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Bone maturation in the vitamin D, phosphate deficient rat and the response to acid loading

  • Laboratory Investigations
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Summary

Vitamin D and phosphate deficiency were produced in rats in order (a) to evaluate the degree of bone mineral and matrix maturation using a bromoform/toluene density gradient technique; and (b) to compare the aforementioned bone maturational changes due to vitamin D and phosphate deprivation to those produced with superimposed severe acidosis. Rats were fed a diet deficient in vitamin D and phosphorus (0.2%) from 3 weeks through 7 weeks of age. To examine the additional contribution of dietary calcium, we gave one-half of the animals either a low (0.06%) or high (1.3%) calcium diet. Following the 4 weeks of vitamin D deficiency, one-half of each group was given 1.8% NH4Cl in the drinking water for 4 succeeding days to induce an acute, severe acidosis. The degree of bone maturation was quantitated via bromoformtoulene density gradient fractionation; total mineral and hydroxyproline (collagen) levels were quantitated as well.

The vitamin D-deficient rats deprived of adequate dietary phosphate responded by conserving phosphorus, and as a consequence total bone phosphorus levels were maintained within that level for control rats. This conservation was independent of calcium intake but was extremely sensitive to acute acid loading, where a significant reduction in total bone phosphorus was noted.

The bone maturational profile obtained from the vitamin D-phosphate deficient rats, however, revealed a significant accumulation of less mature or dense bone collagen and mineral with a corresponding decrease in the most mature or dense moieties. In contrast to the reduction of the total bone phosphorus content by acute acidosis, the skeletal collagen-mineral maturational profile was not significantly affected by the short-term systemic acidosis.

The observed retardations in the bone collagen and mineral maturation of the vitamin D-deficient, phosphate-deprived state provide an additional observation which may well relate to the progressive osteopenia documented in states of chronic, mild acidosis.

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Author notes

  1. J. E. Russell

    Present address: Washington University School of Dental Medicine, 63110, St. Louis, MO, USA

Authors and Affiliations

  1. Division of Bone and Mineral Metabolism, Washington University School of Medicine, The Jewish Hospital of St. Louis, 63110, St. Louis, Missouri, USA

    J. E. Russell & L. V. Avioli

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  1. J. E. Russell
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  2. L. V. Avioli
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Russell, J.E., Avioli, L.V. Bone maturation in the vitamin D, phosphate deficient rat and the response to acid loading. Calcif Tissue Int 27, 233–237 (1979). https://doi.org/10.1007/BF02441191

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  • DOI: https://doi.org/10.1007/BF02441191

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