Omics analysis reveals galectin-3 to be a potential key regulator of allergic inflammation in hereditary angioedema

The journal of allergy and clinical immunology. Global Pub Date : 2024-10-18 DOI:10.1016/j.jacig.2024.100353

Supriya D. Mahajan PhD, MPH , Ravikumar Aalinkeel PhD , Jessica L. Reynolds PhD , Janvhi S. Machhar MS , Berhane Ghebrehiwet DVM, DSc , Stanley A. Schwartz MD, PhD

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Abstract

Background

Hereditary angioedema (HAE) is a rare inherited disorder that predisposes an individual to develop vasogenic edema. Bradykinin release, which increases vascular permeability, results in angioedema. C1 esterase inhibitor (C1-INH) is a major regulator of critical enzymes involved in bradykinin generation and mutations in genes that encode the C1 inhibitor of complement factor 1, which prevent its synthesis (type I HAE), form a dysfunctional protein (type II HAE), or have normal functioning C1-INH (type III HAE, aka HAE-III).

Objectives

The goals of this study were to use a systems biology analysis to identify novel biomarkers to aid in the diagnosis of HAE-III and to elucidate its underlying pathogenic mechanisms.

Methods

Blood samples were obtained from HAE-III subjects and age- and sex-matched healthy controls. DNA, RNA, and protein purified from the samples were subjected to multiomics analysis using a 1-shot liquid chromatography–mass spectrometry–based multiomics platform (Omni-MS, Dalton Bioanalytics) to profile proteins, lipids, electrolytes, and metabolites enabling concurrent analysis of diverse analyte classes.

Results

A total of 1647 novel identifications that included genes, proteins, and metabolites were made when comparing HAE-III samples to control samples. Our identification library included MSFragger for protein identification, LipiDex for lipid identification, and Compound Discoverer for metabolite identification, enabling differential expression analysis. Key findings included a significant increase in the expression levels of galectin-3, lysosomal α-glucosidase, platelet factor 4, and platelet-derived growth factor subunit A in HAE-III subjects compared to controls, all of which generate an immunomodulatory response.

Conclusion

Galectin-3 plays a critical role in eosinophil recruitment and airway allergic inflammation. It may contribute to chronic inflammation and fibrosis resulting in leaky vasculature, and it could be a potential therapeutic target in HAE-III.

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Omics 分析发现 galectin-3 是遗传性血管性水肿过敏性炎症的潜在关键调节因子

背景遗传性血管性水肿（HAE）是一种罕见的遗传性疾病，患者易患血管源性水肿。缓激肽的释放会增加血管的通透性，从而导致血管性水肿。C1酯酶抑制剂（C1-INH）是参与缓激肽生成的关键酶的主要调节剂，而编码补体因子1的C1抑制剂的基因发生突变，会阻止其合成（I型HAE）、形成功能障碍蛋白（II型HAE）或C1-INH功能正常（III型HAE，又称HAE-III）。方法从 HAE-III 受试者和年龄、性别匹配的健康对照者身上采集血液样本。使用基于液相色谱-质谱联用技术的多组学平台（Omni-MS，Dalton Bioanalytics公司）对样本中纯化的DNA、RNA和蛋白质进行多组学分析，分析蛋白质、脂类、电解质和代谢物，同时分析不同的分析物类别。我们的鉴定库包括用于蛋白质鉴定的 MSFragger、用于脂质鉴定的 LipiDex 和用于代谢物鉴定的 Compound Discoverer，从而实现了差异表达分析。主要发现包括：与对照组相比，HAE-III 受试者中的galectin-3、溶酶体 α-葡萄糖苷酶、血小板因子 4 和血小板衍生生长因子亚基 A 的表达水平明显增加，所有这些物质都会产生免疫调节反应。结论大肠粘蛋白-3 在嗜酸性粒细胞聚集和气道过敏性炎症中起着关键作用，它可能会导致慢性炎症和纤维化，造成血管渗漏，并可能成为 HAE-III 的潜在治疗靶点。

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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