-1
David Warschkau, Frank Seeber
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引用次数: 0

摘要

弓形虫的整个生命周期无法在体外重现,要接触到某些阶段,如成熟的组织囊蚴(裂体虫)和卵囊蚴(孢子虫),传统上需要进行动物实验。这极大地阻碍了对这些形态和代谢截然不同的阶段的生物学研究,而这些阶段对人类和动物的感染至关重要。不过,近年来在体外获得这些生命阶段方面取得了一些突破性进展,例如发现了几种诱导分化和进入性周期的分子因子,以及使用肌管和肠道有机体等不同培养方法来获得成熟的臂孢子虫和寄生虫的不同性阶段。我们回顾了这些新型工具和方法,强调了它们的局限性和挑战,并讨论了这些模型已经可以回答哪些研究问题。最后,我们确定了在体外重现整个性周期的未来路线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advances towards the complete <i>in vitro</i> life cycle of <i>Toxoplasma gondii</i>.

Advances towards the complete <i>in vitro</i> life cycle of <i>Toxoplasma gondii</i>.

Advances towards the complete in vitro life cycle of Toxoplasma gondii.

The full life cycle of Toxoplasma gondii cannot be recapitulated in vitro, and access to certain stages, such as mature tissue cysts (bradyzoites) and oocysts (sporozoites), traditionally requires animal experiments. This has greatly hindered the study of the biology of these morphologically and metabolically distinct stages, which are essential for the infection of humans and animals. However, several breakthrough advances have been made in recent years towards obtaining these life stages in vitro, such as the discovery of several molecular factors that induce differentiation and commitment to the sexual cycle, and different culture methods that use, for example, myotubes and intestinal organoids to obtain mature bradyzoites and different sexual stages of the parasite. We review these novel tools and approaches, highlight their limitations and challenges, and discuss what research questions can already be answered with these models. We finally identify future routes for recapitulating the entire sexual cycle in vitro.

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