EphB3 as a Potential Mediator of Developmental and Reparative Osteogenesis.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-01-01 Epub Date: 2021-10-25 DOI:10.1159/000520369
Rajay A D Kamath, M Douglas Benson
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引用次数: 1

Abstract

The ephrin-B family of membrane-bound ligands is involved in skeletal patterning, osteogenesis, and bone homeostasis. Yet, despite the increasing collection of data affirming their importance in bone, the Eph tyrosine kinases that serve as the receptors for these ephrins in osteoblast stem cell niches remain unidentified. Here we report the expression of EphB3 at sites of bone growth in the embryo, especially at the calvaria suture fronts, periosteum, chondrocytes, and trabeculae of developing long bones. Strong EphB3 expression persisted in the adult calvarial sutures and in the proliferative chondrocytes of long bones, both of which are documented niches for osteoblastic stem cells. We observed EphB3-positive cells in the tissue filling a created calvarial injury, further implying EphB3 involvement in bone healing. Genetic knockout of EphB3 caused an increase in the bone tissue volume as a fraction of total volume in 6-week-old calvaria and in femoral trabecular density, compared to wild type controls. This difference resolved by 12 weeks of age, when we instead observed an increase in the bone volume of femoral trabeculae and in trabecular thickness. Our data identify EphB3 as a candidate regulator of osteogenesis either alone or in combination with other bone-expressed Ephs, and indicate that it appears to function as a limiter of bone growth.

EphB3 是发育性和修复性骨生成的潜在介质
膜结合配体ephrin-B家族参与了骨骼形态、成骨和骨稳态。然而,尽管越来越多的数据证实了它们在骨骼中的重要性,但在成骨细胞干细胞龛中作为这些ephrins受体的Eph酪氨酸激酶仍未确定。在此,我们报告了 EphB3 在胚胎骨生长部位的表达情况,尤其是在发育中长骨的犊骨缝前沿、骨膜、软骨细胞和骨小梁。EphB3在成年犊骨缝和长骨增殖软骨细胞中持续强表达,而这两处都是成骨干细胞的龛位。我们观察到EphB3阳性细胞存在于腓骨损伤的填充组织中,这进一步表明EphB3参与了骨愈合。与野生型对照组相比,基因敲除EphB3会导致6周大的小腿骨中骨组织体积占总体积的比例和股骨小梁密度增加。这种差异在 12 周龄时消失,此时我们观察到股骨小梁的骨量和小梁厚度增加。我们的数据确定 EphB3 是单独或与其他骨表达 Ephs 结合使用时骨生成的候选调节因子,并表明它似乎具有限制骨生长的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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