vitamin-d3-sulfoconjugate and Vitamin-D-Deficiency

Sulfoconjugated vitamin D has been claimed to have an important antirachitic activity and to be present at higher amounts than free vitamin D in maternal milk. We have previously shown that vitamin D3-3 beta sulfate (SD3) administration has little effect on calcium and bone metabolism during pregnancy in rats. In the present work, we have compared the biological activity of free vitamin D3 (D3) and SD3 during the lactation period. After delivery, D-depleted (-D) female rats were orally treated with D3 or SD3 (1,300 pmoles/every two days) during 20 days of lactation. Vitamin D status was determined before, during and at the end of the treatment for mother rats and at days 1 and 20 of life in suckling pups. Both mothers and pups were sacrificed at day 20 of lactation and subjected to hormonal and mineral determinations and to histomorphometric analysis of bone metabolism. After 12 days of SD3 treatment, mother rats showed a slight but significant elevation in plasma concentrations of calcium phosphorus and vitamin D metabolites. This effect was reversed at the end of lactation; at this time most maternal plasma parameters did not differ from those observed in -D non-treated mothers. By contrast, 20 days of D3 administration in mothers normalized plasma biochemical parameters. These results were confirmed by analysis of both static and dynamic parameters of bone formation. Maternal SD3 treatment did not improve either plasma biochemical or histological parameters of bone formation and resorption in suckling pups which remained comparable to that of D-deficient pups; by contrast, pups from D3-treated mothers normalized most biochemical plasma parameters although bone metabolism remained abnormal. In conclusion, the biological activity of SD3 on bone and mineral metabolism during lactation in rats is as low as in the nonreproductive stages.

Topics: Animals; Bone and Bones; Bone Development; Calcium; Cholecalciferol; Female; Lactation; Phosphorus; Pregnancy; Rats; Vitamin D; Vitamin D Deficiency

The biological activities of free (D3) and sulfoconjugated (SD3) vitamin D3 were compared after 6 weeks of oral administration to D-deficient (-D) female rats which were mated in the meantime. Mothers and pups were sacrificed 1-2 days following parturition and mineral and hormonal plasma status was determined in mothers and bone mineral determinations and bone histomorphometric studies performed. In newborns, plasma levels of Ca, P and 25-hydroxyvitamin D (25(OH)D) were measured. After parturition, -D mothers had decreased body weight (BW) as well as decreased plasma levels of Ca, P and 1,25-dihydroxyvitamin D (1,25(OH)2D) associated with undetectable levels of 25(OH)D. Plasma levels of immunoreactive calcitonin and parathormone, by contrast, were higher than in vitamin D-replete (+D) control mothers. Bone histomorphometric analysis showed osteomalacia and secondary hyperparathyroidism in -D mothers. After parturition, -D +SD mothers had reduced BW compared to D-treated mothers and the plasma parameters measured were abnormal. Almost all bone histomorphometric parameters were found to be intermediate between +D and -D groups without reaching values of +D mothers. By contrast, -D +D mothers had most of the bone formation parameters identical to those of +D mothers. However, bone resorption was still higher while plasma levels of P and 25(OH)D remained slightly, but significantly lower than in +D mothers. In pups, plasma Ca in both D3- and SD3-treated groups was similar to values in +D-treated rats. However, pups from SD3-treated mothers still showed plasma levels of P and 25(OH)D lower than in +D pups. In conclusion, treatment with SD3 in -D mother rats significantly improves the biochemical plasma parameters of pups, but complete normalization can be achieved only in the D3-treated group. Our results show that when administered at equal amounts, SD3 has a much lower biological activity than D3 in -D female rats and cannot therefore replace vitamin D3 particularly during pregnancy.

Topics: Animals; Animals, Newborn; Body Weight; Bone and Bones; Calcifediol; Calcitriol; Calcium; Cholecalciferol; Female; Hyperparathyroidism; Osteomalacia; Parathyroid Hormone; Phosphorus; Pregnancy; Pregnancy Complications; Rats; Vitamin D Deficiency

To determine the biological activity of vitamin D sulfates, we synthesized vitamin D3 3 beta-sulfate and tested its biological activity in vitamin D-deficient hypocalcemic rats. When vitamin D3 sulfate was administered as a single oral dose of 208,000 or 416,000 pmol (100 micrograms or 200 micrograms), it increased active calcium transport in the duodenum and was also able to mobilize calcium from bone and soft tissue. Dose levels below this failed to elicit a response. Vitamin D3 itself was active at doses as low as 260 pmol when administered in this manner. In order to test the biological activity of vitamin D3 sulfate in various doses when administered chronically, we tested the biological activity of vitamin D3 sulfate after 5 days or oral dosing: vitamin D3 sulfate was active at doses of 52,000 pmol/day (25 microgram), whereas vitamin D3 was active at doses of 65 to 260 pmol/day over a period of 5 days. When administered as a single intravenous dose, vitamin D3 sulfate exhibited no biological activity in doses as high as 52,000 pmol. Vitamin D3, however, was active at a dose of as low as 65 pmol. We conclude that vitamin D3 sulfate, a metabolite of vitamin D3 of heretofore unknown biological activity, is considerably less active than vitamin d3 itself.

Topics: Animals; Bone and Bones; Calcium; Cholecalciferol; Dose-Response Relationship, Drug; Homeostasis; Intestinal Absorption; Male; Phosphates; Rats; Vitamin D Deficiency