Centre de Physiopathologie de Toulouse Purpan INSERM UMR 1043, Toulouse, France.
Pathophysiology, Diagnosis and treatments of bone diseases, INSERM UMR1033, Lyon, France.
Biochim Biophys Acta Mol Cell Biol Lipids. 2020 Aug;1865(8):158715. doi: 10.1016/j.bbalip.2020.158715. Epub 2020 Apr 21.
Lysphosphatidic acid (LPA) is a major natural bioactive lipid mediator whose biological functions affect multiple organs. These include bone as demonstrated by global Lpar1-knockout mice (Lpar1) which present a bone growth defect. LPA acts on all bone cells including osteoblasts, that are responsible for bone formation, and osteoclasts, which are specialized cells that resorb bone. LPA appears as a potential new coupling molecule during bone remodeling. LPA is the most ubiquitous LPA receptor among the six LPA receptor family members (LPA). To better understand the specific role of LPA via its receptor LPA in osteoblastic cell lineage we generated osteoblast-specific Lpar1 knockout mice (Lpar1-∆Ob) by crossing Lpar1 and Osx:Cre mouse lines. Lpar1-∆Ob mice do not recapitulate the bone defects of Lpar1 mice but revealed reduced bone mineralization and decreased cortical thickness, as well as increased bone porosity associated with an augmentation in the lacunae areas of osteocyte and their apoptotic yield. In vitro, primary Lpar1-∆Ob and immortalized cl1-Ob-Lpar1 osteoblasts revealed a remarkable premature expression of alkaline phosphatase, reduced cell proliferation associated with decreased YAP-P nuclear accumulation, and reduced mineralization activity. Osteocyte specification is markedly impaired as demonstrated by reduced expression of early (E11) and late (DMP1, DKK1, SOST) osteocyte markers ex vivo in enriched osteocytic fractions of Lpar1-∆Ob mouse bone explants. In addition, E11 expression and dendrite formation induced by FGF2 are markedly impaired in both primary Lpar1-∆Ob and immortalized cl1-Ob-Lpar1 osteoblasts. Taken together these results suggest a new role for LPA in bone mass control via bone mineralization and osteocyte function.
溶血磷脂酸(LPA)是一种主要的天然生物活性脂质介质,其生物学功能影响多个器官。这包括骨骼,如全局 Lpar1 敲除小鼠(Lpar1)所示,其表现出骨骼生长缺陷。LPA 作用于所有的骨骼细胞,包括负责骨骼形成的成骨细胞和专门吸收骨骼的破骨细胞。LPA 在骨重塑过程中似乎是一种潜在的新偶联分子。LPA 是六种 LPA 受体家族成员(LPA)中最普遍的 LPA 受体。为了更好地理解 LPA 通过其受体 LPA 在成骨细胞谱系中的特定作用,我们通过杂交 Lpar1 和 Osx:Cre 小鼠系生成了成骨细胞特异性 Lpar1 敲除小鼠(Lpar1-∆Ob)。Lpar1-∆Ob 小鼠并没有重现 Lpar1 小鼠的骨骼缺陷,但显示出骨矿物质化减少和皮质厚度降低,以及骨孔隙率增加,与骨细胞的腔隙区域增加及其凋亡产量增加有关。在体外,原代 Lpar1-∆Ob 和永生化 cl1-Ob-Lpar1 成骨细胞显示出碱性磷酸酶的显著过早表达,细胞增殖减少与 YAP-P 核积累减少相关,以及矿化活性降低。骨细胞的特化明显受损,如在 Lpar1-∆Ob 小鼠骨外植体中富含骨细胞的骨细胞分数的早期(E11)和晚期(DMP1、DKK1、SOST)骨细胞标志物的表达减少所证明的那样。此外,FGF2 诱导的 E11 表达和树突形成在原代 Lpar1-∆Ob 和永生化 cl1-Ob-Lpar1 成骨细胞中均明显受损。总之,这些结果表明 LPA 在通过骨矿物质化和骨细胞功能控制骨量方面具有新的作用。
