A human histidyl-tRNA synthetase splice variant therapeutic targets NRP2 to resolve lung inflammation and fibrosis

IF 14.6 1区医学 Q1 CELL BIOLOGY Science Translational Medicine Pub Date : 2025-03-12

Leslie A. Nangle, Zhiwen Xu, David Siefker, Christoph Burkart, Yeeting E. Chong, Liting Zhai, Yanyan Geng, Clara Polizzi, Lauren Guy, Lisa Eide, Yao Tong, Sofia Klopp-Savino, Michaela Ferrer, Kaitlyn Rauch, Annie Wang, Kristina Hamel, Steve Crampton, Suzanne Paz, Kyle P. Chiang, Minh-Ha Do, Luke Burman, Darin Lee, Mingjie Zhang, Kathleen Ogilvie, David King, Ryan A. Adams, Paul Schimmel

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Abstract

Interstitial lung disease (ILD) consists of a group of immune-mediated disorders that can cause inflammation and progressive fibrosis of the lungs, representing an area of unmet medical need given the lack of disease-modifying therapies and toxicities associated with current treatment options. Tissue-specific splice variants (SVs) of human aminoacyl-tRNA synthetases (aaRSs) are catalytic nulls thought to confer regulatory functions. One example from human histidyl-tRNA synthetase (HARS), termed HARS^WHEP because the splicing event resulted in a protein encompassing the WHEP-TRS domain of HARS (a structurally conserved domain found in multiple aaRSs), is enriched in human lung and up-regulated by inflammatory cytokines in lung and immune cells. Structural analysis of HARS^WHEP confirmed a well-organized helix-turn-helix motif. This motif bound specifically and selectively to neuropilin-2 (NRP2), a receptor expressed by myeloid cells in active sites of inflammation, to inhibit expression of proinflammatory receptors and cytokines and to down-regulate inflammatory pathways in primary human macrophages. In animal models of lung injury and ILD, including bleomycin treatment, silicosis, sarcoidosis, chronic hypersensitivity pneumonitis, systemic sclerosis, and rheumatoid arthritis–ILD, HARS^WHEP reduced lung inflammation, immune cell infiltration, and fibrosis. In patients with sarcoidosis, efzofitimod treatment resulted in down-regulation of gene expression for inflammatory pathways in peripheral immune cells and stabilization of inflammatory biomarkers in serum after steroid tapering. We demonstrate the immunomodulatory activity of HARS^WHEP and present preclinical data supporting ongoing clinical development of the biologic efzofitimod based on HARS^WHEP in ILD.

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人类组氨酸- trna合成酶剪接变异体靶向NRP2治疗肺部炎症和纤维化

间质性肺病（ILD）由一组免疫介导的疾病组成，可引起炎症和肺进行性纤维化，由于缺乏疾病改善疗法和与当前治疗方案相关的毒性，代表了一个未满足医疗需求的领域。人氨基酰基trna合成酶（aars）的组织特异性剪接变异体（SVs）被认为是具有调节功能的催化null。例如，人组氨酸- trna合成酶（HARS）被称为HARSWHEP，因为剪接事件导致包含HARS的WHEP-TRS结构域的蛋白质（在多个aars中发现的结构保守结构域）在人肺中富集，并在肺和免疫细胞中被炎症细胞因子上调。HARSWHEP的结构分析证实了一个组织良好的helix-turn-helix基序。该基序特异性和选择性地结合到神经肽-2 （NRP2）上，抑制原代人巨噬细胞中促炎受体和细胞因子的表达，下调炎症通路。神经肽-2是一种在炎症活跃部位由髓样细胞表达的受体。在肺损伤和ILD的动物模型中，包括博来霉素治疗、矽肺、结节病、慢性过敏性肺炎、系统性硬化症和类风湿关节炎- ILD， HARSWHEP可减少肺部炎症、免疫细胞浸润和纤维化。在结节病患者中，依佐非莫德治疗导致外周免疫细胞炎症通路基因表达下调，类固醇逐渐减少后血清中炎症生物标志物稳定。我们证明了HARSWHEP的免疫调节活性，并提供了临床前数据，支持正在进行的基于HARSWHEP的ILD生物efzofimod的临床开发。

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来源期刊

Science Translational Medicine CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL

CiteScore

26.70

自引率

1.20%

发文量

309

审稿时长

1.7 months

期刊介绍： Science Translational Medicine is an online journal that focuses on publishing research at the intersection of science, engineering, and medicine. The goal of the journal is to promote human health by providing a platform for researchers from various disciplines to communicate their latest advancements in biomedical, translational, and clinical research. The journal aims to address the slow translation of scientific knowledge into effective treatments and health measures. It publishes articles that fill the knowledge gaps between preclinical research and medical applications, with a focus on accelerating the translation of knowledge into new ways of preventing, diagnosing, and treating human diseases. The scope of Science Translational Medicine includes various areas such as cardiovascular disease, immunology/vaccines, metabolism/diabetes/obesity, neuroscience/neurology/psychiatry, cancer, infectious diseases, policy, behavior, bioengineering, chemical genomics/drug discovery, imaging, applied physical sciences, medical nanotechnology, drug delivery, biomarkers, gene therapy/regenerative medicine, toxicology and pharmacokinetics, data mining, cell culture, animal and human studies, medical informatics, and other interdisciplinary approaches to medicine. The target audience of the journal includes researchers and management in academia, government, and the biotechnology and pharmaceutical industries. It is also relevant to physician scientists, regulators, policy makers, investors, business developers, and funding agencies.