FHL2 在慢性肾脏病的动脉中层钙化中。

FHL2 in arterial medial calcification in chronic kidney disease.

机构信息

Division of Nephrology, Department of Internal Medicine, Taipei Veterans General Hospital, Taipei, Taiwan.

Department of Medical Research, Taipei Veterans General Hospital, Taipei, Taiwan.

出版信息

Nephrol Dial Transplant. 2024 Nov 27;39(12):2025-2039. doi: 10.1093/ndt/gfae091.

DOI:10.1093/ndt/gfae091

PMID:38664060

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11596093/

Abstract

BACKGROUND

Arterial medial calcification (AMC) is a common complication in individuals with chronic kidney disease (CKD), which can lead to cardiovascular morbidity and mortality. The progression of AMC is controlled by a key transcription factor called runt-related transcription factor 2 (RUNX2), which induces vascular smooth muscle cells (VSMCs) transdifferentiation into an osteogenic phenotype. However, RUNX2 has not been targeted for therapy due to its essential role in bone development. The objective of our study was to discover a RUNX2 coactivator that is highly expressed in arterial VSMCs as a potential therapy for AMC.

METHODS

We employed transcriptomic analysis of human data and an animal reporter system to pinpoint four and a half LIM domains 2 (FHL2) as a potential target. Subsequently, we investigated the mRNA and protein expression patterns of FHL2 in the aortas of both human and animal subjects with CKD. To examine the role of FHL2 in the RUNX2 transcription machinery, we conducted coimmunoprecipitation and chromatin immunoprecipitation experiments. Next, we manipulated FHL2 expression in cultured VSMCs to examine its impact on high phosphate-induced transdifferentiation. Finally, we employed FHL2-null mice to confirm the role of FHL2 in the development of AMC in vivo.

RESULTS

Among all the potential RUNX2 cofactors, FHL2 displays selective expression within the cardiovascular system. In the context of CKD subjects, FHL2 undergoes upregulation and translocation from the cytosol to the nucleus of arterial VSMCs. Once in the nucleus, FHL2 interacts structurally and functionally with RUNX2, acting as a coactivator of RUNX2. Notably, the inhibition of FHL2 expression averts transdifferentiation of VSMCs into an osteogenic phenotype and mitigates aortic calcification in uremic animals, without causing any detrimental effects on the skeletal system.

CONCLUSION

These observations provide evidence that FHL2 is a promising target for treating arterial calcification in patients with CKD.

摘要

背景

动脉中层钙化（AMC）是慢性肾脏病（CKD）患者的常见并发症，可导致心血管发病率和死亡率增加。AMC 的进展受关键转录因子 runt 相关转录因子 2（RUNX2）的控制，该因子诱导血管平滑肌细胞（VSMCs）向成骨表型转化。然而，由于 RUNX2 在骨骼发育中的重要作用，尚未针对其进行治疗。我们的研究目的是发现一种在动脉 VSMCs 中高表达的 RUNX2 共激活因子，作为治疗 AMC 的潜在疗法。

方法

我们采用人类数据的转录组分析和动物报告系统，确定四个半 LIM 结构域 2（FHL2）作为潜在靶点。随后，我们研究了 CKD 患者的主动脉中 FHL2 的 mRNA 和蛋白表达模式。为了研究 FHL2 在 RUNX2 转录机制中的作用，我们进行了共免疫沉淀和染色质免疫沉淀实验。接下来，我们在培养的 VSMCs 中操纵 FHL2 的表达，以研究其对高磷诱导的转分化的影响。最后，我们使用 FHL2 缺失小鼠在体内证实 FHL2 在 AMC 发展中的作用。

结果

在所有潜在的 RUNX2 共因子中，FHL2 在心血管系统中具有选择性表达。在 CKD 患者中，FHL2 上调并从细胞质易位到动脉 VSMCs 的核内。一旦进入核内，FHL2 就会与 RUNX2 结构和功能相互作用，作为 RUNX2 的共激活因子。值得注意的是，抑制 FHL2 表达可防止 VSMCs 向成骨表型转化，并减轻尿毒症动物的主动脉钙化，而不会对骨骼系统造成任何不利影响。