TgTKL1 的激酶功能对其在弓形虫繁殖和致病过程中的作用至关重要。

IF 3.7 2区 生物学 Q2 MICROBIOLOGY mSphere Pub Date : 2024-11-21 Epub Date: 2024-10-30 DOI:10.1128/msphere.00779-24
Dima Hajj Ali, Ramu Anandakrishnan, Vern B Carruthers, Rajshekhar Y Gaji
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引用次数: 0

摘要

酪氨酸激酶样蛋白(TKL)家族是一组研究较少的激酶,近年来因其在弓形虫生物学中的作用而备受关注。弓形虫基因组包含 8 个 TKL 激酶,其中 6 个被认为对寄生虫的繁殖非常重要。我们之前已经证明,TgTKL1 是一种核激酶,对寄生虫的溶解循环至关重要,而且在动物模型中对急性毒力也至关重要。然而,激酶结构域对 TgTKL1 功能的贡献尚不清楚。因此,为了确定其催化功能的重要性,我们首先利用纯化的重组蛋白验证了 TgTKL1 是一个真正的激酶。此外,我们还通过CRISPR-Cas9基因编辑技术成功生成了弓形虫TgTKL1激酶突变株。我们的研究发现,TgTKL1激酶突变体在寄生虫生长和宿主细胞侵袭方面表现出缺陷。此外,激酶功能的丧失改变了寄生虫的转录组特征,包括侵袭相关基因 TgSUB1 的下调。重要的是,TgSUB1 表达的这种失调会导致微胚层蛋白外渗后处理的缺陷,而微胚层蛋白外渗后处理对于宿主细胞的正常侵袭至关重要。此外,TgTKL1 激酶突变体在急性弓形虫病小鼠模型中完全无毒。由于激酶功能的缺失会导致 TgTKL1 基因敲除寄生虫的表型表现,因此我们得出结论,激酶活性对 TgTKL1 在弓形虫繁殖和毒力方面的功能非常重要:重要意义:弓形虫是一种原生动物寄生虫,可对人类造成危及生命的疾病。因此,确定寄生虫生长和致病所需的关键因素对于开发新型疗法非常重要。我们之前已经证明,TKL 蛋白激酶家族的一个成员 TgTKL1 是一种植物样激酶,它是弓形虫体外有效生长所必需的,也是体内毒力所必需的。在本文中,我们发现 TgTKL1 确实是一种真正的激酶,弓形虫体内激酶功能的缺失会导致完全缺失 TgTKL1 的寄生虫出现类似的缺陷。更具体地说,TgTKL1 激酶突变体在动物模型中表现出寄生虫生长、宿主细胞侵袭、基因表达谱和毒力方面的缺陷。这些发现共同表明,TgTKL1 是一种真正的激酶,其激酶活性的缺失会导致弓形虫体内 TgTKL1 功能的破坏。
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Kinase function of TgTKL1 is essential for its role in Toxoplasma propagation and pathogenesis.

The Tyrosine Kinase-Like (TKL) family of proteins are a set of poorly studied kinases that have garnered attention in recent years for their role in Toxoplasma biology. The Toxoplasma genome contains eight TKL kinases, of which six have been predicted to be important for parasite propagation. We have previously shown that TgTKL1 is a nuclear kinase that is critical for the parasite lytic cycle and is essential for acute virulence in the animal model. However, the contribution of the kinase domain to the functioning of TgTKL1 was not known. Hence to determine the significance of its catalytic function, we first validated that TgTKL1 is a true kinase using purified recombinant protein. Furthermore, we successfully generated a TgTKL1 kinase mutant strain of Toxoplasma via CRISPR-Cas9 gene editing. Our studies revealed that the kinase mutant of TgTKL1 displays defects in parasite growth and host-cell invasion. Additionally, loss of kinase function alters the transcriptomic profile of the parasite, including downregulation of the invasion-related gene, TgSUB1. Importantly, this dysregulation of TgSUB1 expression leads to defects in post-exocytosis processing of micronemal proteins, an event critical for normal host-cell invasion. Furthermore, the TgTKL1 kinase mutant is completely avirulent in the mouse model of acute toxoplasmosis. Since the loss of kinase function leads to phenotypic manifestations seen previously with TgTKL1 knockout parasites, we conclude that kinase activity is important for TgTKL1 function in Toxoplasma propagation and virulence.

Importance: Toxoplasma gondii is a protozoan parasite that can cause life-threatening disease in humans. Hence, identifying key factors required for parasite growth and pathogenesis is important to develop novel therapeutics. We have previously shown that a member of the TKL protein kinase family, TgTKL1, is a plant-like kinase that is required for effective Toxoplasma growth in vitro and essential for virulence in vivo. Herein, we show that the TgTKL1 is, indeed, a bona fide kinase, and loss of its kinase function in the Toxoplasma leads to similar defects seen in parasites with complete loss of TgTKL1. More specifically, the TgTKL1 kinase mutant exhibits defects in parasite growth, host-cell invasion, gene expression profile, and virulence in the animal model. Together, these findings suggest that TgTKL1 is a true kinase, and loss of its kinase activity leads to disruption of TgTKL1 function in Toxoplasma.

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来源期刊
mSphere
mSphere Immunology and Microbiology-Microbiology
CiteScore
8.50
自引率
2.10%
发文量
192
审稿时长
11 weeks
期刊介绍: mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.
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