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间充质基质细胞的条件培养基可恢复体外急性肺泡损伤模型中的钠转运并维持上皮通透性。

Conditioned media from mesenchymal stromal cells restore sodium transport and preserve epithelial permeability in an in vitro model of acute alveolar injury.

机构信息

Institut National de la Santé et de la Recherche Médicale, U773, Paris, France;

Institut National de la Santé et de la Recherche Médicale, U773, Paris, France; Université Paris Diderot, Sorbonne Paris Cité, Unité Mixte de Recherche 773 and Unité Mixte de Recherche 940, Paris, France;

出版信息

Am J Physiol Lung Cell Mol Physiol. 2014 Jun 1;306(11):L975-85. doi: 10.1152/ajplung.00242.2013. Epub 2014 Mar 28.

Abstract

Mesenchymal stromal cells (MSCs) or their media (MSC-M) were reported to reverse acute lung injury (ALI)-induced decrease of alveolar fluid clearance. To determine the mechanisms by which MSC-M exert their beneficial effects, an in vitro model of alveolar epithelial injury was created by exposing primary rat alveolar epithelial cells (AECs) to hypoxia (3% O2) plus cytomix, a combination of IL-1β, TNF-α, and IFN-γ. MSC-M were collected from human MSCs exposed for 12 h to either normoxia (MSC-M) or to hypoxia plus cytomix (HCYT-MSC-M). This latter condition was used to model the effect of alveolar inflammation and hypoxia on paracrine secretion of MSCs in the injured lung. Comparison of paracrine soluble factors in MSC media showed that the IL-1 receptor antagonist and prostaglandin E2 were markedly increased while keratinocyte growth factor (KGF) was twofold lower in HCYT-MSC-M compared with MSC-M. In AECs, hypoxia plus cytomix increased protein permeability, reduced amiloride-sensitive short-circuit current (AS-Isc), and also decreased the number of α-epithelial sodium channel (α-ENaC) subunits in the apical membrane. To test the effects of MSC media, MSC-M and HCYT-MSC-M were added for an additional 12 h to AECs exposed to hypoxia plus cytomix. MSC-M and HCYT-MSC-M completely restored epithelial permeability to normal. MSC-M, but not HCYT-MSC-M, significantly prevented the hypoxia plus cytomix-induced decrease of ENaC activity and restored apical α-ENaC channels. Interestingly, KGF-deprived MSC-M were unable to restore amiloride-sensitive sodium transport, indicating a possible role for KGF in the beneficial effect of MSC-M. These results indicate that MSC-M may be a preferable therapeutic option for ALI.

摘要

间充质基质细胞(MSCs)或其培养基(MSC-M)被报道可逆转急性肺损伤(ALI)引起的肺泡液体清除率下降。为了确定 MSC-M 发挥其有益作用的机制,通过用低氧(3% O2)加细胞因子混合物(IL-1β、TNF-α和 IFN-γ的组合)暴露原代大鼠肺泡上皮细胞(AEC)来创建肺泡上皮损伤的体外模型。MSC-M 是从人类 MSC 中收集的,这些 MSC 暴露于常氧(MSC-M)或低氧加细胞因子混合物(HCYT-MSC-M)中 12 小时。后一种情况用于模拟肺泡炎症和低氧对受损肺中 MSC 旁分泌分泌的影响。比较 MSC 培养基中的旁分泌可溶性因子表明,与 MSC-M 相比,HCYT-MSC-M 中的 IL-1 受体拮抗剂和前列腺素 E2 明显增加,而角质细胞生长因子(KGF)低两倍。在 AEC 中,低氧加细胞因子混合物增加了蛋白通透性,降低了阿米洛利敏感的短路电流(AS-Isc),并减少了顶端膜中α-上皮钠通道(α-ENaC)亚基的数量。为了测试 MSC 培养基的作用,将 MSC-M 和 HCYT-MSC-M 添加到暴露于低氧加细胞因子混合物的 AEC 中再培养 12 小时。MSC-M 和 HCYT-MSC-M 完全将上皮通透性恢复正常。MSC-M 但不是 HCYT-MSC-M 可显著防止低氧加细胞因子混合物引起的 ENaC 活性降低,并恢复顶端α-ENaC 通道。有趣的是,缺乏 KGF 的 MSC-M 无法恢复阿米洛利敏感的钠转运,表明 KGF 在 MSC-M 的有益作用中可能发挥作用。这些结果表明,MSC-M 可能是 ALI 的更优选治疗选择。

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