L-Ala-L-Gln Suppresses Hypoxic Phenotype and Fibrogenic Activity of Rat Perineurial Fibroblasts.

IF 2.7 4区 医学 Q3 NEUROSCIENCES
Nilabh Ghosh, Catherine Bregere, Pia Bustos, Raphael Guzman
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引用次数: 2

Abstract

Background: Twenty million Americans suffer from peripheral nerve injury (PNI) and approximately $150 billion is spent annually in the United States for the treatment of nerve injuries. Moreover, 50,000 cases of PNI repairs are performed annually in the United States, with even less than 42% experiencing satisfactory sensory recovery. Available therapies control painful symptoms but do not treat axonal degeneration or neuronal cell death. Peripheral nerve fibrosis (PNF) associated with chronic inflammation, perineural adhesions, and scarring is often reported in patients with nerve injury. Unfortunately, post-surgical adhesions and fibrosis often lead to aberrated wound healing and impairment of nerve functions. Various treatment strategies have been attempted, including the use of grafts and biomaterials; however, few appear promising.

Objective: L-Alanyl-L-Glutamine (L-Ala-L-Gln) was reported to protect the lung from sepsisinduced injury and play an immunomodulatory role in stress and fibrosis. This study aimed to examine the potential anti-fibrotic effects of L-Ala-L-Gln in an in vitro model of neural fibrosis.

Methods: Primary fibroblasts isolated from rat sciatic nerve were exposed to chronic (48 h) and episodic (2 h) hypoxic conditions. Cultures were then treated for 48 h with various concentrations of L-Ala-L-Gln (0, 1, 10, and 100 mM). The expression of hypoxic and pro-fibrotic markers in the different culture conditions was assessed by immunocytochemistry and western blot analyses. Quantitative phosphor-proteomic profiling was performed to investigate mechanistically the impact of L-Ala- L-Gln on collagen biosynthesis and hypoxia-driven tissue fibrosis in vitro.

Results: In protein expression assays, L-Ala-L-Gln significantly reduced markers related to the cellular response to hypoxia, in particular HIF-1 signaling. L-Ala-L-Gln also significantly reduced the expression of pro-fibrotic and cell-adhesion-inducing factors. Phospho-proteomic data indicated that L-Ala-L-Gln modulates several pro-fibrotic factors and associated pathways.

Conclusion: Altogether, our data demonstrate that L-Ala-L-Gln efficiently suppresses hypoxiamediated fibrotic processes at different concentrations in rat primary fibroblasts. Thus, L-Ala-L-Gln presents a high potential therapeutic value as an antifibrotic pharmaceutical agent for the treatment of neural fibrosis.

L-Ala-L-Gln抑制大鼠神经周围成纤维细胞缺氧表型和成纤维活性。
背景:2000万美国人患有周围神经损伤(PNI),美国每年用于神经损伤治疗的费用约为1500亿美元。此外,在美国,每年进行50,000例PNI修复,甚至不到42%的人感觉恢复满意。现有的治疗方法可以控制疼痛症状,但不能治疗轴突变性或神经元细胞死亡。周围神经纤维化(PNF)与慢性炎症、神经周围粘连和瘢痕形成相关,常见于神经损伤患者。不幸的是,术后粘连和纤维化常常导致伤口愈合异常和神经功能受损。已经尝试了各种治疗策略,包括使用移植物和生物材料;然而,似乎很少有前景。目的:l-丙氨酰- l-谷氨酰胺(L-Ala-L-Gln)在脓毒症诱导的肺损伤中具有保护作用,并在应激和纤维化中发挥免疫调节作用。本研究旨在研究L-Ala-L-Gln在体外神经纤维化模型中的潜在抗纤维化作用。方法:从大鼠坐骨神经分离的原代成纤维细胞暴露于慢性(48小时)和偶发性(2小时)缺氧条件下。然后用不同浓度的L-Ala-L-Gln(0,1,10和100 mM)处理培养物48小时。免疫细胞化学和western blot检测不同培养条件下缺氧和促纤维化标志物的表达。定量磷蛋白组学分析研究了L-Ala- L-Gln对体外胶原生物合成和缺氧驱动的组织纤维化的影响机制。结果:在蛋白表达分析中,L-Ala-L-Gln显著降低了与细胞对缺氧反应相关的标志物,特别是HIF-1信号。L-Ala-L-Gln也显著降低促纤维化因子和细胞粘附诱导因子的表达。磷酸化蛋白质组学数据表明,L-Ala-L-Gln调节几种促纤维化因子和相关途径。结论:总之,我们的数据表明,L-Ala-L-Gln在不同浓度下有效抑制大鼠原代成纤维细胞缺氧介导的纤维化过程。因此,L-Ala-L-Gln作为治疗神经纤维化的抗纤维化药物具有很高的潜在治疗价值。
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来源期刊
CiteScore
5.10
自引率
3.30%
发文量
158
审稿时长
6-12 weeks
期刊介绍: Aims & Scope CNS & Neurological Disorders - Drug Targets aims to cover all the latest and outstanding developments on the medicinal chemistry, pharmacology, molecular biology, genomics and biochemistry of contemporary molecular targets involved in neurological and central nervous system (CNS) disorders e.g. disease specific proteins, receptors, enzymes, genes. CNS & Neurological Disorders - Drug Targets publishes guest edited thematic issues written by leaders in the field covering a range of current topics of CNS & neurological drug targets. The journal also accepts for publication original research articles, letters, reviews and drug clinical trial studies. As the discovery, identification, characterization and validation of novel human drug targets for neurological and CNS drug discovery continues to grow; this journal is essential reading for all pharmaceutical scientists involved in drug discovery and development.
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