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Nabanita S Datta Division of Endocrinology, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Tareq A Samra Division of Endocrinology, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Chandrika D Mahalingam Division of Endocrinology, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Tanuka Datta Division of Endocrinology, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Abdul B Abou-Samra Division of Endocrinology, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Phosphorylation, internalization, and desensitization of G protein-coupled receptors, such as the parathyroid hormone (PTH) and PTH-related peptide (PTHrP) receptor (PTH1R), are well characterized and known to regulate the cellular responsiveness in vitro. However, the role of PTH1R receptor phosphorylation in bone formation and osteoblast functions has not yet been elucidated. In previous studies, we demonstrated impaired internalization and sustained cAMP stimulation of a phosphorylation-deficient (pd) PTH1R in vitro, and exaggerated cAMP and calcemic responses to s.c. PTH infusion in pdPTH1R knock-in mouse model. In this study, we examined the impact of impaired PTH1R phosphorylation on the skeletal phenotype of mice maintained on normal, low, and high calcium diets. The low calcium diet moderately reduced (P<0.05) bone volume and trabecular number, and increased trabecular spacing in both wild-type (WT) and pd mice. The effects, however, seem to be less pronounced in the female pd compared to WT mice. In primary calvarial osteoblasts isolated from 2-week-old pd or WT mice, PTH and PTHrP decreased phosphorylated extracellular signal-regulated kinases 1/2 (pERK1/2), a member of mitogen-activated protein kinase, and cyclin D1, a G1/S phase cyclin, in vitro. In contrast to WT osteoblasts, down-regulation of cyclin D1 was sustained for longer periods of time in osteoblasts isolated from the pd mice. Our results suggest that adaptive responses of intracellular signaling pathways in the pd mice may be important for maintaining bone homeostasis.

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Chandrika D Mahalingam Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Bharat Reddy Sampathi Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Sonali Sharma Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Tanuka Datta Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Varsha Das Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Abdul B Abou-Samra Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Nabanita S Datta Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA
Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA
Division of Endocrinology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, 1107 Elliman Clinical Research Building, 421 East Canfield Avenue, Detroit, Michigan 48201, USA

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Limited information is available on the role of MAPK phosphatase 1 (MKP1) signaling in osteoblasts. We have recently reported distinct roles for MKP1 during osteoblast proliferation, differentiation, and skeletal responsiveness to parathyroid hormone (PTH). As MKP1 regulates the phosphorylation status of MAPKs, we investigated the involvement of P-ERK and P-p38 MAPKs in MKP1 knockout (KO) early and mature osteoblasts with respect to mineralization and PTH response. Calvarial osteoblasts from 9–14-week-old WT and MKP1 KO male and female mice were examined. Western blot analysis revealed downregulation and sustained expressions of P-ERK and P-p38 with PTH treatment in differentiated osteoblasts derived from KO males and females respectively. Exposure of early osteoblasts to p38 inhibitor, SB203580 (S), markedly inhibited mineralization in WT and KO osteoblasts from both genders as determined by von Kossa assay. In osteoblasts from males, ERK inhibitor U0126 (U), not p38 inhibitor (S), prevented the inhibitory effects of PTH on mineralization in early or mature osteoblasts. In osteoblasts from KO females, PTH sustained mineralization in early osteoblasts and decreased mineralization in mature cells. This effect of PTH was attenuated by S in early osteoblasts and by U in mature KO cells. Changes in matrix Gla protein expression with PTH in KO osteoblasts did not correlate with mineralization, indicative of MKP1-dependent additional mechanisms essential for PTH action on osteoblast mineralization. We conclude that PTH regulation of osteoblast mineralization in female mice is maturation stage specific and involves MKP1 modulation of P-ERK and P-p38 MAPKs.

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Valerie M Harris Division of Endocrinology, Department of Physiology, Division of Endocrinology, Section of Endocrinology and Metabolism, Department of Pediatrics, Children's Hospital of Michigan, Wayne State University School of Medicine, 3901 Beaubien Boulevard, 421 E. Canfield, Detroit, Michigan 48201-2119, USA

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Sachin V Bendre Division of Endocrinology, Department of Physiology, Division of Endocrinology, Section of Endocrinology and Metabolism, Department of Pediatrics, Children's Hospital of Michigan, Wayne State University School of Medicine, 3901 Beaubien Boulevard, 421 E. Canfield, Detroit, Michigan 48201-2119, USA

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Francina Gonzalez De Los Santos
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Alemu Fite Division of Endocrinology, Department of Physiology, Division of Endocrinology, Section of Endocrinology and Metabolism, Department of Pediatrics, Children's Hospital of Michigan, Wayne State University School of Medicine, 3901 Beaubien Boulevard, 421 E. Canfield, Detroit, Michigan 48201-2119, USA

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Ahmad El-Yaman El-Dandachli
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Lyazat Kurenbekova Division of Endocrinology, Department of Physiology, Division of Endocrinology, Section of Endocrinology and Metabolism, Department of Pediatrics, Children's Hospital of Michigan, Wayne State University School of Medicine, 3901 Beaubien Boulevard, 421 E. Canfield, Detroit, Michigan 48201-2119, USA

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Abdul B Abou-Samra Division of Endocrinology, Department of Physiology, Division of Endocrinology, Section of Endocrinology and Metabolism, Department of Pediatrics, Children's Hospital of Michigan, Wayne State University School of Medicine, 3901 Beaubien Boulevard, 421 E. Canfield, Detroit, Michigan 48201-2119, USA

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Colleen Buggs-Saxton
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GnRH is the main regulator of the hypothalamic–pituitary–gonadal (H–P–G) axis. GnRH stimulates the pituitary gonadotroph to synthesize and secrete gonadotrophins (LH and FSH), and this effect of GnRH is dependent on the availability of glucose and other nutrients. Little is known about whether GnRH regulates glucose metabolism in the gonadotroph. This study examined the regulation of glucose transporters (Gluts) by GnRH in the LβT2 gonadotroph cell line. Using real-time PCR analysis, the expression of Glut1, -2, -4, and -8 was detected, but Glut1 mRNA expression level was more abundant than the mRNA expression levels of Glut2, -4, and -8. After the treatment of LβT2 cells with GnRH, Glut1 mRNA expression was markedly induced, but there was no GnRH-induction of Glut2, -4, or -8 mRNA expression in LβT2 cells. The effect of GnRH on Glut1 mRNA expression is partly mediated by ERK activation. GnRH increased GLUT1 protein and stimulated GLUT1 translocation to the cell surface of LβT2 cells. Glucose uptake assays were performed in LβT2 cells and showed that GnRH stimulates glucose uptake in the gonadotroph. Finally, exogenous treatment of mice with GnRH increased the expression of Glut1 but not the expression of Glut2, -4, or -8 in the pituitary. Therefore, regulation of glucose metabolism by GnRH via changes in Gluts expression and subcellular location in the pituitary gonadotroph reveals a novel response of the gonadotroph to GnRH.

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Chandrika D Mahalingam Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Tanuka Datta Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Rashmi V Patil Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Jaclynn Kreider Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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R Daniel Bonfil Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA
Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Keith L Kirkwood Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Steven A Goldstein Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Abdul B Abou-Samra Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Nabanita S Datta Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA
Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA
Division of Endocrinology, Department of Orthopedic Surgery, Department of Urology and Pathology, Departments of Craniofacial Biology and Microbiology and Immunology, Barbara Ann Karmanos Cancer Institute, Cardiovascular Research Institute, Department of Internal Medicine, Wayne State University School of Medicine, Detroit, Michigan 48201, USA

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Parathyroid hormone (PTH) signaling via PTH 1 receptor (PTH1R) involves mitogen-activated protein kinase (MAPK) pathways. MAPK phosphatase 1 (MKP1) dephosphorylates and inactivates MAPKs in osteoblasts, the bone-forming cells. We previously showed that PTH1R activation in differentiated osteoblasts upregulates MKP1 and downregulates pERK1/2–MAPK and cyclin D1. In this study, we evaluated the skeletal phenotype of Mkp1 knockout (KO) mice and the effects of PTH in vivo and in vitro. Microcomputed tomography analysis of proximal tibiae and distal femora from 12-week-old Mkp1 KO female mice revealed osteopenic phenotype with significant reduction (8–46%) in bone parameters compared with wild-type (WT) controls. Histomorphometric analysis showed decreased trabecular bone area in KO females. Levels of serum osteocalcin (OCN) were lower and serum tartrate-resistant acid phosphatase 5b (TRAP5b) was higher in KO animals. Treatment of neonatal mice with hPTH (1–34) for 3 weeks showed attenuated anabolic responses in the distal femora of KO mice compared with WT mice. Primary osteoblasts derived from KO mice displayed delayed differentiation determined by alkaline phosphatase activity, and reduced expressions of Ocn and Runx2 genes associated with osteoblast maturation and function. Cells from KO females exhibited attenuated PTH response in mineralized nodule formation in vitro. Remarkably, this observation was correlated with decreased PTH response of matrix Gla protein expression. Expressions of pERK1/2 and cyclin D1 were inhibited dramatically by PTH in differentiated osteoblasts from WT mice but much less in osteoblasts from Mkp1 KO mice. In conclusion, MKP1 is important for bone homeostasis, osteoblast differentiation and skeletal responsiveness to PTH.

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