Quantitative proteomic analysis and replacement therapy identifies haptoglobin as a therapeutic target in a murine model of SLE-associated diffuse alveolar hemorrhage
Ninghui Yan, Chenyi Shao, Yan Zhen, Xueliang Zhang, Nana Xia, Qiang Guo

TL;DR
This study identifies haptoglobin as a potential treatment target for a severe lung condition in a mouse model of lupus.
Contribution
The study demonstrates haptoglobin replacement therapy as a novel therapeutic approach for diffuse alveolar hemorrhage in SLE.
Findings
Haptoglobin levels were significantly reduced in SLE-DAH patients and mice with poor outcomes.
Haptoglobin replacement therapy reduced inflammation and mortality in a murine DAH model.
Complement and coagulation cascades were key pathways associated with DAH progression.
Abstract
Diffuse alveolar hemorrhage (DAH) is a catastrophic clinical syndrome and one of the manifestations of pulmonary involvement in systemic lupus erythematosus (SLE), which is characterized by hemoptysis, diffuse pulmonary infiltrates, and respiratory failure. However, the treatment options for DAH remain limited, and DAH-related studies are needed to explore more effective therapeutic directions for better disease management and improved prognosis. This study utilized the pristane-induced DAH murine model to mimic the pathological process of DAH in patients with SLE. Proteomic analysis was conducted to detect differentially expressed proteins (DEPs) in the plasma of surviving and non-surviving mice, followed by an analysis of biological functions and pathways. The most significant DEP was then confirmed in the plasma of SLE patients with or without DAH and DAH murine model with or…
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Taxonomy
TopicsErythrocyte Function and Pathophysiology · Ion Transport and Channel Regulation · Hemoglobin structure and function
