LRRK2 导致 Rab GTPases 的磷酸化失调,从而引发神经退行性变。
Dysregulated phosphorylation of Rab GTPases by LRRK2 induces neurodegeneration.
机构信息
Department of Neuroscience, Graduate School, Kyung Hee University, Seoul, South Korea.
Center for Neuroscience, Brain Science Institute, Korea Institute of Science and Technology (KIST), 5 Hwarang-ro 14-gil, Seongbuk-gu, Seoul, 02792, South Korea.
出版信息
Mol Neurodegener. 2018 Feb 13;13(1):8. doi: 10.1186/s13024-018-0240-1.
BACKGROUND
Mutations in leucine-rich repeat kinase 2 (LRRK2) are the most common cause of familial and sporadic Parkinson's disease (PD). Elevated kinase activity is associated with LRRK2 toxicity, but the substrates that mediate neurodegeneration remain poorly defined. Given the increasing evidence suggesting a role of LRRK2 in membrane and vesicle trafficking, here we systemically screened Rab GTPases, core regulators of vesicular dynamics, as potential substrates of LRRK2 and investigated the functional consequence of such phosphorylation in cells and in vivo.
METHODS
In vitro LRRK2 kinase assay with forty-five purified human Rab GTPases was performed to identify Rab family proteins as substrates of LRRK2. We identified the phosphorylation site by tandem mass-spectrometry and confirmed it by assessing phosphorylation in the in vitro LRRK2 kinase assay and in cells. Effects of Rab phosphorylation on neurodegeneration were examined in primary cultures and in vivo by intracranial injection of adeno-associated viral vectors (AAV) expressing wild-type or phosphomutants of Rab35.
RESULTS
Our screening revealed that LRRK2 phosphorylated several Rab GTPases at a conserved threonine residue in the switch II region, and by using the kinase-inactive LRRK2-D1994A and the pathogenic LRRK2-G2019S along with Rab proteins in which the LRRK2 site was mutated, we verified that a subset of Rab proteins, including Rab35, were authentic substrates of LRRK2 both in vitro and in cells. We also showed that phosphorylation of Rab regulated GDP/GTP-binding property in cells. Moreover, in primary cortical neurons, mutation of the LRRK2 site in several Rabs caused neurotoxicity, which was most severely induced by phosphomutants of Rab35. Furthermore, intracranial injection of the AAV-Rab35 -T72A or AAV-Rab35-T72D into the substantia nigra substantially induced degeneration of dopaminergic neurons in vivo.
CONCLUSIONS
Here we show that a subset of Rab GTPases are authentic substrates of LRRK2 both in vitro and in cells. We also provide evidence that dysregulation of Rab phosphorylation in the LRRK2 site induces neurotoxicity in primary neurons and degeneration of dopaminergic neurons in vivo. Our study suggests that Rab GTPases might mediate LRRK2 toxicity in the progression of PD.
背景
富含亮氨酸重复激酶 2(LRRK2)中的突变是家族性和散发性帕金森病(PD)的最常见原因。激酶活性的升高与 LRRK2 的毒性有关,但介导神经退行性变的底物仍未明确定义。鉴于越来越多的证据表明 LRRK2 在膜和囊泡运输中起作用,因此我们系统地筛选了 Rab GTPases,即囊泡动力学的核心调节剂,作为 LRRK2 的潜在底物,并研究了这种磷酸化在细胞和体内的功能后果。
方法
使用 45 种纯化的人 Rab GTPase 进行体外 LRRK2 激酶测定,以鉴定 Rab 家族蛋白作为 LRRK2 的底物。我们通过串联质谱法确定磷酸化位点,并通过评估体外 LRRK2 激酶测定和细胞中的磷酸化来确认。通过脑内注射表达野生型或磷酸突变型 Rab35 的腺相关病毒载体(AAV),在原代培养物和体内研究 Rab 磷酸化对神经退行性变的影响。
结果
我们的筛选结果表明,LRRK2 在开关 II 区的保守苏氨酸残基上磷酸化了几种 Rab GTPase,并且使用激酶失活的 LRRK2-D1994A 和致病性 LRRK2-G2019S 以及 Rab 蛋白,其中 LRRK2 位点发生突变,我们验证了一组 Rab 蛋白,包括 Rab35,是 LRRK2 的真正底物,无论是在体外还是在细胞中。我们还表明,Rab 的磷酸化调节了细胞中的 GDP/GTP 结合特性。此外,在原代皮质神经元中,几种 Rab 中的 LRRK2 位点突变引起神经毒性,其中 Rab35 的磷酸突变体诱导的神经毒性最为严重。此外,将 AAV-Rab35-T72A 或 AAV-Rab35-T72D 脑内注射到黑质中,可显著诱导体内多巴胺能神经元的变性。
结论
在这里,我们表明一组 Rab GTPase 是 LRRK2 的真正底物,无论是在体外还是在细胞中。我们还提供了证据表明,LRRK2 位点的 Rab 磷酸化失调会在原代神经元中引起神经毒性,并在体内诱导多巴胺能神经元变性。我们的研究表明,Rab GTPase 可能在 PD 进展过程中介导 LRRK2 毒性。
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