Cellular Physiology and Biochemistry (Nov 2018)

Vitamin K Supplementation Modulates Bone Metabolism and Ultra-Structure of Ovariectomized Mice

  • Letícia Batista Azevedo Rangel,
  • Daniel de Siqueira,
  • Olívia do Rosário Soares,
  • Higor Scardini Santana,
  • Emílio de Castro Miguel,
  • Maura da Cunha,
  • Andre Lacerda de Abreu Oliveira,
  • Diego França Pedrosa,
  • Ludmilla Carvalho Rangel Resgala,
  • Helder Azevedo Rangel Neto,
  • Neuza Felix Gomes-Rochette,
  • Sérgio Ragi Eis,
  • Jones Bernardes Graceli,
  • Ian Victor  Silva

DOI
https://doi.org/10.1159/000495234
Journal volume & issue
Vol. 51, no. 1
pp. 356 – 374

Abstract

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Background/Aims: Osteoporosis is a bone metabolic disease that affects mostly post-menopausal women. There has been shown that vitamin K (VK) supplementation during menopause may decrease bone loss as well as risk of bone breaking. Aiming to clarify the beneficial role of VK in bone metabolism during menopause, we investigated mineral metabolism and bone ultrastructure of ovariectomized (OVX) mice. Methods: To determine the effects chronic use of VK in bone structure and mineral metabolism in OVX mice, we used several methods, such as DXA, µCTScan, and SEM as well as biomolecular techniques, such as ELISA and qRT-PCR. In addition, complete analysis of serum hormonal and other molecules associated to bone and lipid metabolism were evaluated overview the effects of VK in menopause murine model. Results: VK treatment significantly affects Pi metabolism independently of OVX, changing Pi plasma, urinary output, balance, and Pi bone mass. Interestingly, VK also increased VLDL in mice independently of castration. In addition, VK increased compact bone mass in OVX mice when we evaluated it by DXA, histomorphometry, µCTScanning. VK increased bone formation markers, osteocalcin, HYP- osteocalcin, and AP whereas it decreased bone resorption markers, such as urinary DPD/creatinine ratio and plasmatic TRAP. Surprisingly, SEM images revealed that VK treatment led to amelioration of microfractures observed in OVX untreated controls. In addition, SHAM operated VK treated mice exhibited higher number of migrating osteoblasts and in situ secretion of AP. OVX led to decreased to in situ secretion of AP that was restored by VK treatment. Moreover, VK treatment increased mRNA expression of bone Calbindin 28KDa independently of OVX. Conclusion: VK treatment in OVX mice exhibited beneficial effects on bone ultrastructure, mostly by altering osteoblastic function and secretion of organic bone matrix. Therefore, VK could be useful to treat osteopenic/osteoporotic patients.

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