Kunitaka Menuki

Climbing exercise enhances osteoblast differentiation and inhibits adipogenic differentiation with high expression of PTH/PTHrP receptor in bone marrow cells

We developed previously a mouse voluntary climbing exercise model as a physiological mechanical loading model and reported that climbing exercise increased bone formation, but its effect on adipogenesis is unknown. We assessed the effects of loading and PTH/PTHrP receptor (PTHR1) on bone marrow adipocyte differentiation in relation with osteoblast differentiation. 8-week-old C57BL/6J male mice were divided into ground control (GC) and climbing exercise (EX) group. Mice were housed in 100-cm towers and climbed up toward a bottle placed at the top of the cage to drink water. The values of bone volume and osteoblast number were significantly higher while those of marrow adipocyte volume and number were significantly lower in the 28dayEX group than 28dayGC group. The mRNA expression levels of adipocyte differentiation genes CCAAT/enhancer-binding proteins (C/EBP) beta and delta were lower in 4dayEX mice, while the adipocyte specific genes fatty acid binding protein (aP2) and phosphoenolpyruvate carboxykinase (PEPCK) expressions were lower in 7dayEX mice. In primary bone marrow cell cultures, the number of alkaline phosphatase-positive colony forming units-fibroblastic (ALP+ CFU-f) and Oil-red-O-positive cells were both increased in the 4dayEX group. Climbing exercise transiently increases both osteogenic and adipogenic potential in bone marrow stromal cells, and inhibits terminal adipocyte differentiation and promotes osteoblast differentiation. Immunoreactivity for the PTHR1 was intense on osteoblastic cell lineage in the endosteal tibial metaphysis. PTHR1 mRNA expression was increased in 4dayEX mice and PTHR1-positive cells were increased after 7 days in the experimental group. Ex vivo addition of PTHR1 antibody decreased and that of PTHrP(1-34) increased the number of ALP+ CFU-f in bone marrow cell cultures obtained at 4 days after the exercise, while the addition of PTHR1 antibody increased and PTHrP(1-34) decreased the number of Oil-red-O-positive cells. Our results indicate that climbing exercise enhanced osteoblast differentiation and inhibited terminal differentiation of adipocyte progenitors with high expression of PTHR1 in bone marrow cells.

Reduced bone formation in alcohol-induced osteopenia is associated with elevated p21 expression in bone marrow cells in aldehyde dehydrogenase 2-disrupted mice

INTRODUCTION High consumption of alcohol is one of the risk factors for osteoporosis. Approximately 45% of Chinese and Japanese individuals have the inactive aldehyde dehydrogenase 2 (Aldh2) phenotype. The absence of the ALDH2*2 allele is found to adversely influence the risk of osteoporosis. The aim of this study is to clarify the effects of alcohol consumption on osteoblast differentiation in bone marrow and trabecular bone formation in Aldh2-disrupted mice. MATERIALS AND METHODS Seven-week-old male Aldh2 knockout mice (Aldh2(-/-)) and wild-type (Aldh2(+/+)) mice were fed with water (groups Aldh2(-/-)/Wa and Aldh2(+/+)/Wa) or with 5% ethanol (groups Aldh2(-/-)/Al and Aldh2(+/+)/Al) for 4 weeks. At the age of 12 weeks, bone histomorphometry was performed at the secondary spongiosa of the tibias. Bone marrow cells from the bilateral femurs and tibias were used for mRNA expression analysis. RESULTS Histomorphometrical study revealed that trabecular bone was significantly reduced in the Aldh2(-/-)/Al group compared with that in the Aldh2(-/-)/Wa and Aldh2(+/+)/Wa groups. Bone formation rate was significantly decreased in Aldh2(-/-)/Al compared with the other three groups. Quantitative RT-PCR revealed a significant decrease in type I collagen, osterix, osteopontin, and osteocalcin mRNA expressions in Aldh2(-/-)/Al compared with Aldh2(-/-)/Wa. In bone marrow cell cultures, mineralized nodule formation in Aldh2(-/-)/Al was significantly decreased compared with that in Aldh2(+/+)/Wa and Aldh2(-/-)/Wa, while PAK18, a p21-activated kinase inhibitor, recovered the decreased mineralized nodule formation in Aldh2(-/-)/Al. CONCLUSION Alcohol consumption suppressed the differentiation and mineralization of osteoblasts and then reduced trabecular bone formation and bone volume in association with the elevated p21 expression in bone marrow cells, especially in aldehyde dehydrogenase 2-disrupted mice.

Selective cyclooxygenase-2 inhibitor prevents reduction of trabecular bone mass in collagen-induced arthritic mice in association with suppression of RANKL/OPG ratio and IL-6 mRNA expression in synovial tissues but not in bone marrow cells

We performed this study to clarify whether celecoxib, a selective cyclooxygenase-2 (COX-2) inhibitor, prevents trabecular bone mass reduction by suppressing arthritis-related increase of bone resorption, and to discriminate differences in actions on bone among celecoxib, SC-58560 (a selective COX-1 inhibitor), and indomethacin. Eight-week-old DBA/1J male mice were divided into six groups as follows. Control untreated (Normal) and collagen-induced arthritic (CIA) mice were compared with four treatment groups: celecoxib was orally administered to CIA mice at doses of 0 (Vehicle), 16 (COX2L), and 75 (COX2H) mg/kg, in addition to two groups of mice treated with SC-58560 (COX1) or indomethacin (IND). Histomorphometry showed a significant decrease in tibial trabecular bone volume in arthritic mice, which was corrected by COX2H. The increased osteoclast surface and number in the Vehicle group were suppressed by COX2L, COX2H, and IND. The decreased bone formation rate in Vehicle was elevated by COX2H without statistical significance. A high ratio of mRNA expression of receptor activator of NF-κB ligand (RANKL)/osteoprotegerin (OPG) in Vehicle synovial tissue was suppressed by COX2L and COX2H. The increased expression of interleukin (IL)-6 mRNA in Vehicle was suppressed by COX2L, COX2H, and IND, although no difference in this expression was observed in bone marrow cells among all groups. In conclusion, in CIA mice, celecoxib suppresses arthritis-related increase in bone resorption at low and high doses and prevents trabecular bone mass reduction at high doses in association with suppression of osteoclast development in bone marrow through inhibition of RANKL/OPG ratio and IL-6 mRNA expression in inflammatory synovial tissue.

Mechanical Comparison of Novel Bioabsorbable Plates with Titanium Plates and Small-Series Clinical Comparisons for Metacarpal Fractures

BACKGROUND The use of bioabsorbable implants to negate the need for subsequent removal could offer major clinical advantages for the fixation of fractures. The aims of this study were to compare the mechanical properties of novel bioabsorbable plates with those of titanium plates in a fracture model and to demonstrate the clinical results of the use of these new plates for metacarpal fractures. METHODS The first set of experiments compared the mechanical properties of bioabsorbable and titanium plates. Two types of bioabsorbable plates (one-third tubular and semi-tubular in cross-section) made of hydroxyapatite/poly-L-lactide and two types of titanium plates (for 1.5 and 2.0-mm screws) were tested. Each plate was fixed on a polyether ether ketone (PEEK) rod, which was transversely cut at its midsection. The second part of the study compared the clinical results associated with the bioabsorbable and titanium plates that were used in sixteen nonrandomized consecutive patients with metacarpal fractures. RESULTS The bending strength and stiffness of one-third tubular bioabsorbable plate constructs were comparable with those of titanium plates for 1.5-mm screws, and those of one-half tubular bioabsorbable plates were comparable with those of titanium plates for 2.0-mm screws. The mean torsional strength (and standard deviation) of the semi-tubular bioabsorbable plates (79.0 ± 7.9 N.cm) was significantly greater than that of titanium plates for 2.0 mm screws (56.7 ± 4.0 N.cm) (p < 0.05). There were no significant differences in six-month postoperative clinical results between patients who received bioabsorbable plates and those who received titanium plates (total range of active motion, 267.0° ± 6.0° compared with 250.0° ± 28.3°; grip strength, 92.7% ± 19.7% compared with 86.4% ± 28.6% of that on the contralateral side). CONCLUSIONS The bending strength, stiffness, and torsional strength of novel one-third or semi-tubular bioabsorbable plates, when fixed on a PEEK rod, were comparable with those for titanium plates for 1.5 or 2.0-mm screws. There were no significant differences in clinical results between these two types of plates in a small group of patients after short-term follow-up.

KIENBÖCK DISEASE TREATED BY EXCISIONAL ARTHROPLASTY WITH A PALMARIS LONGUS TENDON BALL: A COMPARATIVE STUDY OF CASES WITH OR WITHOUT BONE CORE

We hypothesised that using a palmaris longus tendon ball (PLTB) with bone core (w bc) after excisional arthroplasty for Kienböck disease would maintain post-operative carpal height compared to a PLTB without bone core (w/o bc). Seventeen hands of 16 consecutive patients with Kienböck disease at Lichtman stage IIIA or IIIB were treated by replacement of the lunate with a PLTB w bc or w/o bc. We evaluated the clinical and radiological outcomes at one, three and 12 months after surgery. According to Dornan and Lichtman criteria respectively, there were no significant differences between the two groups. In the w bc group, the post-operative values of the carpal height ratio (CHR) were maintained at the same level as pre-operative values for one year, while the post-operative CHR values in the w/o bc group were significantly lower than those in the w bc group. Our results indicate that in Kienböck disease, arthroplasty using a PLTB w bc can maintain CHR at one year after surgery compared to arthroplasty using a PLTB w/o bc.

EXTENSOR POLLICIS LONGUS TENDON RUPTURES AFTER THE USE OF VOLAR LOCKING PLATES FOR DISTAL RADIUS FRACTURES

Currently, volar locking plates are commonly used to treat distal radius fractures (DRF) because of their stable biomechanical construct and because they cause less soft tissue disturbance and allow early mobilisation of the wrist. Complications such as rupture of tendons have been reported to occur with use of volar locking plates. We describe six cases of rupture of extensor pollicis longus (EPL) tendons after the use of volar locking plates. EPL tendon injuries occurred in 2.1% (6/286) of cases after DRF surgery. The causes of EPL rupture after DRF surgery were protrusion of the head tip and insufficient reduction of the dorsal roof fragment of the distal radius. These were considered iatrogenic problems. The cause of EPL rupture was unknown in three cases. We should be extremely careful when determining optimum screw length and reducing displaced dorsal roof fragments to prevent damaging the EPL tendons.

Disruption of aldehyde dehydrogenase 2 gene results in altered cortical bone structure and increased cortical bone mineral density in the femoral diaphysis of mice

INTRODUCTION Aldehyde dehydrogenase 2 (ALDH2) degrades acetaldehyde produced by the metabolism of alcohol. The inactive ALDH2 phenotype is prevalent in East Asians, and an association between this ALDH2 polymorphism and osteoporosis has been reported. In our previous study, we found that alcohol consumption results in decreased trabecular bone volume in aldh2 knockout (aldh2(-/-)) mice compared with the volume in wild-type (aldh2(+/+)) mice. However, the effect of aldh2 gene on the skeletal phenotype in the absence of alcohol consumption remains unknown. The aim of this study was to clarify the effect of aldh2 disruption on femoral bone structure and dynamics in aldh2-disrupted mice in the absence of alcohol consumption. MATERIALS AND METHODS We examined aldh2(-/-) and aldh2(+/+) mice at the ages of 4, 8 and 12weeks. The femoral bone length and bone mineral density (BMD) were measured using peripheral quantitative computed tomography. The mechanical strength was assessed by the three-point bending test at 12weeks, and cortical bone histomorphometry at the femur diaphysis was performed at all three time points. Osteogenic activities in aldh2(-/-) and aldh2(+/+) mice were assessed by osteoblast culture from calvariae of the neonatal mice. Bilateral femoral and tibial bones containing no bone marrow cells of 8-week-old mice were used for analysis of mRNA expression. In addition, mRNA expression in aldh2(-/-) and aldh2(+/+) mice after tail suspension or climbing exercise for 7days from 8weeks was analyzed to clarify the response to mechanical loading. RESULTS At 12weeks, there were no significant differences in femoral bone length, trabecular BMD in the distal metaphyses of the femurs, or mechanical strength between aldh2(-/-) and aldh2(+/)(+) mice, whereas cortical BMD and cortical thickness were significantly increased and cross-sectional area and bone marrow area were significantly decreased in the femoral diaphysis of aldh2(-/-) mice relative to the corresponding values in aldh2(+/+) mice. At 8weeks, bone formation rate and mineral apposition rate on the periosteal and endocortical surfaces were significantly increased in aldh2(-/-) mice relative to the rates in aldh(+/+) mice. Calvarial osteoblast culture study revealed that the percentage of alkaline phosphatase stained cells was significantly higher in aldh2(-/-) mice compared to that in aldh(+/+) mice. Quantitative real-time RT-PCR revealed a significant increase in the expressions of bmp2, osterix, runx2, and col1a1 mRNA in aldh2(-/-) mice, along with an increase in the expression of wnt5a mRNA and the lrp5/sost mRNA ratio. The mRNA expressions of bmp2, osterix, runx2 and pthr in aldh2(-/-) mice were significantly decreased after climbing exercise compared to those in the control, although the mRNA expressions of bmp2, osterix, runx2 were not significantly decreased and pthr mRNA expression was increased in aldh(+/+) mice after climbing exercise. CONCLUSION Our results show that disruption of aldh2 gene resulted in altered cortical bone structure and dynamics in mice. Cross-sectional area was decreased. Cortical BMD was increased owing to the promotion of cortical bone formation on the periosteal and endocortical surfaces of the femoral diaphysis. The possible mechanisms underlying altered cortical bone structure in aldh2(-/-) mice were gene-related higher osteogenic activity of osteoblasts and weakened osteogenice response to mechanical loading in growth period.

LINBURG-COMSTOCK SYNDROME: A CASE REPORT

We report a case of Linburg-Comstock syndrome, which is characterized with anomalous tendon slips connecting flexor pollicis longus (FPL) to the flexor digitorum profundus (FDP), usually at the index finger. The present patient started to be a carpenter and was suffering from his disability of flexing the thumb and the index finger independently when he handled the screws in his work. We surgically removed the tendinous connection of the FPL tendon and the index FDP tendon. After surgery, he could work as a carpenter without any difficulty. Surgical disconnection was effective treatment. Dynamic high-resolution ultrasound and three dimensions of computed tomography of the left distal forearm were helpful to confirm the diagnosis.

Elcatonin prevents bone loss caused by skeletal unloading by inhibiting preosteoclast fusion through the unloading-induced high expression of calcitonin receptors in bone marrow cells

This study aimed to clarify whether elcatonin (EL) has a preventive action on bone dynamics in skeletal unloading. Seven-week-old male C57BL/6J mice with either ground control (GC) or tail suspension (TS) were administered EL 20U/kg or a vehicle (veh) three times per week and assigned to one of the following four groups: GCEL, GCveh, TSEL, and TSveh. Blood samples and bilateral femurs and tibias of the mice were obtained for analysis. After 7days of unloading, the trabecular bone mineral density in the distal femur obtained via peripheral quantitative computed tomography and the trabecular bone volume were significantly higher in the TSEL group than in the TSveh group. The bone resorption histomorphometric parameters, such as the osteoclast surface and osteoclast number, were significantly suppressed in the TSEL mice, whereas the number of preosteoclasts was significantly increased. The plasma level of tartrate-resistant acid phosphatase-5b (TRACP-5b) was significantly lower in the TSEL group than in all other groups. In the bone marrow cell culture, the number of TRACP-positive (TRACP(+)) multinucleated cells was significantly lower in the TSEL mice than in the TSveh mice, whereas the number of TRACP(+) mononucleated cells was higher in the TSEL mice. On day 4, the expression of nuclear factor of activated T-cells, cytoplasmic, calcineurin-dependent 1 (NFATc1), cathepsin K and d2 isoform of vacuolar ATPase V0 domain (ATP6V0D2) mRNA in the bone marrow cells in the TSEL mice was suppressed, and the expression of calcitonin receptor (Calcr) mRNA on day 1 and Calcr antigen on day 4 were significantly higher in the TSveh mice than in the GCveh mice. EL prevented the unloading-induced bone loss associated with the high expression of Calcr in the bone marrow cells of mouse hindlimbs after tail suspension, and it suppressed osteoclast development from preosteoclasts to mature osteoclasts through bone-resorbing activity. This study of EL-treated unloaded mice provides the first in vivo evidence of a physiological role of EL in the inhibition of the differentiation process from preosteoclasts to osteoclasts.

Disruption of the Aldehyde Dehydrogenase 2 Gene Results in No Increase in Trabecular Bone Mass Due to Skeletal Loading in Association with Impaired Cell Cycle Regulation Through p21 Expression in the Bone Marrow Cells of Mice

Approximately 45% of people of East Asian descent have the inactive aldehyde dehydrogenase 2 (ALDH2) phenotype. The enzyme defect of ALDH2 has been found to adversely influence the risk of osteoporosis. The aim of this study was to clarify the effect of skeletal loading on trabecular bone structure and dynamics in Aldh2-disrupted mice in the absence of alcohol consumption. Four-week-old male Aldh2−/− (KO) and Aldh2+/+ (WT) mice were divided into a ground control (GC) group and a climbing exercise (CE) group in each genotype. The trabecular bone mineral density of the distal femur measured by peripheral quantitative computed tomography in the wild-type CE (WTCE) group was significantly higher than that in the wild-type GC (WTGC) group; however, there was no significant difference between the knockout CE (KOCE) and knockout GC (KOGC) groups. Bone histomorphometry revealed that osteogenic parameters were significantly increased in the WTCE group compared with the WTGC group, but not increased in the KOCE group compared with the KOGC group. Quantitative reverse transcriptase polymerase chain reaction and flow cytometry revealed that mRNA and protein expression levels of p21 were significantly decreased in the WTCE group compared with those in the WTGC group, while these differences were not observed between the KOGC and KOCE groups. This study provides the first in vivo evidence that p21 expression in the bone marrow is not decreased after skeletal loading and osteoblast differentiation is impaired in the absence of Aldh2 gene.