Department of Oral & Dental Science, University of Bristol Dental School, Lower Maudlin St., Bristol BS1 2LY, UK.
Biomaterials. 2010 Jan;31(2):199-206. doi: 10.1016/j.biomaterials.2009.09.035. Epub 2009 Sep 30.
Successful osseointegration stems from the provision of a mechanically competent mineralised matrix at the implant site. Mature osteoblasts are the cells responsible for achieving this and a key factor for ensuring healthy bone tissue is associated with prosthetic materials will be 1 alpha,25 dihydroxy vitamin D3 (calcitriol). However it is known that calcitriol per se does not promote osteoblast maturation, rather the osteoblasts need to be in receipt of calcitriol in combination with selected growth factors in order to undergo a robust maturation response. Herein we report how agonists of the lysophosphatidic acid (LPA) receptor, LPA and (2S)-OMPT, synergistically co-operate with calcitriol to secure osteoblast maturation for cells grown upon two widely used bone biomaterials, titanium and hydroxyapatite. Efforts could now be focussed on functionalizing these materials with LPA receptor agonists to support in vivo calcitriol-induced osseointegration via heightened osteoblast maturation responses.
成功的骨整合源于在种植部位提供机械性能良好的矿化基质。成熟的成骨细胞是实现这一目标的细胞,确保健康骨组织的一个关键因素与假体材料有关,将是 1α,25 二羟维生素 D3(骨化三醇)。然而,众所周知,骨化三醇本身并不能促进成骨细胞成熟,而是成骨细胞需要同时接收骨化三醇和选定的生长因子,才能经历强有力的成熟反应。本文报告了溶血磷脂酸(LPA)受体激动剂 LPA 和(2S)-OMPT 如何与骨化三醇协同合作,促进两种广泛使用的骨生物材料钛和羟基磷灰石上培养的成骨细胞成熟。现在可以集中精力用 LPA 受体激动剂对这些材料进行功能化,以通过增强成骨细胞成熟反应来支持体内骨化三醇诱导的骨整合。
