Nutritional supplements for stimulating bone growth

Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Phosphorus containing other than solely as part of an...

Reexamination Certificate

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C514S451000

Reexamination Certificate

active

06410521

ABSTRACT:

TECHNICAL FIELD
The invention relates to foodstuffs and nutritional supplements which contain active ingredients that stimulate bone growth in humans and other vertebrates. More specifically, the invention concerns methods to enhance bone growth by supplementing the diet of humans and domesticated animals with edible materials that contain statins or other bone growth enhancers and by formulating such enhancers in edible form.
BACKGROUND ART
Bone is subject to constant breakdown and resynthesis in a complex process mediated by osteoblasts, which produce new bone, and osteoclasts, which destroy bone. The activities of these cells are regulated by a large number of cytokines and growth factors, many of which have now been identified and cloned.
There is a plethora of conditions which are characterized by the need to enhance bone formation. Perhaps the most obvious is the case of bone fractures, where it would be desirable to stimulate bone growth and to hasten and complete bone repair. Agents that enhance bone formation would also be useful in facial reconstruction procedures. Other bone deficit conditions include bone segmental defects, periodontal disease, metastatic bone disease, osteolytic bone disease and conditions where connective tissue repair would be beneficial, such as healing or regeneration of cartilage defects or injury. Also of great significance is the chronic condition of osteoporosis, including age-related osteoporosis and osteoporosis associated with post-menopausal hormone status. Other conditions characterized by the need for bone growth include primary and secondary hyperparathyroidism, disuse osteoporosis, diabetes-related osteoporosis, and glucocorticoid-related osteoporosis.
One group of compounds suggested for enhancing bone formation comprises bone morphogenic proteins (BMPs). The BMPs are novel factors in the extended transforming growth factor &bgr; superfamily. Recombinant BMP-2 and BMP-4 can induce new bone formation when they are injected locally into the subcutaneous tissues of rats (Wozney J.,
Molec Reprod Dev
(1992) 32:160-67). These factors are expressed by normal osteoblasts as they differentiate, and have been shown to stimulate osteoblast differentiation and bone nodule formation in vitro as well as bone formation in vivo (Harris S., et al.,
J. Bone Miner Res
(1994) 9:855-63). This latter property suggests potential usefulness as therapeutic agents in diseases which result in bone loss.
The cells which are responsible for forming bone are osteoblasts. As osteoblasts differentiate from precursors to mature bone-forming cells, they express and secrete a number of enzymes and structural proteins of the bone matrix, including Type-1 collagen, osteocalcin, osteopontin and alkaline phosphatase (Stein G., et al.,
Curr Opin Cell Biol
(1990) 2:1018-27; Harris S., et al. (1994), supra). They also synthesize a number of growth regulatory peptides which are stored in the bone matrix, and are presumably responsible for normal bone formation. These growth regulatory peptides include the BMPs (Harris S., et al. (1994), supra). In studies of primary cultures of fetal rat calvarial osteoblasts, BMPs 1, 2, 3, 4, and 6 are expressed by cultured cells prior to the formation of mineralized bone nodules (Harris S., et al. (1994), supra). Like alkaline phosphatase, osteocalcin and osteopontin, the BMPs are expressed by cultured osteoblasts as they proliferate and differentiate.
Although the BMPs are potent stimulators of bone formation in vitro and in vivo, there are disadvantages to their use as therapeutic agents to enhance bone healing. Receptors for the bone morphogenetic proteins have been identified in many tissues, and the BMPs themselves are expressed in a large variety of tissues in specific temporal and spatial patterns. This suggests that BMPs may have effects on many tissues in addition to bone, potentially limiting their usefulness as therapeutic agents when administered systemically. Moreover, since they are peptides, they would have to be administered by injection. These disadvantages impose severe limitations to the development of BMPs as therapeutic agents.
Small molecules that are useful in treating bone disorders in vertebrates are of the general formula Ar
1
—L—Ar
2
wherein Ar
1
and Ar
2
are aromatic moieties and L is a linker that separates them by a specified distance. These are disclosed in PCT application WO98/17267 published Apr. 30, 1998. These compounds were assessed for usefulness in treating bone disorders by their ability to enhance the production of a reporter protein when the nucleotide sequence encoding the reporter protein is operably linked to the promoter for BMP-2. Similar compounds are disclosed for this purpose in earlier filed PCT applications WO97/15308 published May 1, 1997 and WO97/48694 published Dec. 24, 1997.
Another class of compounds comprises inhibitors of &bgr;-hydroxy-&bgr;-methyl glutaric acid CoA (HMG-CoA) reductase. These compounds also enhance bone formation; they are generically known as “statins.” HMG-CoA reductase is the principal rate limiting enzyme involved in cellular cholesterol biosynthesis. The pathway is also responsible for the production of dolichol, ubiquinones, isopentenyl adenine and farnesol. HMG-CoA reductase converts 3-hydroxy-3-methyl-glutaryl CoA (HMG-CoA) to mevalonate. Addition of mevalonate at concentrations between 25-800 &mgr;M inhibits the activity of mevastatin (100, 25, or 6.25 &mgr;M) in the ABA assay described in Example 1 herein. Mevalonic acid has no effect on primary screen activities of bone growth-active compounds outside of the statin family (compounds 59-0008 (see Example 1)). These data indicate that the effect of mevastatin in the ABA assay is mediated by its effect on HMG-CoA reductase. Knowledge of inhibitors of the cholesterol biosynthetic pathway (including SAR or pharmacophore analyses) may be useful in determining appropriate modifications or analogs of the statins that maintain bone growth activity.
U.S. Pat. No. 5,280,040 discloses compounds described as useful in the treatment of osteoporosis. These compounds putatively achieve this result by preventing bone resorption. Related to these compounds are the bisphosphonates—the methylene bisphosphonic acids. These compounds are comprised of two phosphonic acid residues coupled through a methylene linkage. Typical representatives include the clodronates which are simple compounds wherein the phosphonic acid residues are coupled through dichloromethylene. Other representative bisphosphonates include ibandronates, the risedronates, alandronates and pamidronates. These compounds have been shown to inhibit the resorption of bone, presumably by effecting apoptosis of osteoclasts. Luckman, S. P., et al.,
J Bone Min Res
(1998) 13:581-589.
Wang, G.-J., et al.,
J Formos Med Assoc
(1995) 94:589-592 report that certain lipid clearing agents, exemplified by lovastatin and bezafibrate, were able to inhibit the bone resorption resulting from steroid administration in rabbits. However, there is no suggestion in Wang, et al., that lovastatin directly enhances bone formation. An abstract entitled “Lovastatin Prevents Steroid-Induced Adipogenesis and Osteoporosis” by Cui, Q., et al., appeared in the Reports of the ASBMR 18th Annual Meeting (September 1996)
J. Bone Mineral Res.
(1996) 11(S1):S510. The abstract reports that lovastatin diminished triglyceride vesicles that accumulated when osteoprogenitor cells cloned from bone marrow stroma of chickens were treated in culture with dexamethasone. Lovastatin was reported to diminish the expression of certain mRNAs and to allow the cells to maintain the osteogenic phenotype after dexamethasone treatment. Further, chickens that had undergone bone loss in the femoral head as a result of dexamethasone treatment were improved by treatment with lovastatin. Again, there is no suggestion that lovastatin directly enhances bone formation in the absence of steroid treatment. In addition, PCT publication WO99/45923 describes methods of inhibiting bone resorption by administering an H

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