Structural requirements for bisphosphonate actions in vitro

We investigated the structural requirements for the binding of bisphosphonates to bone mineral and the relation between their affinity for bone and their effects on bone resorption in vitro. For this we used fetal mouse long bones in culture and bisphosphonates with variable R1 and R2 structures. In addition, we studied the effect of structural differences in the incorporation of calcium into bone. We found that bisphosphonates containing a hydroxyl group in the R1 position have the highest affinity for bone mineral. This was related to their capacity to inhibit the incorporation of calcium into long bones but not to their antiresorptive potency. The latter was primarily determined by R2. Furthermore, the effect of bisphosphonates on calcification, but not on resorption of bone explants, was mainly determined by the mode of addition. The continuous presence of bisphosphonate during culture inhibited calcification even at very low concentrations, but short incubation of the bones with relatively high concentrations had no effect. This is probably a result of differences in the availability of the compound to the process of calcification. Because, in vivo, the more potent bisphosphonates inhibit resorption without adversely affecting mineralization of the skeleton and they disappear rapidly from the circulation after administration, we suggest that cultures of bone explants incubated with bisphosphonates for short times rather than cultures in which the drugs are continuously present provide more accurate information about the in vivo effect of these compounds on both resorption and calcification.

[1]  C. Löwik,et al.  Two distinct effects of recombinant human tumor necrosis factor-alpha on osteoclast development and subsequent resorption of mineralized matrix. , 1991, Endocrinology.

[2]  H. Fleisch Bisphosphonates , 2012, Drugs.

[3]  P. Boonekamp,et al.  Enhancement of the inhibitory action of APD on the transformation of osteoclast precursors into resorbing cells after dimethylation of the amino group. , 1987, Bone and mineral.

[4]  E H Burger,et al.  Increased calcification of growth plate cartilage as a result of compressive force in vitro. , 1986, Arthritis and rheumatism.

[5]  R. J. Sunberg,et al.  DESIGNING DRUGS FOR STRONGER BONES , 1991 .

[6]  N. Hamdy Role of bisphosphonates in metabolic bone diseases , 1993, Trends in Endocrinology & Metabolism.

[7]  T. Martin,et al.  Bisphosphonates act on rat bone resorption through the mediation of osteoblasts. , 1993, The Journal of clinical investigation.

[8]  R. Valkema,et al.  The use of bisphosphonates in the treatment of osteoporosis. , 1992, Bone.

[9]  G. van der Pluijm,et al.  Migration and phenotypic transformation of osteoclast precursors into mature osteoclasts: The effect of a bisphosphonate , 1988, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[10]  F. H. Ebetino,et al.  Bisphosphonates: Molecular Modelling, Structure-Activity Relationships and the Rational Design of New Analogs , 1993 .

[11]  J. Bevan,et al.  Antiresorptive dose-response relationships across three generations of bisphosphonates. , 1989, Drugs under experimental and clinical research.

[12]  E H Burger,et al.  In vitro formation of osteoclasts from long-term cultures of bone marrow mononuclear phagocytes , 1982, The Journal of experimental medicine.

[13]  P. Nijweide,et al.  Leukemia inhibitory factor inhibits osteoclastic resorption, growth, mineralization, and alkaline phosphatase activity in fetal mouse metacarpal bones in culture , 1993, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[14]  G. Rodan,et al.  Bisphosphonate action. Alendronate localization in rat bone and effects on osteoclast ultrastructure. , 1991, The Journal of clinical investigation.

[15]  C. Löwik,et al.  Application of an in vitro model and a clinical protocol in the assessment of the potency of a new bisphosphonate , 1989, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[16]  G. Kasting,et al.  Retention of etidronate in human, dog, and rat , 1992, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[17]  Bijvoet Ol,et al.  Two modes of action of bisphosphonates on osteoclastic resorption of mineralized matrix. , 1986 .