FKBP12 是多发性骨髓瘤细胞中 ALK2 活性的主要调节剂。

FKBP12 is a major regulator of ALK2 activity in multiple myeloma cells.

机构信息

Department of Clinical and Molecular Medicine, Norwegian University of Science and Technology - NTNU, Trondheim, Norway.

Centre of Molecular Inflammation Research, Norwegian University of Science and Technology - NTNU, Trondheim, Norway.

出版信息

Cell Commun Signal. 2023 Jan 30;21(1):25. doi: 10.1186/s12964-022-01033-9.

DOI:10.1186/s12964-022-01033-9

PMID:36717825

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9885706/

Abstract

BACKGROUND

The immunophilin FKBP12 binds to TGF-β family type I receptors, including the BMP type I receptor ALK2. FKBP12 keeps the type I receptor in an inactive state and controls signaling activity. Removal of FKBP12 with drugs such as the FKBP-ligand FK506 enhances BMP activity in various cell types. In multiple myeloma cells, activation of SMAD1/5/8 leads to apoptosis. We hypothesized that removing FKBP12 from ALK2 in myeloma cells would potentiate BMP-induced ALK2-SMAD1/5/8 activity and in consequence cell death.

METHODS

Multiple myeloma cell lines were treated with FK506, or other FKBP-binding compounds, combined with different BMPs before analyzing SMAD1/5/8 activity and cell viability. SMAD1/5/8 activity was also investigated using a reporter cell line, INA-6 BRE-luc. To characterize the functional signaling receptor complex, we genetically manipulated receptor expression by siRNA, shRNA and CRISPR/Cas9 technology.

RESULTS

FK506 potentiated BMP-induced SMAD1/5/8 activation and apoptosis in multiple myeloma cell lines. By using FKBP-binding compounds with different affinity profiles, and siRNA targeting FKBP12, we show that the FK506 effect is mediated by binding to FKBP12. Ligands that typically signal via ALK3 in myeloma cells, BMP2, BMP4, and BMP10, did not induce apoptosis in cells lacking ALK3. Notably, BMP10 competed with BMP6 and BMP9 and antagonized their activity via ALK2. However, upon addition of FK506, we saw a surprising shift in specificity, as the ALK3 ligands gained the ability to signal via ALK2 and induce apoptosis. This indicates that the receptor complex can switch from an inactive non-signaling complex (NSC) to an active one by adding FK506. This gain of activity was also seen in other cell types, indicating that the observed effects have broader relevance. BMP2, BMP4 and BMP10 depended on BMPR2 as type II receptor to signal, which contrasts with BMP6 and BMP9, that activate ALK2 more potently when BMPR2 is knocked down.

CONCLUSIONS

In summary, our data suggest that FKBP12 is a major regulator of ALK2 activity in multiple myeloma cells, partly by switching an NSC into an active signaling complex. FKBP12 targeting compounds devoid of immunosuppressing activity could have potential in novel treatment strategies aiming at reducing multiple myeloma tumor load. Video Abstract.

摘要

背景

免疫亲和素 FKBP12 与 TGF-β 家族的 I 型受体结合，包括 BMP 型 I 受体 ALK2。FKBP12 使 I 型受体处于非活性状态，并控制信号活性。用 FKBP 配体 FK506 等药物去除 FKBP12 可增强各种细胞类型中 BMP 的活性。在多发性骨髓瘤细胞中，SMAD1/5/8 的激活导致细胞凋亡。我们假设，从骨髓瘤细胞中的 ALK2 中去除 FKBP12 会增强 BMP 诱导的 ALK2-SMAD1/5/8 活性，并因此导致细胞死亡。

方法

用 FK506 或其他 FKBP 结合化合物处理多发性骨髓瘤细胞系，然后用不同的 BMP 进行处理，再分析 SMAD1/5/8 活性和细胞活力。还使用报告细胞系 INA-6 BRE-luc 研究 SMAD1/5/8 活性。为了表征功能性信号转导受体复合物，我们通过 siRNA、shRNA 和 CRISPR/Cas9 技术对受体表达进行遗传操作。

结果

FK506 增强了多发性骨髓瘤细胞系中 BMP 诱导的 SMAD1/5/8 激活和细胞凋亡。通过使用具有不同亲和力特征的 FKBP 结合化合物和靶向 FKBP12 的 siRNA，我们表明 FK506 的作用是通过与 FKBP12 结合介导的。在缺乏 ALK3 的细胞中，通常通过 ALK3 信号传导的骨髓瘤细胞配体 BMP2、BMP4 和 BMP10 不诱导细胞凋亡。值得注意的是，BMP10 与 BMP6 和 BMP9 竞争，并通过 ALK2 拮抗其活性。然而，加入 FK506 后，我们观察到特异性的惊人转变，因为 ALK3 配体获得了通过 ALK2 信号传导和诱导细胞凋亡的能力。这表明通过添加 FK506，受体复合物可以从无活性的非信号转导复合物（NSC）转变为活性复合物。这种活性的获得也见于其他细胞类型，表明观察到的效应具有更广泛的相关性。BMP2、BMP4 和 BMP10 依赖于 BMPR2 作为 II 型受体进行信号传导，这与 BMP6 和 BMP9 形成对比，BMP6 和 BMP9 在 BMPR2 敲低时更有效地激活 ALK2。

结论

总之，我们的数据表明，FKBP12 是多发性骨髓瘤细胞中 ALK2 活性的主要调节剂，部分原因是将 NSC 转换为活性信号转导复合物。缺乏免疫抑制活性的 FKBP12 靶向化合物在旨在减少多发性骨髓瘤肿瘤负荷的新型治疗策略中可能具有潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/59a6/9885706/c8bc027be1ed/12964_2022_1033_Fig1_HTML.jpg

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FKBP12 是多发性骨髓瘤细胞中 ALK2 活性的主要调节剂。

FKBP12 is a major regulator of ALK2 activity in multiple myeloma cells.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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