Abstract
Lactation-induced bone loss occurs due to high calcium requirements for fetal growth but skeletal recovery is normally achieved promptly postweaning. Dietary protein is vital for fetus and mother but the effects of protein undernutrition on the maternal skeleton and skeletal muscles are largely unknown. We used mouse dams fed with normal (N, 20%) or low (L, 8%) protein diet during gestation and lactation and maintained on the same diets (NN, LL) or switched from low to normal (LN) during a 28 d skeletal restoration period post lactation. Skeletal muscle morphology and neuromuscular junction integrity was not different between any of the groups. However, dams fed the low protein diet showed extensive bone loss by the end of lactation, followed by full skeletal recovery in NN dams, partial recovery in LN and poor bone recovery in LL dams. Primary osteoblasts from low protein diet fed mice showed decreased in vitro bone formation and decreased osteogenic marker gene expression; promoter methylation analysis by pyrosequencing showed no differences in Bmpr1a, Ptch1, Sirt1, Osx, and Igf1r osteoregulators, while miR-26a, -34a, and -125b expression was found altered in low protein fed mice. Therefore, normal protein diet is indispensable for maternal musculoskeletal health during the reproductive period.
Highlights
Gestation and lactation are two of the most metabolically challenging life phases in females, affecting almost all the physiological systems in the human body
We report that protein under-nutrition during gestation/lactation and recovery periods reproduction exerts detrimental effects on the skeletal system of mouse dams and decreases the rate of bone accretion in the postweaning recovery period
We examined the effects of low protein intake during gestation and lactation on skeletal muscle integrity as well as on neuromuscular junction (NMJ) morphology and importantly report for the first time in the literature that there were no differences when compared with normal protein consumption
Summary
Gestation and lactation are two of the most metabolically challenging life phases in females, affecting almost all the physiological systems in the human body. Bone loss arises very rapidly as a result of substantial changes in the maternal skeleton.[1] During pregnancy, fetal requirements for calcium are met by a twofold upregulation of intestinal absorption and is thought to be the major mechanism of maternal adaptation, partly mediated by the action of 1,25-vitamin D on intestinal cells.[2] This environment allows the maternal skeleton to accumulate sufficient calcium to support bone mineralization in the fetus during the third trimester.[3] Maternal bone mass declines during lactation, when skeletal calcium is released to the breast milk. Increased circulating parathyroid hormone-related peptide (PTHrP), produced by the lactating breast, plays a key role in calcium release and in combination with low estradiol levels leads to high bone resorption rates.[4]
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