Gene signatures in U-BIOPRED severe asthma for molecular phenotyping and precision medicine: time for clinical use.

Expert review of respiratory medicine Pub Date : 2023-07-01 Epub Date: 2023-12-26 DOI:10.1080/17476348.2023.2278606
Nazanin Kermani, Ali Versi, Aurore Gay, Jelmer Vlasma, Akshaya Keerthi Saikumar Jayalatha, Gerard H Koppelman, Martijn Nawijn, Alen Faiz, Maarten van den Berge, Ian M Adcock, Kian Fan Chung
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Abstract

Introduction: The use and generation of gene signatures have been established as a method to define molecular endotypes in complex diseases such as severe asthma. Bioinformatic approaches have now been applied to large omics datasets to define the various co-existing inflammatory and cellular functional pathways driving or characterizing a particular molecular endotype.

Areas covered: Molecular phenotypes and endotypes of Type 2 inflammatory pathways and also of non-Type 2 inflammatory pathways, such as IL-6 trans-signaling, IL-17 activation, and IL-22 activation, have been defined in the Unbiased Biomarkers for the Prediction of Respiratory Disease Outcomes dataset. There has also been the identification of the role of mast cell activation and of macrophage dysfunction in various phenotypes of severe asthma.

Expert opinion: Phenotyping on the basis of clinical treatable traits is not sufficient for understanding of mechanisms driving the disease in severe asthma. It is time to consider whether certain patients with severe asthma, such as those non-responsive to current therapies, including Type 2 biologics, would be better served using an approach of molecular endotyping using gene signatures for management purposes rather than the current sole reliance on blood eosinophil counts or exhaled nitric oxide measurements.

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U-BIOPRED重症哮喘的基因标记用于分子表型和精准医学:临床应用的时机。
基因标记的使用和产生已被确立为一种确定复杂疾病(如严重哮喘)分子内型的方法。生物信息学方法现已应用于大型组学数据集,以定义驱动或表征特定分子内型的各种共存的炎症和细胞功能途径。涵盖领域:2型炎症途径和非2型炎症途径的分子表型和内型,如IL-6反式信号、IL-17激活和IL-22激活,已在呼吸道疾病结局预测的无偏生物标志物数据集中定义。肥大细胞活化和巨噬细胞功能障碍在各种严重哮喘表型中的作用也得到了证实。专家意见:基于临床可治疗特征的表型分析不足以理解严重哮喘的发病机制。现在是时候考虑某些严重哮喘患者,例如那些对现有治疗无反应的患者,包括2型生物制剂,是否可以更好地使用基于基因特征的分子内分型方法来治疗,而不是目前唯一依赖于血液嗜酸性粒细胞计数或呼出一氧化氮测量。
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