St. Vincent's Institute of Medical Research, Fitzroy, Victoria, Australia.
Department of Medicine at St. Vincent's Hospital, The University of Melbourne, Fitzroy, Victoria, Australia.
J Bone Miner Res. 2021 Oct;36(10):1999-2016. doi: 10.1002/jbmr.4388. Epub 2021 Jun 30.
Parathyroid hormone-related protein (PTHrP, gene name Pthlh) is a pleiotropic regulator of tissue homeostasis. In bone, Dmp1Cre-targeted PTHrP deletion in osteocytes causes osteopenia and impaired cortical strength. We report here that this outcome depends on parental genotype. In contrast to our previous report using mice bred from heterozygous (flox/wild type) Dmp1Cre.Pthlh parents, adult (16-week-old and 26-week-old) flox/flox (f/f) Dmp1Cre.Pthlh mice from homozygous parents (Dmp1Cre.Pthlh ) have stronger bones, with 40% more trabecular bone mass and 30% greater femoral width than controls. This greater bone size was observed in Dmp1Cre.Pthlh mice as early as 12 days of age, when greater bone width was also found in male and female Dmp1Cre.Pthlh mice compared to controls, but not in gene-matched mice from heterozygous parents. This suggested a maternal influence on skeletal size prior to weaning. Although Dmp1Cre has previously been reported to cause gene recombination in mammary gland, milk PTHrP protein levels were normal. The wide-bone phenotype was also noted in utero: Dmp1Cre.Pthlh embryonic femurs were more mineralized and wider than controls. Closer examination revealed that Dmp1Cre caused PTHrP recombination in placenta, and in the maternal-derived decidual layer that resides between the placenta and the uterus. Decidua from mothers of Dmp1Cre.Pthlh mice also exhibited lower PTHrP levels by immunohistochemistry and were smaller than controls. We conclude that Dmp1Cre leads to gene recombination in decidua, and that decidual PTHrP might, through an influence on decidual cells, limit embryonic bone radial growth. This suggests a maternal-derived developmental origin of adult bone strength. © 2021 American Society for Bone and Mineral Research (ASBMR).
甲状旁腺激素相关蛋白 (PTHrP,基因名称 Pthlh) 是组织稳态的多效调节因子。在骨骼中,成骨细胞中 Dmp1Cre 靶向的 PTHrP 缺失会导致骨质疏松症和皮质骨强度受损。我们在这里报告说,这种结果取决于亲代基因型。与我们之前使用杂合子(flox/野生型)Dmp1Cre.Pthlh 亲代繁殖的小鼠的报告相反,来自纯合子亲代(Dmp1Cre.Pthlh)的成年(16 周龄和 26 周龄)flox/flox(f/f)Dmp1Cre.Pthlh 小鼠的骨骼更强壮,骨小梁质量增加 40%,股骨宽度增加 30%与对照组相比。早在 12 天大的 Dmp1Cre.Pthlh 小鼠中就观察到了这种更大的骨骼大小,此时雄性和雌性 Dmp1Cre.Pthlh 小鼠的骨骼宽度也比对照组大,但在来自杂合子亲代的基因匹配的小鼠中没有观察到。这表明在断奶前骨骼大小受到母体的影响。尽管 Dmp1Cre 先前已被报道在乳腺中引起基因重组,但牛奶 PTHrP 蛋白水平正常。宽骨表型也在子宫内被注意到:Dmp1Cre.Pthlh 胚胎股骨比对照组更矿化且更宽。更仔细的检查表明,Dmp1Cre 导致胎盘和位于胎盘和子宫之间的母体来源的蜕膜层中的 PTHrP 重组。Dmp1Cre.Pthlh 小鼠的蜕膜中的 PTHrP 水平也通过免疫组织化学检测较低,并且比对照组小。我们得出结论,Dmp1Cre 导致蜕膜中的基因重组,而蜕膜中的 PTHrP 可能通过对蜕膜细胞的影响限制胚胎骨骼的径向生长。这表明成年骨骼强度的母体来源的发育起源。© 2021 美国骨骼与矿物质研究协会 (ASBMR)。
