Parathyroid hormone (1-34) (rat)

Objective:Parathyroid hormone 1-34 (PTH[1-34]), a parathyroid hormone analog, shares the same receptor, PTH receptor 1, with parathyroid hormone-related peptide (PTHrP). This study was undertaken to address the hypothesis that PTH(1-34) inhibits terminal differentiation of articular chondrocytes and in turn suppresses the progression of osteoarthritis (OA).Methods:We studied the effect of PTH(1-34) on human articular chondrocytes with azacytidine (azaC)-induced terminal differentiation in vitro and on papain-induced OA in the knee joints of rats. In the in vitro study, we measured the levels of messenger RNA for SOX9, aggrecan, type II collagen, type X collagen, alkaline phosphatase (AP), Indian hedgehog (IHH), Bcl-2, and Bax by real-time polymerase chain reaction, levels of glycosaminoglycan (GAG) by dimethylmethylene blue assay, and rate of apoptosis by TUNEL staining. In the in vivo study, we evaluated the histologic changes in GAG, type II collagen, type X collagen, and chondrocyte apoptosis in the articular cartilage of rat knees.Results:AzaC induced terminal differentiation of human chondrocytes, including down-regulation of aggrecan, type II collagen, and GAG and up-regulation of type X collagen, alkaline phosphatase, and IHH. Apoptosis was reversed by 3-10 days of treatment with 10 nM PTH(1-34). SOX9 expression was not changed by either azaC or PTH(1-34) treatment. Bcl-2 and Bax were up-regulated on day 10 and day 14, respectively, after azaC induction of terminal differentiation, but PTH(1-34) treatment did not reverse this effect. Furthermore, PTH(1-34) treatment reversed papain-induced OA changes (decreasing GAG and type II collagen, and increasing type X collagen and chondrocyte apoptosis) in the knee joints of rats.Conclusion:Our findings indicate that PTH(1-34) inhibits the terminal differentiation of human articular chondrocytes in vitro and inhibits progression of OA in rats in vivo, and may be used to treat OA.

The objective of this study was to investigate whether intermittent administration of parathyroid hormone [1-34] (PTH[1-34]) promotes tendon-bone healing after anterior cruciate ligament (ACL) reconstruction in vivo. A rat model of ACL reconstruction with autograft was established at the left hind leg. Every day, injections of 60 μg PTH[1-34]/kg subcutaneously were given to the PTH group rats (n=10) for four weeks, and the controls (n=10) received saline. The tendon-bone healing process was evaluated by micro-CT, biomechanical test, histological and immunohistochemical analyses. The effects of PTH[1-34] on serum chemistry, bone microarchitecture and expression of the PTH receptor (PTH1R) and osteocalcin were determined. Administration of PTH[1-34] significantly increased serum levels of calcium, alkaline phosphatase (AP), osteocalcin and tartrate-resistant acid phosphatase (TRAP). The expression of PTH1R on both osteocytes and chondrocyte-like cells at the tendon-bone interface was increased in the PTH group. PTH[1-34] also enhanced the thickness and microarchitecture of trabecular bone according to the micro-CT analysis. The results imply that systematically intermittent administration of PTH[1-34] promotes tendon-bone healing at an early stage via up-regulated PTH1R. This method may enable a new strategy for the promotion of tendon-bone healing after ACL reconstruction.

The aim of this study was to evaluate the effect of a lower dose of parathyroid hormone- PTH (1-34) on osteogenic potential of bone healing around titanium implants inserted into the tibia of rats. A blind parallel study was conducted in 45 adult male Wistar rats. Each rat received one titanium implant (4.5 x 2.2 mm) and was randomly assigned to receive subcutaneous injections, three times/week for 30 days, of the following treatments: group 1 - 40 µg/kg of PTH (1-34) (n=15); group 2 - 2 µg/kg of PTH (1-34) (n=15) and; group 3 - only the vehicle required for hormone dissolution (n=15). Thirty days after surgery, the animals were sacrificed and specimens containing the implant and the surrounding bone were removed and processed for non-decalcified sections. The sections were evaluated according to the following histometric parameters: proportion of mineralized tissue (PMT) adjacent to the implant threads (500 µm band); bone filling within the limits of the threads (BF) and; bone-to-implant contact (BIC). For the cortical region, both hormone dosages (groups 1 and 2) promoted better results, for all parameters, when compared to control group (p<0.05). Similar results were observed for the BF parameter in the cancellous region (p=0.0394). Therefore, systemic administration of PTH (1-34) stimulates bone formation around titanium implants, even at low doses.