Impaired fracture healing is associated with callus chondro-osseous junction abnormalities in periostin-null and osteopontin-null mice.

IF 2.8 4区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Experimental Biology and Medicine Pub Date : 2025-01-22 eCollection Date: 2024-01-01 DOI:10.3389/ebm.2024.10066

Marc Teitelbaum, Maya D Culbertson, Charlene Wetterstrand, J Patrick O'Connor

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Abstract

Periostin and osteopontin are matricellular proteins abundantly expressed in bone fracture callus. Null mutation of either the periostin (Postn) gene or the osteopontin (Spp1) gene can impair bone fracture healing. However, the cell and molecular pathways affected by loss of POSTN or SPP1 which lead to impaired fracture healing are not well understood. To identify potential pathways, a detailed radiological, histological, and immunohistochemical analysis of femur fracture healing in Postn-null (PostnKO), Spp1-null (Spp1KO), and normal (WT) mice was performed. Apparent changes in specific protein levels identified by immunohistochemistry were confirmed by mRNA quantitation. Comparisons between the PostnKO and Spp1KO fracture calluses were confounded by interactions between the two genes; loss of Postn reduced Spp1 expression and loss of Spp1 reduced Postn expression. Consequently, alterations in fracture healing between mice heterozygous for the Postn-null allele (PostnHET) as well as the PostnKO and Spp1KO mice were similar. Calluses from PostnHET, PostnKO, and Spp1KO mice all had dysmorphic chondro-osseous junctions and reduced numbers of osteoclasts. The dysmorphic chondro-osseous junctions in the PostnHET, PostnKO, and Spp1KO calluses were associated with reduced numbers of MMP-13 expressing hypertrophic chondrocytes, consistent with delayed cartilage resolution. Unlike collagen X expressing callus chondrocytes, chondrocytes only expressed MMP-13 when localized to the chondro-osseous junction or after traversing the chondro-osseous junction. Cyclooxygenase-2 (COX-2) expression also appeared to be reduced in osteoclasts from the PostnHET, PostnKO, and Spp1KO calluses, including in those osteoclasts localized at the chondro-osseous junction. The results indicate that POSTN and SPP1 are necessary for normal chondro-osseous junction formation and that signaling from the chondro-osseous junction, possibly from COX-2 expressing osteoclasts, regulates callus vasculogenesis and chondrocyte hypertrophy necessary for endochondral ossification during fracture healing.

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在骨膜蛋白缺失和骨桥蛋白缺失的小鼠中，骨折愈合受损与骨痂软骨-骨连接异常有关。

骨膜蛋白和骨桥蛋白是骨折痂中大量表达的基质细胞蛋白。骨膜蛋白（Postn）基因或骨桥蛋白（Spp1）基因的零突变均可影响骨折愈合。然而，受POSTN或SPP1缺失影响的导致骨折愈合受损的细胞和分子途径尚不清楚。为了确定潜在的途径，对后n-null （PostnKO）、Spp1-null （Spp1KO）和正常（WT）小鼠股骨骨折愈合进行了详细的放射学、组织学和免疫组织化学分析。免疫组织化学鉴定的特异性蛋白水平明显改变，mRNA定量证实。PostnKO和Spp1KO骨折老茧的比较由于两种基因的相互作用而混淆；Postn缺失可降低Spp1表达，Spp1缺失可降低Postn表达。因此，post -null等位基因（postnet）杂合小鼠与PostnKO和Spp1KO小鼠之间的骨折愈合变化相似。postnet、PostnKO和Spp1KO小鼠的老茧都有畸形的软骨-骨连接和破骨细胞数量减少。postnet、PostnKO和Spp1KO老茧中畸形的软骨-骨连接与表达肥大软骨细胞的MMP-13数量减少有关，这与软骨溶解延迟一致。与表达X胶原的骨痂软骨细胞不同，软骨细胞仅在定位于软骨-骨连接处或穿过软骨-骨连接处后表达MMP-13。在postnet、PostnKO和Spp1KO的破骨细胞中，包括那些位于软骨-骨交界处的破骨细胞，环氧合酶-2 （COX-2）的表达似乎也降低了。结果表明，POSTN和SPP1是正常软骨-骨连接点形成所必需的，来自软骨-骨连接点的信号，可能来自表达COX-2的破骨细胞，调节骨折愈合过程中软骨内成骨所必需的骨痂血管生成和软骨细胞肥大。

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来源期刊

Experimental Biology and Medicine 医学-医学：研究与实验

CiteScore

6.00

自引率

0.00%

发文量

157

审稿时长

1 months

期刊介绍： Experimental Biology and Medicine (EBM) is a global, peer-reviewed journal dedicated to the publication of multidisciplinary and interdisciplinary research in the biomedical sciences. EBM provides both research and review articles as well as meeting symposia and brief communications. Articles in EBM represent cutting edge research at the overlapping junctions of the biological, physical and engineering sciences that impact upon the health and welfare of the world''s population. Topics covered in EBM include: Anatomy/Pathology; Biochemistry and Molecular Biology; Bioimaging; Biomedical Engineering; Bionanoscience; Cell and Developmental Biology; Endocrinology and Nutrition; Environmental Health/Biomarkers/Precision Medicine; Genomics, Proteomics, and Bioinformatics; Immunology/Microbiology/Virology; Mechanisms of Aging; Neuroscience; Pharmacology and Toxicology; Physiology; Stem Cell Biology; Structural Biology; Systems Biology and Microphysiological Systems; and Translational Research.