肌动蛋白结合蛋白 Profilin-1 通过抑制基于分支的肌动蛋白丝的突起结构来负向控制破骨细胞的迁移。

Profilin-1 negatively controls osteoclast migration by suppressing the protrusive structures based on branched actin filaments.

机构信息

Department of Veterinary Medicine, The Faculty of Veterinary Medicine, Okayama University of Science, Imabari, Ehime, 794-8555, Japan.

Department of Joint Surgery and Sports Medicine, Tokyo Medical and Dental University (TMDU), Tokyo, 113-8510, Japan.

出版信息

J Bone Miner Metab. 2022 Jul;40(4):561-570. doi: 10.1007/s00774-022-01320-y. Epub 2022 Apr 15.

DOI:10.1007/s00774-022-01320-y

PMID:35428898

Abstract

BACKGROUND

Profilin-1 (Pfn1), an evolutionarily conserved actin-binding protein, is an important regulator of the cytoskeleton. We previously reported the osteoclast-specific Pfn1-conditional knockout (cKO) mice had postnatal osteolytic phenotype with craniofacial and long-bone deformities associated with increased migration of cultured osteoclasts. We hypothesized the increased cellular processes structured with branched actin filaments may underlies the mechanism of increased bone resorption in these mutant mice.

MATERIALS AND METHODS

The morphological structure and cell migration of the cultured osteoclasts were analyzed using fluorescent microscopy and time-lapse image capturing. Fractional migration distances, as well as the index of protrusive structures (%-PB) that evaluates relative border length of the protrusion were compared between the cells from control and Pfn1-cKO mice.

RESULTS

Time-lapse image analysis showed that %-PB was significantly larger in Pfn1-cKO osteoclasts. In addition, the fractional migration distance was positively correlated with the index. When the branched actin filament organization was suppressed by chemical inhibitors, the osteoclast migration was declined. Importantly, the suppression was more extensive in Pfn1-cKO than in control osteoclasts.

CONCLUSION

Our results indicated the causative involvement of the increased branched actin filament formation at least in part for their excessive migration. Our findings provide a mechanistic rationale for testing novel therapeutic approaches targeting branched actin filaments in osteolytic disorders.

摘要

背景

丝状肌动蛋白结合蛋白 1（Pfn1）是一种进化上保守的肌动蛋白结合蛋白，是细胞骨架的重要调节因子。我们之前报道过破骨细胞特异性 Pfn1 条件性敲除（cKO）小鼠具有出生后溶骨性表型，伴有颅面和长骨畸形，与培养的破骨细胞迁移增加有关。我们假设细胞内分支肌动蛋白丝结构增加的过程可能是这些突变小鼠骨吸收增加的机制。

材料和方法

使用荧光显微镜和延时图像捕获分析培养的破骨细胞的形态结构和细胞迁移。比较来自对照和 Pfn1-cKO 小鼠的细胞之间的分数迁移距离以及评估突起相对边界长度的突起指数（%-PB）。

结果

延时图像分析显示 Pfn1-cKO 破骨细胞中的%-PB 明显更大。此外，分数迁移距离与指数呈正相关。当化学抑制剂抑制分支肌动蛋白丝组织时，破骨细胞迁移减少。重要的是，Pfn1-cKO 中的抑制作用比对照破骨细胞更广泛。

结论

我们的结果表明，增加的分支肌动蛋白丝形成至少部分导致了它们过度迁移。我们的发现为在溶骨性疾病中测试靶向分支肌动蛋白丝的新型治疗方法提供了机制依据。

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肌动蛋白结合蛋白 Profilin-1 通过抑制基于分支的肌动蛋白丝的突起结构来负向控制破骨细胞的迁移。

Profilin-1 negatively controls osteoclast migration by suppressing the protrusive structures based on branched actin filaments.

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料和方法

结果

结论

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