Masuyama Ritsuko, Nakaya Yumi, Katsumata Shinichi, Kajita Yasutaka, Uehara Mariko, Tanaka Shinya, Sakai Akinori, Kato Shigeaki, Nakamura Toshitaka, Suzuki Kazuharu
Department of Nutritional Science, Tokyo University of Agriculture, Tokyo, Japan.
J Bone Miner Res. 2003 Jul;18(7):1217-26. doi: 10.1359/jbmr.2003.18.7.1217.
The effects of the dietary Ca and P ratio, independent of any vitamin D effects, on bone mineralization and turnover was examined in 60 VDRKO mice fed different Ca/P ratio diets. High dietary Ca/P ratio promoted bone mineralization and turnover with adequate intestinal Ca and P transports in VDRKO mice.
To clarify the effects of the dietary calcium (Ca) and phosphorus (P) ratio (Ca/P ratio) on bone mineralization and turnover in null-vitamin D signal condition, vitamin D receptor knockout (VDRKO) mice were given diets containing different Ca/P ratios.
Five groups of 4-week-old VDRKO mice, 10 animals each, were fed diets for 4 weeks. Group 1 was wild-type littermate mice, fed the diet containing 0.5% Ca and P (Ca/P = 1). Group 2 was the control and was fed a similar diet (Ca/P = 1). Groups 3, 4, 5, and 6 were fed the following diets: 0.5% Ca and 1.0% P (Ca/P = 0.5), 1.0% Ca and 1.0% P (Ca/P = 1), 1.0% Ca and 0.5% P (Ca/P = 2), and 0.5% Ca and 0.25% P (Ca/P = 2).
Compared with group 2, serum calcium and phosphorus levels in groups 4-6 significantly increased. Serum parathyroid hormone levels increased in group 3 and decreased in group 5. The amounts of intestinal calcium absorption decreased in groups 3 and 4. Phosphorus absorption increased in group 3 and decreased in groups 4-6. Bone mineral content (BMC) and bone mineral density (BMD) of the femur in group 3 significantly decreased and increased in group 5. In the primary spongiosa of the proximal tibia, the trabecular bone volume (BV/TV) and osteoid thickness (O.Th) in group 3 significantly increased, and decreased in group 6. In groups 5 and 6, the numbers of the trabecular osteoclasts increased. In groups 2 and 4, and the secondary spongiosa was identified in 5 of 10 mice. In group 3, there was no secondary spongiosa in either mouse. Osteoid maturation time (OMT) significantly decreased, and bone formation rate (BFR/BS) increased in groups 4-6. These data indicate that the dietary Ca/P ratio regulates bone mineralization and turnover by affecting the intestinal calcium and phosphorus transports in VDRKO mice. They may suggest the existence of Ca/P ratio-dependent, vitamin D-independent calcium and phosphorus transport system in the intestine.
在60只喂食不同钙磷比例饮食的维生素D受体敲除(VDRKO)小鼠中,研究了饮食中钙磷比例(独立于任何维生素D作用)对骨矿化和骨转换的影响。高饮食钙磷比例促进了VDRKO小鼠的骨矿化和骨转换,同时肠道钙磷转运充足。
为了阐明在维生素D信号缺失条件下饮食中钙(Ca)和磷(P)比例(钙磷比)对骨矿化和骨转换的影响,给维生素D受体敲除(VDRKO)小鼠喂食含有不同钙磷比的饮食。
将五组4周龄的VDRKO小鼠,每组10只,喂食4周。第1组为野生型同窝小鼠,喂食含0.5%钙和磷(钙磷比 = 1)的饮食。第2组为对照组,喂食类似饮食(钙磷比 = 1)。第3、4、5和6组喂食以下饮食:0.5%钙和1.0%磷(钙磷比 = 0.5)、1.0%钙和1.0%磷(钙磷比 = 1)、1.0%钙和0.5%磷(钙磷比 = 2)以及0.5%钙和0.25%磷(钙磷比 = 2)。
与第2组相比,第4 - 6组血清钙和磷水平显著升高。第3组血清甲状旁腺激素水平升高,第5组降低。第3和4组肠道钙吸收量减少。第3组磷吸收增加,第4 - 6组减少。第3组股骨的骨矿物质含量(BMC)和骨矿物质密度(BMD)显著降低,第5组增加。在胫骨近端的初级骨小梁中,第3组的骨小梁体积(BV/TV)和类骨质厚度(O.Th)显著增加,第6组减少。第5和6组骨小梁破骨细胞数量增加。第2和4组,10只小鼠中有5只出现次级骨小梁。第3组两只小鼠均无次级骨小梁。第4 - 6组类骨质成熟时间(OMT)显著缩短,骨形成率(BFR/BS)增加。这些数据表明,饮食钙磷比通过影响VDRKO小鼠肠道钙磷转运来调节骨矿化和骨转换。它们可能提示肠道中存在钙磷比依赖性、维生素D非依赖性的钙磷转运系统。
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