Increasing dietary nitrate has no effect on cancellous bone loss or fecal microbiome in ovariectomized rats

TitleIncreasing dietary nitrate has no effect on cancellous bone loss or fecal microbiome in ovariectomized rats
Publication TypeJournal Article
Year of Publication2017
AuthorsConley, MN, Roberts, C, Sharpton, TJ, Iwaniec, UT, Hord, NG
JournalMolecular Nutrition & Food Research
Volume61
Issue5
Pagination1600372
KeywordsDietary nitrate, Nitric oxide, Osteoporosis, Postmenopause, Vegetables
Abstract

Scope Studies suggest diets rich in fruit and vegetables reduce bone loss, although the specific compounds responsible are unknown. Substrates for endogenous nitric oxide (NO) production, including organic nitrates and dietary nitrate, may support NO production in age‐related conditions, including osteoporosis. We investigated the capability of dietary nitrate to improve NO bioavailability, reduce bone turnover and loss. Methods and results Six‐month‐old Sprague Dawley rats [30 ovariectomized (OVX) and 10 sham‐operated (sham)] were randomized into three groups: (i) vehicle (water) control, (ii) low‐dose nitrate (LDN, 0.1 mmol nitrate/kg bw/day), or (iii) high‐dose nitrate (HDN, 1.0 mmol nitrate/kg bw/day) for three weeks. The sham received vehicle. Serum bone turnover markers; bone mass, mineral density, and quality; histomorphometric parameters; and fecal microbiome were examined. Three weeks of LDN or HDN improved NO bioavailability in a dose‐dependent manner. OVX resulted in cancellous bone loss, increased bone turnover, and fecal microbiome changes. OVX increased relative abundances of Firmicutes and decreased Bacteroideceae and Alcaligenaceae. Nitrate did not affect the skeleton or fecal microbiome. Conclusion These data indicate that OVX affects the fecal microbiome and that the gut microbiome is associated with bone mass. Three weeks of nitrate supplementation does not slow bone loss or alter the fecal microbiome in OVX.

URLhttps://onlinelibrary.wiley.com/doi/abs/10.1002/mnfr.201600372
DOI10.1002/mnfr.201600372