细胞类型特异性和亚细胞表达的磷脂磷酸酶相关蛋白调节发育中和成年中枢神经系统的溶血磷脂酸突触信号转导

IF 4.2 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Neurochemistry Pub Date : 2024-07-12 DOI:10.1111/jnc.16169
Alexandra Polyzou, Joachim Fuchs, Cristina Kroon, Androniki Kotoula, Foteini Delis, Paul Turko, Katerina Antoniou, Britta Eickholt, George Leondaritis
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引用次数: 0

摘要

溶血磷脂酸(LPA)是一种生物活性磷脂,参与神经发育和成人大脑功能的关键过程,并与各种病理生理状况有关。除了六种表征明确的受体外,人们还发现了 LPA 信号传导的非典型调节因子,包括磷脂磷酸酶相关蛋白(PLPPRs)。对 PLPPRs 的研究主要集中在发育中的大脑,它们控制着依赖于 LPA 的轴突导向、皮质网络过度兴奋性和谷氨酸能神经传递。据报道,PLPPR4 和 PLPPR3 是两种密切相关的蛋白,它们分别主要定位于树突和轴突,但在发育表达模式上有所不同。在本文中,我们利用定量 PCR 技术研究了 PLPPR 在小脑、海马背侧和腹侧、前额叶皮层(PFC)、伏隔核和纹状体发育过程中和成年后的表达模式。Plppr2、4和5的表达模式与之前的研究一致,而Plppr3和Plppr1在发育后期和成年阶段在伏隔核(NAc)和纹状体中表现出独特的表达谱,我们在蛋白水平上验证了PLPPR3的表达谱。为了研究神经元类型在单细胞水平的特异性表达,我们开发了一种生物信息学工具来分析最近在成年小鼠大脑皮层和海马中的单细胞 RNA 序列数据。我们的分析表明,成体神经元类型的表达具有广泛性和选择性,在 GABA 能神经元中,Plppr3、Plppr1 和 Plppr5 的表达水平较高,而在谷氨酸能神经元中,Plppr4 和 Plppr2 的表达水平较高。PLPPR4 已被确定为谷氨酸能突触中 LPA 水平的突触后调节器,通过摄取机制控制 LPA 依赖性皮质网络的过度兴奋性。通过亚细胞分馏实验,我们发现 PLPPR4 和 PLPPR3 在成人突触体膜中共同表达。此外,在 HEK293 细胞中进行的流式细胞术实验表明,PLPPR4 和 PLPPR3 对 LPA 的摄取量相当,而 PLPRR3(而非 PLPPR4)还能诱导 LPA 的去磷酸化产物单酰甘油的摄取。我们认为,在发育中和成年的突触中,突触LPA除了受LPARs的调节外,还可能受PLPPRs的突触前和突触后机制的调节。
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Cell type-specific and subcellular expression of phospholipid phosphatase-related proteins to modulate lyso-phosphatidic acid synaptic signaling in the developing and adult CNS

Lysophosphatidic acid (LPA) is a bioactive phospholipid that participates in critical processes in neural development and adult brain function and is implicated in various pathophysiological conditions. Along with its six well-characterized receptors, atypical regulators of LPA signaling have also been suggested, including phospholipid phosphatase-related proteins (PLPPRs). PLPPRs have been mostly studied in the developing brain where they control LPA-dependent axon guidance, cortical network hyperexcitability, and glutamatergic neurotransmission. PLPPR4 and PLPPR3 represent two closely related proteins reported to localize predominantly in dendrites and axons, respectively, and differ in their developmental expression patterns. Herein, we have revised the expression patterns of PLPPRs in the cerebellum, dorsal and ventral hippocampus, prefrontal cortex (PFC), nucleus accumbens, and striatum during development and in the adult using quantitative PCR. Expression patterns of Plppr2,4 and 5 were consistent with previous studies, whereas Plppr3 and Plppr1 exhibited a unique expression profile in nucleus accumbens (NAc) and striatum in later developmental and adult stages, which we verified at the protein level for PLPPR3. To investigate neuron type-specific expression at the single cell level, we developed a bioinformatic tool to analyze recent single-cell RNA-sequencing data in the cerebral cortex and hippocampus of adult mice. Our analysis revealed a widespread but also selective adult neuron-type expression with higher expression levels of Plppr3, Plppr1, and Plppr5 in GABAergic and Plppr4 and Plppr2 in glutamatergic neurons. PLPPR4 has been identified as a post-synaptic modulator of LPA levels in glutamatergic synapses operating via an uptake mechanism, to control LPA-dependent cortical network hyperexcitability. Using subcellular fractionation experiments, we found that both PLPPR4 and PLPPR3 are co-expressed in adult synaptosomal membranes. Furthermore, flow cytometry experiments in HEK293 cells showed comparable LPA uptake by PLPPR4 and PLPPR3, whereas PLPRR3, but not PLPPR4, induced also uptake of monoacylglycerol, the dephosphorylation product of LPA. We propose that synaptic LPA may be subject to both pre-synaptic and post-synaptic mechanisms of regulation by PLPPRs in addition to LPARs in developing and adult synapses.

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来源期刊
Journal of Neurochemistry
Journal of Neurochemistry 医学-神经科学
CiteScore
9.30
自引率
2.10%
发文量
181
审稿时长
2.2 months
期刊介绍: Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.
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