We have demonstrated that synovial MSCs derived from the knee joints of aging human donors possess chondrogenic potential. Under serum-free culturing conditions and in the absence of dexamethasone, BMP-2 and BMP-7 were the most potent inducers of this transformation process.
We randomly assigned 17 patients with scaphoid non-union at the proximal pole to three treatment groups: (1) autologous iliac graft (n=6), (2) autologous iliac graft + osteogenic protein-1 (OP-1; n=6), and (3) allogenic iliac graft + OP-1 (n=5). Radiographic, scintigraphic, and clinical assessments were performed throughout the follow-up period of 24 months. OP-1 improved the performance of both autologous and allogenic bone implants and reduced radiographic healing time to 4 weeks compared with 9 weeks in group 1. Helical CT scans and scintigraphy showed that in OP-1-treated patients sclerotic bone was replaced by well-vascularised bone. The addition of OP-1 to allogenic bone implant equalised the clinical outcome with the autologous graft procedure. Consequently the harvesting of autologous graft can be avoided.Résumé Nous avons réparti 17 malades avec une pseudarthrose du pôle proximal du scaphoide en trois groupes aléatoires de traitement: (1) greffe autologue iliaque (n=6), (2) greffe autologue iliaque + protéine osteogenique-1 (OP-1; n=6), et (3) greffe allogène iliaque + OP-1 (n=5). L'estimation radiographique, scintigraphique et clinique a été exécutée pendant une période de suivi de 24 mois. L'OP-1 a amélioré la performance des autogreffes et des allogreffes osseuses et a réduit le temps curatif radiographique à 4 semaines, comparé à 9 semaines dans le groupe traité uniquement avec de l'os autologues. Chez les malades traités avec l'OP-1, la tomodensitométrie hélicoïdale et la scintigraphie ont montré que l'os scléreux était remplacé par de l'os bien vascularisé. L'addition d'OP-1 à la greffe allogène a égalisé le résultat clinique avec la procédure de greffe autologue et a permis de supprimer le temps de prise de greffe.
Bone morphogenetic proteins (BMPs) are members of the transforming growth factor-beta (TGF-beta) gene superfamily of growth and differentiation factors. Members of the BMP family were originally cloned and characterized by their ability to induce ectopic bone formation. Of the various BMPs cloned, the bone inductive ability of BMP-7 (OP-1) and BMP-2 has been well characterized. Both BMP-7 and -2 have been shown to have clinical utility in the healing of non-union fractures. However, in spite of the various advances in BMP research, the physiological regulation of BMPs is not well understood. Here we studied the expression of BMP-7 by cloning a 4.6-kB fragment of the human BMP-7 promoter (hBMP-7p) and placing it upstream of a luciferase reporter. The promoter reporter construct was stably transfected into different cell backgrounds and its regulation by various factors was investigated. We show that retinoic acid (RA) treatment results in an upregulation of the hBMP-7p reporter activity. This regulation of the hBMP-7p was further confirmed by Northern blot, PCR, and Western blot analyses, which showed an increase in both BMP-7 mRNA and protein expression upon treatment with RA. We further show that RA specifically upregulates expression of osteocalcin via activation of BMP-7 mRNA and protein in vitro. Similarly, prostaglandin E(2) (PGE(2)) treatment increases BMP-7 mRNA and protein levels, but does not transcriptionally activate the hBMP-7p. Additionally, in vivo expression of BMP-7 in bone was increased upon PGE(2) treatment. In conclusion, RA and PGE(2) upregulate BMP-7 protein expression both in vitro and in vivo.
The requirement of a bone morphogenetic protein for the maintenance and stimulation of an osteoblast phenotype was examined using mouse MC3T3-E1 cell cultures. Cells expressed BMP-4 mRNA, which correlated with the stimulation of the osteoblast phenotype. The addition of a BMP-4 specific antibody reduced bone nodules, suggesting that BMP-4 is required for the osteogenic activity of osteoblasts in an autocrine manner. Exogenously added BMP-7 gradually decreased the expression of BMP-4 with a concurrent stimulation of the osteoblast phenotype. Exogenous BMP-7 can therefore substitute for endogenously produced BMP-4 acting as a paracrine factor on osteoblasts. The addition of 17beta estradiol decreased BMP-4 expression but initiated synthesis of BMP-6 mRNA, an endocrine signal for osteoblasts, which also substituted for the lack of endogenous BMP-4, as evidenced by normal bone nodule formation. The addition of dexamethasone and parathyroid hormone did not affect the BMP-4 expression but induced transcripts for BMP-2 and BMP-3, respectively, suggesting that their effects on bone can be in part achieved via the BMP signaling. These experiments support the requirement of a BMP for osteoblast differentiation and function, demonstrating for the first time that a BMP can functionally substitute for another BMP in an autocrine/paracrine manner or mediate a response to an endocrine action on osteoblasts.
Bone morphogenetic proteins (BMPs) are potent osteogenic proteins that induce new bone formation in vivo. However, their effect on bone healing in the trabecular bone surfaces remains challenging. We evaluated the safety and efficacy of recombinant human BMP6 (rhBMP6) applied within an autologous blood coagulum (ABC) in a surgically created wedge defect of the proximal tibia in patients undergoing high tibial osteotomy (HTO) for varus deformity and medial osteoarthritis of the knee. We enrolled 20 HTO patients in a randomized, placebo-controlled, double-blinded phase I/II clinical trial. RhBMP6/ABC (1.0 mg/10 mL ABC prepared from peripheral blood) or placebo (10 mL ABC containing excipients) was administered into the tibial wedge defects. Patients were followed for 0 to 24 months by clinical examination (safety) and computed tomography (CT) and serial radiographic analyses (efficacy). The results show that there were no detectable anti-rhBMP6 antibodies in the blood of any of the 20 patients at 14 weeks after implantation. During the 24 months of follow-up, there were no serious adverse reactions recorded. The CT scans from defects of patients treated with rhBMP6/ABC showed an accelerated bone healing compared with placebo at 9 weeks (47.8 ± 24.1 versus 22.2 ± 12.3 mg/cm 3 ; p = 0.008) and at 14 weeks (89.7 ± 29.1 versus 53.6 ± 21.9 mg/cm 3 ; p = 0.006) follow-up. Radiographic analyses at weeks 6 and 24 and months 12 and 24 suggested the advanced bone formation and remodeling in rhBMP6/ABC-treated patients. In conclusion, we show that rhBMP6/ABC at a dose of 100 μg/mL accelerated bone healing in patients undergoing HTO without serious adverse events and with a good tolerability compared with placebo alone. Overall, for the first time, a BMP-based osteogenic implant was examined against a placebo for bone healing efficacy in the trabecular bone surface, using an objective bone mineral density measurement system.
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S U M M A R YHighly purified primitive hemopoietic stem cells express BMP receptors but do not synthesize bone morphogenetic proteins (BMPs). However, exogenously added BMPs regulate their proliferation, differentiation, and survival. To further explore the mechanism by which BMPs might be involved in hemopoietic differentiation, we tested whether stromal cells from long-term culture (LTC) of normal human bone marrow produce BMPs, BMP receptors, and SMAD signaling molecules. Stromal cells were immunohistochemically characterized by the presence of lyzozyme, CD 31, factor VIII, CD 68, S100, alkaline phosphatase, and vimentin. Gene expression was analyzed by RT-PCR and the presence of BMP protein was confirmed by immunohistochemistry (IHC). The supportive role of the stromal cell layer in hemopoiesis in vitro was confirmed by a colony assay of clonogenic progenitors. Bone marrow stromal cells express mRNA and protein for BMP-3, -4, and -7 but not for BMP-2, -5, and -6 from the first to the eighth week of culture. Furthermore, stromal cells express the BMP type I receptors, activin-like kinase-3 (ALK-3), ALK-6, and the downstream transducers SMAD-1, -4, and -5. Thus, human bone marrow stromal cells synthesize BMPs, which might exert their effects on hemopoietic stem cells in a paracrine manner through specific BMP receptors.
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