Surfactant Protein-C Regulates Alveolar Type 2 Epithelial Cell Lineages via the CD74 Receptor.

Journal of respiratory biology and translational medicine Pub Date : 2024-12-01 Epub Date: 2024-10-11 DOI:10.70322/jrbtm.2024.10017

Krishan G Jain, Yang Liu, Runzhen Zhao, Preeti J Muire, Nan-Miles Xi, Hong-Long Ji

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Abstract

Background: Deficiency of surfactant protein-C (SPC) increases susceptibility to lung infections and injury, and suppressed expression of SPC has been associated with the severity of acute respiratory distress syndrome (ARDS). Alveolar type 2 epithelial cells (AT2) are critical for maintenance and repair of the lung. However, the role of the SPC in the regulation of AT2 cell lineage and the underlying mechanisms are not completely understood.

Methods: This study aimed to investigate the mechanisms by which SPC regulates AT2 lineages. Sftpc-/- mice were used to model the SPC deficiency in ARDS patients. We utilized three-dimensional (3D) organoids to compare AT2 lineage characteristics between wild type (WT) and Sftpc-/- mice by analyzing AT2 proliferation, alveolar type 1 cells (AT1) differentiation and CD74 expression, using colony-formation assay, immunofluorescence, flow cytometry, and immunoblots.

Results: The results showed that Sftpc-/- mice demonstrated a reduced AT2 cell population. Influenza A virus subtype H1N1 (H1N1) infected Sftpc-/- mice demonstrated reduced AT2 proliferation and AT1 differentiation. Western blot indicated elevated levels of CD74 protein in AT2 cells of Sftpc-/- mice. Colony-forming efficiency was significantly attenuated in AT2 cells isolated from Sftpc-/- mice compared to the WT controls. Podoplanin (PDPN, a marker of AT1 cells) expression and transient cell count significantly increased in Sftpc-/- organoids. Moreover, siRNA-mediated gene silencing of CD74 in AT2 cells significantly increased AT2 proliferation and AT1 differentiation in Sftpc-/- organoids.

Conclusions: This study suggests that SPC regulates AT2 lineage in vitro and in vivo. The SPC might influence AT2 lineage during the lung epithelium repair by activating signaling mechanism involving CD74 receptor.

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表面活性蛋白-C 通过 CD74 受体调控肺泡 2 型上皮细胞系

背景：表面活性蛋白-C（SPC）的缺乏会增加肺部感染和损伤的易感性，SPC的表达受抑制与急性呼吸窘迫综合征（ARDS）的严重程度有关。肺泡 2 型上皮细胞（AT2）对肺的维护和修复至关重要。然而，SPC在调节AT2细胞系中的作用及其内在机制尚不完全清楚：本研究旨在探讨SPC调节AT2细胞系的机制。方法：本研究旨在探讨 SPC 调节 AT2 细胞系的机制。我们利用三维（3D）器官组织，通过集落形成试验、免疫荧光、流式细胞术和免疫印迹分析AT2增殖、肺泡1型细胞（AT1）分化和CD74表达，比较了野生型（WT）和Sftpc-/-小鼠的AT2系特征：结果表明，Sftpc-/-小鼠的AT2细胞数量减少。Sftpc-/-小鼠感染甲型 H1N1（H1N1）流感病毒后，AT2 细胞增殖和 AT1 细胞分化减少。Western 印迹显示 Sftpc-/- 小鼠 AT2 细胞中的 CD74 蛋白水平升高。与 WT 对照组相比，分离自 Sftpc-/- 小鼠的 AT2 细胞的集落形成效率明显降低。在 Sftpc-/- 器官组织中，Podoplanin（PDPN，AT1 细胞的标记物）的表达和瞬时细胞数明显增加。此外，siRNA介导的AT2细胞CD74基因沉默可明显增加Sftpc-/-器官组织中AT2的增殖和AT1的分化：本研究表明，SPC调节体外和体内的AT2系。结论：该研究表明，SPC可在体外和体内调节AT2的形成，SPC可能通过激活CD74受体的信号转导机制来影响肺上皮修复过程中AT2的形成。

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Journal of respiratory biology and translational medicine

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