Characterisation of molecular mechanisms for PLCγ2 disease-linked variants

Q1 Biochemistry, Genetics and Molecular Biology
Tom D. Bunney, Charis Kampyli , Ashley Gregory , Matilda Katan
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引用次数: 0

Abstract

The phospholipase C enzyme PLCγ2 is best characterised in the context of immune cell regulation. Furthermore, many mutations discovered in PLCγ2 have been linked to the development of complex immune disorders as well as resistance to ibrutinib treatment in chronic lymphocytic leukaemia. Importantly, it has also been found that a rare variant of PLCγ2 (P522R) has a protective role in Alzheimer's disease (AD). Despite initial characterisation of these disease-linked variants, a comprehensive understanding of their differences and underpinning molecular mechanisms, needed to facilitate therapeutic efforts, is lacking. Here, we used available structural insights for PLCγ enzymes to further analyse PLCγ2 M1141K mutation, representative for mutations in immune disorders and cancer resistance, and the AD-protective variant, PLCγ2 P522R. Together with several other mutations in the autoinhibitory interface, the PLCγ2 M1141K mutation was strongly activating in a cell-based assay, under basal and stimulated conditions. Measurements of PLC activity in various in vitro assays demonstrated enhanced activity of PLCγ2 M1141K while the activity of PLCγ2 P522R was not significantly different from the WT. Similar trends were observed in several other assays, including direct liposome binding. However, an enhanced rate of phosphorylation of a functionally important tyrosine by Btk in vitro was observed for PLCγ2 P522R variants. To further assess implications of these in vitro findings in a cellular context relevant for the PLCγ2 P522R variant, microglia (BV2) stable cell lines were generated and analysed under growth conditions. The PLC activity in cells expressing PLCγ2 P522R at physiologically relevant levels was clearly enhanced compared to the WT, and differences in cell morphology observed. These data, combined with the structural insights, suggest that the PLCγ2 P522R variant has subtle, localised structural changes that do not directly affect the PLC activity by compromising autoinhibition, as determined for PLCγ2 M1141K. It is also likely that in contrast to the PLCγ2 M1141K, the functional impact of the P522R substitution completely depends on further interactions with upstream kinases and other regulatory proteins in a relevant cellular context, where changes in the PLCγ2 P522R variant could facilitate processes such as phosphorylation and protein-protein interactions.
PLCγ2 疾病相关变体的分子机制特征。
磷脂酶C酶PLCγ2在免疫细胞调控方面的特征最为明显。此外,在 PLCγ2 中发现的许多突变都与复杂免疫疾病的发生以及慢性淋巴细胞白血病患者对伊布替尼治疗的耐药性有关。重要的是,人们还发现 PLCγ2 的一种罕见变体(P522R)在阿尔茨海默病(AD)中具有保护作用。尽管对这些与疾病相关的变体进行了初步定性,但仍缺乏对它们的差异和基础分子机制的全面了解,而这正是促进治疗工作所需要的。在这里,我们利用对 PLCγ 酶结构的现有了解,进一步分析了 PLCγ2 M1141K 突变(免疫紊乱和抗癌突变的代表)和 AD 保护变体 PLCγ2 P522R。PLCγ2 M1141K 突变与自身抑制界面上的其他几个突变一起,在基于细胞的试验中,在基础和刺激条件下都具有强烈的激活作用。在各种体外试验中对 PLC 活性的测量表明,PLCγ2 M1141K 的活性增强了,而 PLCγ2 P522R 的活性与 WT 没有显著差异。在其他几项检测中也观察到类似的趋势,包括直接脂质体结合。不过,体外观察到 PLCγ2 P522R 变体提高了 Btk 对一个功能重要的酪氨酸的磷酸化率。为了进一步评估这些体外研究结果在与 PLCγ2 P522R 变体相关的细胞环境中的影响,我们生成了小胶质细胞(BV2)稳定细胞系,并在生长条件下进行了分析。与 WT 相比,表达 PLCγ2 P522R 的细胞在生理相关水平上的 PLC 活性明显增强,细胞形态也出现差异。这些数据以及对结构的深入研究表明,PLCγ2 P522R 变体具有微妙的局部结构变化,不会像 PLCγ2 M1141K 所确定的那样,通过损害自身抑制作用而直接影响 PLC 活性。此外,与 PLCγ2 M1141K 不同的是,P522R 取代的功能影响可能完全取决于在相关细胞环境中与上游激酶和其他调节蛋白的进一步相互作用,在这种环境中,PLCγ2 P522R 变体的变化可能会促进磷酸化和蛋白质-蛋白质相互作用等过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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