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2. Bone corticalization requires local SOCS3 activity and is promoted by androgen action via interleukin-6

Author

Holly J. Brennan, Dae-Chul Cho, David J. Handelsman, Brett A. Tonkin, Jonathan H. Gooi, Rachelle W. Johnson, Emma C. Walker, Natalie A. Sims, Ingrid J Poulton, T. J. Martin, and Narelle E. McGregor

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Ovariectomy, Science, Long bone, General Physics and Astronomy, Metaphysis, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Chondrocytes, Osteogenesis, Internal medicine, medicine, Animals, lcsh:Science, Receptor, Multidisciplinary, Estradiol, Interleukin-6, digestive, oral, and skin physiology, Dihydrotestosterone, General Chemistry, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Suppressor of Cytokine Signaling 3 Protein, Cancellous Bone, Androgens, Female, lcsh:Q, Cortical bone, Leukemia inhibitory factor, Cancellous bone, medicine.drug, Hormone
Abstract

Long bone strength is determined by its outer shell (cortical bone), which forms by coalescence of thin trabeculae at the metaphysis (corticalization), but the factors that control this process are unknown. Here we show that SOCS3-dependent cytokine expression regulates bone corticalization. Young male and female Dmp1Cre.Socs3 f/f mice, in which SOCS3 has been ablated in osteocytes, have high trabecular bone volume and poorly defined metaphyseal cortices. After puberty, male mice recover, but female corticalization is still impaired, leading to a lasting defect in bone strength. The phenotype depends on sex-steroid hormones: dihydrotestosterone treatment of gonadectomized female Dmp1Cre.Socs3 f/f mice restores normal cortical morphology, whereas in males, estradiol treatment, or IL-6 deletion, recapitulates the female phenotype. This suggests that androgen action promotes metaphyseal corticalization, at least in part, via IL-6 signaling., The strength of long bones is determined by coalescence of trabeculae during corticalization. Here the authors show that this process is regulated by SOCS3 via a mechanism dependent on IL-6 and expression of sex hormones.

Published
2017

3. IL-6 exhibits both cis- and trans-signaling in osteocytes and osteoblasts, but only trans-signaling promotes bone formation and osteoclastogenesis

Author

Patricia W. M. Ho, Emma C. Walker, Jonathan H. Gooi, Melissa Murat, Narelle E. McGregor, Ingrid J Poulton, T. John Martin, Jeevithan Elango, Blessing Crimeen-Irwin, and Natalie A. Sims

Subjects
0301 basic medicine, CCAAT-Enhancer-Binding Protein-delta, Osteoclasts, ADAM17 Protein, Biochemistry, Osteocytes, 03 medical and health sciences, Mice, Osteoclast, Osteogenesis, medicine, Cytokine Receptor gp130, Animals, SOCS3, Molecular Biology, Bone growth, 030102 biochemistry & molecular biology, biology, Chemistry, Interleukin-6, RANK Ligand, Osteoblast, Cell Biology, Cell biology, 030104 developmental biology, medicine.anatomical_structure, RANKL, Suppressor of Cytokine Signaling 3 Protein, Osteocyte, biology.protein, Signal transduction, Leukemia inhibitory factor, Signal Transduction
Abstract

Interleukin 6 (IL-6) supports development of bone-resorbing osteoclasts by acting early in the osteoblast lineage via membrane-bound (cis) or soluble (trans) receptors. Here, we investigated how IL-6 signals and modifies gene expression in differentiated osteoblasts and osteocytes and determined whether these activities can promote bone formation or support osteoclastogenesis. Moreover, we used a genetically altered mouse with circulating levels of the pharmacological IL-6 trans-signaling inhibitor sgp130-Fc to determine whether IL-6 trans-signaling is required for normal bone growth and remodeling. We found that IL-6 increases suppressor of cytokine signaling 3 (Socs3) and CCAAT enhancer-binding protein δ (Cebpd) mRNA levels and promotes signal transducer and activator of transcription 3 (STAT3) phosphorylation by both cis- and trans-signaling in cultured osteocytes. In contrast, RANKL (Tnfsf11) mRNA levels were elevated only by trans-signaling. Furthermore, we observed soluble IL-6 receptor release and ADAM metallopeptidase domain 17 (ADAM17) sheddase expression by osteocytes. Despite the observation that IL-6 cis-signaling occurs, IL-6 stimulated bone formation in vivo only via trans-signaling. Although IL-6 stimulated RANKL (Tnfsf11) mRNA in osteocytes, these cells did not support osteoclast formation in response to IL-6 alone; binucleated TRAP+ cells formed, and only in response to trans-signaling. Finally, pharmacological, sgp130-Fc-mediated inhibition of IL-6 trans-signaling did not impair bone growth or remodeling unless mice had circulating sgp130-Fc levels > 10 μg/ml. At those levels, osteopenia and impaired bone growth occurred, reducing bone strength. We conclude that high sgp130-Fc levels may have detrimental off-target effects on the skeleton.

Published
2019

4. Murine Oncostatin M Acts via Leukemia Inhibitory Factor Receptor to Phosphorylate Signal Transducer and Activator of Transcription 3 (STAT3) but Not STAT1, an Effect That Protects Bone Mass

Author

Ingrid J Poulton, Yifang Hu, Nicos A. Nicola, Emma C. Walker, Rachelle W. Johnson, Jian-Guo Zhang, Holly J. Brennan, Natalie A. Sims, Gordon K. Smyth, and Brendan J. Jenkins

Subjects
STAT3 Transcription Factor, 0301 basic medicine, Leukemia Inhibitory Factor Receptor alpha Subunit, Leukemia inhibitory factor receptor, Oncostatin M, Osteocytes, Biochemistry, Bone and Bones, Mice, 03 medical and health sciences, 0302 clinical medicine, Cytokine Receptor gp130, Animals, Humans, Phosphorylation, Molecular Biology, Oncostatin M Receptor beta Subunit, biology, Organ Size, Cell Biology, Glycoprotein 130, Cell biology, Bone Diseases, Metabolic, Disease Models, Animal, STAT1 Transcription Factor, 030104 developmental biology, RANKL, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Leukemia inhibitory factor
Abstract

Oncostatin M (OSM) and leukemia inhibitory factor (LIF) are IL-6 family members with a wide range of biological functions. Human OSM (hOSM) and murine LIF (mLIF) act in mouse cells via a LIF receptor (LIFR)-glycoprotein 130 (gp130) heterodimer. In contrast, murine OSM (mOSM) signals mainly via an OSM receptor (OSMR)-gp130 heterodimer and binds with only very low affinity to mLIFR. hOSM and mLIF stimulate bone remodeling by both reducing osteocytic sclerostin and up-regulating the pro-osteoclastic factor receptor activator of NF-κB ligand (RANKL) in osteoblasts. In the absence of OSMR, mOSM still strongly suppressed sclerostin and stimulated bone formation but did not induce RANKL, suggesting that intracellular signaling activated by the low affinity interaction of mOSM with mLIFR is different from the downstream effects when mLIF or hOSM interacts with the same receptor. Both STAT1 and STAT3 were activated by mOSM in wild type cells or by mLIF/hOSM in wild type and Osmr−/− cells. In contrast, in Osmr−/− primary osteocyte-like cells stimulated with mOSM (therefore acting through mLIFR), microarray expression profiling and Western blotting analysis identified preferential phosphorylation of STAT3 and induction of its target genes but not of STAT1 and its target genes; this correlated with reduced phosphorylation of both gp130 and LIFR. In a mouse model of spontaneous osteopenia caused by hyperactivation of STAT1/3 signaling downstream of gp130 (gp130Y757F/Y757F), STAT1 deletion rescued the osteopenic phenotype, indicating a beneficial effect of promoting STAT3 signaling over STAT1 downstream of gp130 in this low bone mass condition, and this may have therapeutic value.

Published
2016
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5. Characterization of Lethal Zika Virus Infection in AG129 Mice

Author

Jorge E. Osorio, Erwin Camacho, Elizabeth A. Caine, Matthew T. Aliota, Emma C. Walker, and Katrina E. Larkin

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Receptor, Interferon alpha-beta, Biology, Zika virus, 03 medical and health sciences, Mice, medicine, Animals, Viremia, Receptors, Interferon, Mice, Knockout, Zika Virus Infection, Muscles, lcsh:Public aspects of medicine, Public Health, Environmental and Occupational Health, Correction, Brain, lcsh:RA1-1270, biology.organism_classification, Virology, Death, Disease Models, Animal, 030104 developmental biology, Infectious Diseases
Abstract

Mosquito-borne Zika virus (ZIKV) typically causes a mild and self-limiting illness known as Zika fever, which often is accompanied by maculopapular rash, headache, and myalgia. During the current outbreak in South America, ZIKV infection during pregnancy has been hypothesized to cause microcephaly and other diseases. The detection of ZIKV in fetal brain tissue supports this hypothesis. Because human infections with ZIKV historically have remained sporadic and, until recently, have been limited to small-scale epidemics, neither the disease caused by ZIKV nor the molecular determinants of virulence and/or pathogenicity have been well characterized. Here, we describe a small animal model for wild-type ZIKV of the Asian lineage.Using mice deficient in interferon α/β and Ɣ receptors (AG129 mice), we report that these animals were highly susceptible to ZIKV infection and disease, succumbing within seven to eight days. Rapid viremic dissemination was observed in visceral organs and brain; but only was associated with severe pathologies in the brain and muscle. Finally, these results were consistent across challenge routes, age of mice, and inoculum doses. These data represent a mouse model for ZIKV that is not dependent on adapting ZIKV to intracerebral passage in mice.Foot pad injection of AG129 mice with ZIKV represents a biologically relevant model for studying ZIKV infection and disease development following wild-type virus inoculation without the requirement for adaptation of the virus or intracerebral delivery of the virus. This newly developed Zika disease model can be exploited to identify determinants of ZIKV virulence and reveal molecular mechanisms that control the virus-host interaction, providing a framework for rational design of acute phase therapeutics and for vaccine efficacy testing.

Published
2016

6. Characterization of Lethal Zika Virus Infection in AG129 Mice

Author

Elizabeth A. Caine, Emma C. Walker, Jorge E. Osorio, Erwin Camacho, Katrina E. Larkin, and Matthew T. Aliota

Subjects
0301 basic medicine, RNA viruses, Microcephaly, Neutrophils, Epidemiology, Characterized, Disease, Pathogenesis, Disease Vectors, Pathology and Laboratory Medicine, Biochemistry, Mosquitoes, Zika virus, White Blood Cells, Mosquito, Animal Cells, Maculopapular rash, Medicine and Health Sciences, biology, lcsh:Public aspects of medicine, Animal Models, Viral Load, 3. Good health, Insects, Infectious Diseases, Medical Microbiology, Viral Pathogens, Viruses, medicine.symptom, Pathogens, Cellular Types, Viral load, Research Article, lcsh:Arctic medicine. Tropical medicine, Infectious Disease Control, Arthropoda, lcsh:RC955-962, Immune Cells, 030106 microbiology, Immunology, Viremia, Mouse Models, Research and Analysis Methods, Microbiology, Virus, 03 medical and health sciences, Model Organisms, Virology, medicine, Animals, Pathogenic, Microbial Pathogens, ZIKV, Blood Cells, Biology and life sciences, Flaviviruses, Public Health, Environmental and Occupational Health, Organisms, Outbreak, Proteins, lcsh:RA1-1270, Zika Virus, Cell Biology, medicine.disease, biology.organism_classification, Invertebrates, Insect Vectors, 030104 developmental biology, Interferons, Viral Transmission and Infection
Abstract

Background Mosquito-borne Zika virus (ZIKV) typically causes a mild and self-limiting illness known as Zika fever, which often is accompanied by maculopapular rash, headache, and myalgia. During the current outbreak in South America, ZIKV infection during pregnancy has been hypothesized to cause microcephaly and other diseases. The detection of ZIKV in fetal brain tissue supports this hypothesis. Because human infections with ZIKV historically have remained sporadic and, until recently, have been limited to small-scale epidemics, neither the disease caused by ZIKV nor the molecular determinants of virulence and/or pathogenicity have been well characterized. Here, we describe a small animal model for wild-type ZIKV of the Asian lineage. Methodology/Principal Findings Using mice deficient in interferon α/β and Ɣ receptors (AG129 mice), we report that these animals were highly susceptible to ZIKV infection and disease, succumbing within seven to eight days. Rapid viremic dissemination was observed in visceral organs and brain; but only was associated with severe pathologies in the brain and muscle. Finally, these results were consistent across challenge routes, age of mice, and inoculum doses. These data represent a mouse model for ZIKV that is not dependent on adapting ZIKV to intracerebral passage in mice. Conclusions/Significance Foot pad injection of AG129 mice with ZIKV represents a biologically relevant model for studying ZIKV infection and disease development following wild-type virus inoculation without the requirement for adaptation of the virus or intracerebral delivery of the virus. This newly developed Zika disease model can be exploited to identify determinants of ZIKV virulence and reveal molecular mechanisms that control the virus-host interaction, providing a framework for rational design of acute phase therapeutics and for vaccine efficacy testing., Author Summary Zika virus (ZIKV) is an arbovirus that belongs to the family Flaviridae. It currently is causing an explosive outbreak of febrile disease in the Americas. In humans, ZIKV infection typically causes a mild and self-limiting illness known as Zika fever, which often is accompanied by maculopapular rash, headache, and myalgia. During the current outbreak, ZIKV infection during pregnancy has been hypothesized to cause microcephaly and other diseases. The detection of ZIKV in fetal brain tissue supports this hypothesis. Our understanding of the molecular mechanisms controlling ZIKV virulence and pathogenesis is limited, with progress greatly impeded by the lack of a small animal model that does not rely on intracerebral inoculation of the virus. Here, we demonstrate that wild-type ZIKV, that is representative of the Asian lineage currently circulating in South America, causes lethal disease in mice deficient in interferon α/β and Ɣ receptors. In these animals, ZIKV causes severe brain pathology, potentially emulating hallmark features of human fetal ZIKV infection. This newly developed Zika disease model can be exploited to identify determinants of ZIKV virulence and reveal molecular mechanisms that control the virus-host interaction, providing a framework for rational design of acute phase therapeutics and for vaccine efficacy testing.

Published
2016

7. The wMel Strain of Wolbachia Reduces Transmission of Chikungunya Virus in Aedes aegypti

Author

Matthew T. Aliota, Emma C. Walker, Iván D. Vélez, Jorge E. Osorio, Alexander Dario Uribe Yepes, and Bruce M. Christensen

Subjects
0301 basic medicine, Viral Diseases, Epidemiology, Physiology, viruses, Disease Vectors, Dengue virus, medicine.disease_cause, Mosquitoes, Aedes, Medicine and Health Sciences, Chikungunya, lcsh:Public aspects of medicine, virus diseases, Body Fluids, 3. Good health, Insects, Infectious Diseases, Arboviral Infections, Wolbachia, Anatomy, Chikungunya virus, Viral load, Research Article, Neglected Tropical Diseases, lcsh:Arctic medicine. Tropical medicine, Arthropoda, Infectious Disease Control, lcsh:RC955-962, Viremia, Aedes aegypti, Biology, Arbovirus, Virus, 03 medical and health sciences, Antibiosis, parasitic diseases, Disease Transmission, Infectious, medicine, Animals, Saliva, Bacteria, fungi, Organisms, Public Health, Environmental and Occupational Health, Chikungunya Infection, Biology and Life Sciences, lcsh:RA1-1270, Tropical Diseases, medicine.disease, biology.organism_classification, Survival Analysis, Invertebrates, Virology, Insect Vectors, Vector-Borne Diseases, 030104 developmental biology, Chikungunya Fever
Abstract

Background New approaches to preventing chikungunya virus (CHIKV) are needed because current methods are limited to controlling mosquito populations, and they have not prevented the invasion of this virus into new locales, nor have they been sufficient to control the virus upon arrival. A promising candidate for arbovirus control and prevention relies on the introduction of the intracellular bacterium Wolbachia into Aedes aegypti mosquitoes. This primarily has been proposed as a tool to control dengue virus (DENV) transmission; however, evidence suggests Wolbachia infections confer protection for Ae. aegypti against CHIKV. Although this approach holds much promise for limiting virus transmission, at present our understanding of the ability of CHIKV to infect, disseminate, and be transmitted by wMel-infected Ae. aegypti currently being used at Wolbachia release sites is limited. Methodology/Principal Findings Using Ae. aegypti infected with the wMel strain of Wolbachia that are being released in Medellin, Colombia, we report that these mosquitoes have reduced vector competence for CHIKV, even with extremely high viral titers in the bloodmeal. In addition, we examined the dynamics of CHIKV infection over the course of four to seven days post feeding. Wolbachia-infected mosquitoes remained non-infective over the duration of seven days, i.e., no infectious virus was detected in the saliva when exposed to bloodmeals of moderate viremia, but CHIKV-exposed, wild type mosquitoes did have viral loads in the saliva consistent with what has been reported elsewhere. Finally, the presence of wMel infection had no impact on the lifespan of mosquitoes as compared to wild type mosquitoes following CHIKV infection. Conclusions/Significance These results could have an impact on vector control strategies in areas where Ae. aegypti are transmitting both DENV and CHIKV; i.e., they argue for further exploration, both in the laboratory and the field, on the feasibility of expanding this technology beyond DENV., Author Summary New approaches to preventing chikungunya virus (CHIKV) infection are needed because the endemic range of this virus is expanding and because current methods are limited to controlling mosquito populations, and this approach has not effectively controlled this virus. A promising candidate for arbovirus control and prevention relies on the introduction of the intracellular bacterium Wolbachia into Aedes aegypti mosquitoes. Wolbachia biocontrol has advanced from laboratory experiments demonstrating that Wolbachia reduces virus replication to small-scale field trials demonstrating that Wolbachia are capable of spreading through wild Ae. aegypti populations. This primarily has been proposed as a tool to control dengue virus (DENV) transmission; however, Wolbachia infections confer protection for their insect hosts against a range of pathogens including CHIKV in Ae. aegypti. Medium-scale Wolbachia deployments are imminent or in certain instances have commenced. Therefore, assessing whether or not Wolbachia-infected Ae. aegypti are effective against CHIKV will help inform the viability of Wolbachia biocontrol for CHIKV control. Our study provides valuable evidence that could justify expanding this type of control program to other Ae. aegypti-transmitted arboviruses, primarily CHIKV.

Published
2016

8. Sustained RANKL response to parathyroid hormone in oncostatin M receptor-deficient osteoblasts converts anabolic treatment to a catabolic effect in vivo

Author

Julie M. Quach, T. John Martin, Patricia W. M. Ho, Emma C. Walker, Ingrid J Poulton, Narelle E. McGregor, Natalie A. Sims, and E H Allan

Subjects
Male, musculoskeletal diseases, medicine.medical_specialty, Anabolism, Endocrinology, Diabetes and Metabolism, Parathyroid hormone, Cell Line, Mice, Anabolic Agents, Osteoclast, Internal medicine, Cytokine Receptor gp130, medicine, Animals, Humans, Orthopedics and Sports Medicine, RNA, Messenger, Oligonucleotide Array Sequence Analysis, Osteoblasts, biology, Chemistry, RANK Ligand, Oncostatin M, Oncostatin M receptor, Receptors, Oncostatin M, Osteoblast, Organ Size, Glycoprotein 130, medicine.anatomical_structure, Endocrinology, Gene Expression Regulation, Parathyroid Hormone, RANKL, biology.protein, Cytokines, hormones, hormone substitutes, and hormone antagonists, Protein Binding
Abstract

Parathyroid hormone (PTH) is the only approved anabolic agent for osteoporosis treatment. It acts via osteoblasts to stimulate both osteoclast formation and bone formation, with the balance between these two activities determined by the mode of administration. Oncostatin M (OSM), a gp130-dependent cytokine expressed by osteoblast lineage cells, has similar effects and similar gene targets in the osteoblast lineage. In this study, we investigated whether OSM might participate in anabolic effects of PTH. Microarray analysis and quantitative real-time polymerase chain reaction (qPCR) of PTH-treated murine stromal cells and primary calvarial osteoblasts identified significant regulation of gp130 and gp130-dependent coreceptors and ligands, including a significant increase in OSM receptor (OSMR) expression. To determine whether OSMR signaling is required for PTH anabolic action, 6-week-old male Osmr(-/-) mice and wild-type (WT) littermates were treated with hPTH(1-34) for 3 weeks. In WT mice, PTH increased trabecular bone volume and trabecular thickness. In contrast, the same treatment had a catabolic effect in Osmr(-/-) mice, reducing both trabecular bone volume and trabecular number. This was not explained by any alteration in the increased osteoblast formation and mineral apposition rate in response to PTH in Osmr(-/-) compared with WT mice. Rather, PTH treatment doubled osteoclast surface in Osmr(-/-) mice, an effect not observed in WT mice. Consistent with this finding, when osteoclast precursors were cultured in the presence of osteoblasts, more osteoclasts were formed in response to PTH when Osmr(-/-) osteoblasts were used. Neither PTH1R mRNA levels nor cAMP response to PTH were modified in Osmr(-/-) osteoblasts. However, RANKL induction in PTH-treated Osmr(-/-) osteoblasts was sustained at least until 24 hours after PTH exposure, an effect not observed in WT osteoblasts. These data indicate that the transient RANKL induction by intermittent PTH administration, which is associated with its anabolic action, is changed to a prolonged induction in OSMR-deficient osteoblasts, resulting in bone destruction.

Published
2012
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9. Osteoclast Inhibitory Lectin, an Immune Cell Product That Is Required for Normal Bone Physiology in Vivo

Author

Vicky Kartsogiannis, Emma C. Walker, Matthew T. Gillespie, Mark J. Smyth, Morgan E. Wallace, Chi Ly, Hasnawati Saleh, Hong Zhou, Natalie A. Sims, Ingrid J Poulton, Mirijana Cipetic, T. John Martin, Kong Wah Ng, Narelle E. McGregor, and J.M.W. Quinn

Subjects
Male, medicine.medical_specialty, Osteoimmunology, Osteoclasts, Parathyroid hormone, Biology, Biochemistry, Bone resorption, Natural killer cell, Mice, Molecular Basis of Cell and Developmental Biology, Osteogenesis, Osteoclast, Internal medicine, medicine, Animals, Humans, Lectins, C-Type, Bone Resorption, Molecular Biology, Mice, Knockout, Tibia, Wild type, Membrane Proteins, Organ Size, Cell Biology, medicine.disease, Osteopenia, Bone Diseases, Metabolic, medicine.anatomical_structure, Endocrinology, Calcium, Female, Bone marrow
Abstract

Osteoclast inhibitory lectin (OCIL or clrb) is a member of the natural killer cell C-type lectins that have a described role mostly in autoimmune cell function. OCIL was originally identified as an osteoblast-derived inhibitor of osteoclast formation in vitro. To determine the physiological function(s) of OCIL, we generated ocil-/- mice. These mice appeared healthy and were fertile, with no apparent immune function defect, and phenotypic abnormalities were limited to bone. Histomorphometric analysis revealed a significantly lower tibial trabecular bone volume and trabecular number in the 10- and 16-week-old male ocil-/- mice compared with wild type mice. Furthermore, ocil-/- mice showed reduced bone formation rate in the 10-week-old females and 16-week-old males while Static markers of bone formation showed no significant changes in male or female ocil-/- mice. Examination of bone resorption markers in the long bones of ocil-/- mice indicated a transient increase in osteoclast number per unit bone perimeter. Enhanced osteoclast formation was also observed when either bone marrow or splenic cultures were generated in vitro from ocil-/- mice relative to wild type control cultures. Loss of ocil therefore resulted in osteopenia in adult mice primarily as a result of increased osteoclast formation and/or decreased bone formation. The enhanced osteoclastic activity led to elevated serum calcium levels, which resulted in the suppression of circulating parathyroid hormone in 10-week-old ocil-/- mice compared with wild type control mice. Collectively, our data suggest that OCIL is a physiological negative regulator of bone.

Published
2008
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10. IL-23 Inhibits Osteoclastogenesis Indirectly through Lymphocytes and Is Required for the Maintenance of Bone Mass in Mice

Author

T. John Martin, J.M.W. Quinn, Danijela Mirosa, Matthew T. Gillespie, Hasnawati Saleh, Keith Thompson, S Bouralexis, Emma C. Walker, and Natalie A. Sims

Subjects
CD4-Positive T-Lymphocytes, Male, medicine.medical_specialty, Bone density, T cell, Immunology, Dose-Response Relationship, Immunologic, Osteoclasts, Mice, Osteoprotegerin, Bone Density, Osteoclast, Internal medicine, medicine, Animals, Immunology and Allergy, Genetic Predisposition to Disease, Immature Bone, Inflammation, Mice, Knockout, Bone mineral, Tibia, biology, Chemistry, Interleukin-18, Granulocyte-Macrophage Colony-Stimulating Factor, Receptors, Antigen, T-Cell, gamma-delta, Organ Size, Interleukin-12, medicine.anatomical_structure, Endocrinology, RANKL, Chronic Disease, Interleukin-23 Subunit p19, Interleukin 12, biology.protein, Female
Abstract

IL-23 stimulates the differentiation and function of the Th17 subset of CD4+ T cells and plays a critical role in chronic inflammation. The IL-23 receptor-encoding gene is also an inflammatory disease susceptibility gene. IL-23 shares a common subunit with IL-12, a T cell-dependent osteoclast formation inhibitor, and we found that IL-23 also dose-dependently inhibited osteoclastogenesis in a CD4+ T lymphocyte-dependent manner. When sufficiently enriched, γδ T cells also mediated IL-23 inhibition. Like IL-12, IL-23 acted synergistically with IL-18 to block osteoclastogenesis but, unlike IL-12, IL-23 action depended on T cell GM-CSF production. IL-23 did not mediate IL-12 action although IL-12 induced its expression. Male mice lacking IL-23 (IL-23p19−/−) had ∼30% lower bone mineral density and tibial trabecular bone mass (bone volume (BV)/total volume (TV)) than wild-type littermates at 12 wk and 40% lower BV/TV at 26 wk of age; male heterozygotes also had lower bone mass. Female IL-23p19−/− mice also had reduced BV/TV. IL-23p19−/− mice had no detectable osteoclast defect in trabecular bone but IL-23p19−/− had thinner growth plate hypertrophic and primary spongiosa zones (and, in females, less cartilage remnants) compared with wild type. This suggests increased osteoclast action at and below the growth plate, leading to reduced amounts of mature trabecular bone. Thus, IL-23 inhibits osteoclast formation indirectly via T cells in vitro. Under nonpathological conditions (unlike inflammatory conditions), IL-23 favors higher bone mass in long bones by limiting resorption of immature bone forming below the growth plate.

Published
2008
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11. Myokines (muscle-derived cytokines and chemokines) including ciliary neurotrophic factor (CNTF) inhibit osteoblast differentiation

Author

Jason D. White, Rachelle W. Johnson, T. John Martin, Emma C. Walker, and Natalie A. Sims

Subjects
musculoskeletal diseases, medicine.medical_specialty, Histology, Physiology, Endocrinology, Diabetes and Metabolism, Gene Expression, Biology, Ciliary neurotrophic factor, Cell Line, Mice, Osteoprotegerin, Internal medicine, Bone cell, medicine, Animals, Ciliary Neurotrophic Factor, Receptor, Ciliary Neurotrophic Factor, Osteoblasts, RANK Ligand, Skeletal muscle, Osteoblast, Cell Differentiation, Glycoprotein 130, RUNX2, Mice, Inbred C57BL, Endocrinology, medicine.anatomical_structure, RANKL, Culture Media, Conditioned, biology.protein, Cytokines, Chemokines
Abstract

Muscle and bone are intimately linked by bi-directional signals regulating both muscle and bone cell gene expression and proliferation. It is generally accepted that muscle cells secrete factors (myokines) that influence adjacent bone cells, but these myokines are yet to be identified. We have previously shown that osteocyte-specific deletion of the co-receptor subunit utilized by IL-6 family cytokines, glycoprotein 130 (gp130), resulted in impaired bone formation in the trabecular bone, but enhanced periosteal expansion, suggesting a gp130-dependent periosteum-specific inhibition of osteoblast function, potentially induced by the local muscle fibres. We report here that differentiated primary calvarial osteoblasts cultured in myotube-conditioned media (CM) from myogenic C2C12 cells show reduced mRNA levels of genes associated with osteoblast differentiation. Alkaline phosphatase protein activity and all mRNA markers of osteoblast differentiation in the tested panel (runx2, osterix, alkaline phosphatase, parathyroid hormone (PTH) receptor, osteoprotegerin, osteocalcin, sclerostin) were reduced following culture with myotube CM. The exception was RANKL, which was significantly elevated in differentiated primary osteoblast cultures expressing osteocytic genes. A cytokine array of the C2C12 myotube-conditioned media identified TIMP-1 and MCP-1 as the most abundant myokines, but treatment with recombinant TIMP-1 or MCP-1 did not inhibit osteoblast gene expression. Rather, the IL-6 family cytokine ciliary neurotrophic factor (CNTF), which we found abundantly expressed by mouse muscle at the transcript and protein level, reduced osteoblast gene expression, although not to the same extent as the myotube-conditioned media. These data indicate that muscle cells secrete abundant TIMP-1, MCP-1, and CNTF, and that of these, only CNTF has the ability to suppress osteoblast function and gene expression in a similar manner to myotube-conditioned medium. This suggests that CNTF is an inhibitory myokine for osteoblasts.

Published
2013

12. Zinc finger protein 467 is a novel regulator of osteoblast and adipocyte commitment

Author

Julie M. Quach, Natalie A. Sims, Atsushi Yokoyama, T. John Martin, Emma C. Walker, Matthew T. Gillespie, Shigeaki Kato, Melissa Solano, and E H Allan

Subjects
Transcriptional Activation, medicine.medical_specialty, Stromal cell, Cellular differentiation, Response Elements, Biochemistry, Cell Line, chemistry.chemical_compound, Mice, Transduction, Genetic, Adipocyte, Internal medicine, medicine, Adipocytes, Animals, Progenitor cell, Molecular Biology, Osteoblasts, biology, Mesenchymal stem cell, Oncostatin M, Nuclear Proteins, Osteoblast, Cell Differentiation, Cell Biology, Antigens, Differentiation, Cell biology, DNA-Binding Proteins, medicine.anatomical_structure, Endocrinology, Retroviridae, chemistry, Osteocyte, biology.protein, Osteoporosis, Transcription Factors
Abstract

Osteoblasts and adipocytes are derived from common mesenchymal progenitor cells. The bone loss of osteoporosis is associated with altered progenitor differentiation from an osteoblastic to an adipocytic lineage. cDNA microarrays and quantitative real-time PCR (Q-PCR) were carried out in a differentiating mouse stromal osteoblastic cell line, Kusa 4b10, to identify gene targets of factors that stimulate osteoblast differentiation including parathyroid hormone (PTH) and gp130-binding cytokines, oncostatin M (OSM) and cardiotrophin-1 (CT-1). Zinc finger protein 467 (Zfp467) was rapidly down-regulated by PTH, OSM, and CT-1. Retroviral overexpression and RNA interference for Zfp467 in mouse stromal cells showed that this factor stimulated adipocyte formation and inhibited osteoblast commitment compared with controls. Regulation of adipocyte markers, including peroxisome proliferator-activated receptor (PPAR) γ, C/EBPα, adiponectin, and resistin, and late osteoblast/osteocyte markers (osteocalcin and sclerostin) by Zfp467 was confirmed by Q-PCR. Intra-tibial injection of calvarial cells transduced with retroviral Zfp467 doubled the number of marrow adipocytes in C57Bl/6 mice compared with vector control-transduced cells, providing in vivo confirmation of a pro-adipogenic role of Zfp467. Furthermore, Zfp467 transactivated a PPAR-response element reporter construct and recruited a histone deacetylase complex. Thus Zfp467 is a novel co-factor that promotes adipocyte differentiation and suppresses osteoblast differentiation. This has relevance to therapeutic interventions in osteoporosis, including PTH-based therapies currently available, and may be of relevance for the use of adipose-derived stem cells for tissue engineering.

Published
2010

13. Ciliary neurotrophic factor inhibits bone formation and plays a sex-specific role in bone growth and remodeling

Author

S. Pompolo, Emma C. Walker, Ingrid J Poulton, Julian M.W. Quinn, Natalie A. Sims, T. John Martin, and Narelle E. McGregor

Subjects
musculoskeletal diseases, medicine.medical_specialty, Bone Regeneration, Endocrinology, Diabetes and Metabolism, Osteoporosis, Leukemia inhibitory factor receptor, Ciliary neurotrophic factor, Bone remodeling, Mice, Endocrinology, Sex Factors, Osteogenesis, Internal medicine, Bone cell, medicine, Animals, Orthopedics and Sports Medicine, Cell Lineage, Ciliary Neurotrophic Factor, RNA, Messenger, Bone regeneration, Receptor, Ciliary Neurotrophic Factor, Cells, Cultured, Bone growth, Mice, Knockout, Sex Characteristics, Osteoblasts, biology, Chemistry, Osteoblast, Cell Differentiation, medicine.disease, Up-Regulation, Mice, Inbred C57BL, medicine.anatomical_structure, biology.protein, Cytokines, Bone Remodeling, Signal Transduction
Abstract

Ciliary neurotrophic factor (CNTF) receptor (CNTFR) expression has been described in osteoblast-like cells, suggesting a role for CNTF in bone metabolism. When bound to CNTF, neuropoietin (NP), or cardiotrophin-like-cytokine (CLC), CNTFR forms a signaling complex with gp130 and the leukemia inhibitory factor receptor, which both play critical roles in bone cell biology. This study aimed to determine the role of CNTFR-signaling cytokines in bone. Immunohistochemistry detected CNTF in osteoblasts, osteocytes, osteoclasts, and proliferating chondrocytes. CNTFR mRNA was detected in primary calvarial osteoblasts and was upregulated during osteoblast differentiation. Treatment of osteoblasts with CNTF or CLC, but not NP, significantly inhibited mineralization and osterix mRNA levels. Twelve-week-old male CNTF ( -/- ) mice demonstrated reduced femoral length, cortical thickness, and periosteal circumference; but femoral trabecular bone mineral density (Tb.BMD) and tibial trabecular bone volume (BV/TV) were not significantly different from wild-type, indicating a unique role for CNTF in bone growth in male mice. In contrast, female CNTF ( -/- ) femora were of normal width, but femoral Tb.BMD, tibial BV/TV, trabecular number, and trabecular thickness were all increased. Female CNTF ( -/- ) tibiae also demonstrated high osteoblast number and mineral apposition rate compared to wild-type littermates, and this was intrinsic to the osteoblast lineage. CNTF is expressed locally in bone and plays a unique role in female mice as an inhibitor of trabecular bone formation and in male mice as a stimulus of cortical growth.

Published
2009

14. Antisense-mediated suppression of hyaluronan synthase 2 inhibits the tumorigenesis and progression of breast cancer

Author

Mark Waltham, Susan K. Nilsson, Tracey Jean Brown, Paraskevi Heldin, Erik W. Thompson, Tony Blick, Gary Russell Brownlee, Emma C. Walker, and Lisanthi Udabage

Subjects
endocrine system, Cancer Research, Mice, Nude, Breast Neoplasms, Cell Growth Processes, Adenocarcinoma, Hyaluronan Synthase 2, medicine.disease_cause, Transfection, Resting Phase, Cell Cycle, DNA, Antisense, Metastasis, Glycosaminoglycan, chemistry.chemical_compound, Mice, Cell Movement, Cell Line, Tumor, Hyaluronic acid, medicine, Animals, Humans, Glucuronosyltransferase, Hyaluronic Acid, biology, CD44, G1 Phase, Genetic Therapy, medicine.disease, Hyaluronan-mediated motility receptor, Oncology, chemistry, Tumor progression, biology.protein, Cancer research, Disease Progression, Mice, Inbred CBA, Female, Carcinogenesis, Hyaluronan Synthases
Abstract

The progression of several cancers is correlated with the increased synthesis of the glycosaminoglycan, hyaluronan. Hyaluronan is synthesized at the plasma membrane by various isoforms of hyaluronan synthases (HAS). The importance of HAS2 expression in highly invasive breast cancer was characterized by the antisense inhibition of HAS2 (ASHAS2). The effect of HAS2 inhibition on cell proliferation, migration, hyaluronan metabolism, and receptor status was characterized in vitro, whereas the effect on tumorigenicity and metastasis was established in vivo. HAS2 inhibition resulted in a 24-hour lag in proliferation that was concomitant to transient arrest of 79% of the cell population in G0-G1. Inhibition of HAS2 did not alter the expression of the other HAS isoforms, whereas hyaluronidase (HYAL2) and the hyaluronan receptor, CD44, were significantly down-regulated. ASHAS2 cells accumulated greater amounts of high molecular weight hyaluronan (>10,000 kDa) in the culture medium, whereas mock and parental cells liberated less hyaluronan of three distinct molecular weights (100, 400, and 3,000 kDa). The inhibition of HAS2 in the highly invasive MDA-MB-231 breast cancer cell line inhibited the initiation and progression of primary and secondary tumor formation following s.c. and intracardiac inoculation into nude mice, whereas controls readily established both primary and secondary tumors. The lack of primary and secondary tumor formation was manifested by increased survival times where ASHAS2 animals survived 172% longer than the control animals. Collectively, these unique results strongly implicate the central role of HAS2 in the initiation and progression of breast cancer, potentially highlighting the codependency between HAS2, CD44, and HYAL2 expression.

Published
2005

15. Pro-matrix metalloproteinase-2 transfection increases orthotopic primary growth and experimental metastasis of MDA-MB-231 human breast cancer cells in nude mice

Author

Emma C. Walker, Mark Waltham, Marc E. Lippman, Erik W. Thompson, Margaret M. Bills, Angus M. Tester, Se Jeong Oh, Francis G. Kern, William G. Stetler-Stevenson, and Seog Nyeon Bae

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Lung Neoplasms, Cell, Transplantation, Heterologous, Mice, Nude, Breast Neoplasms, Biology, Transfection, Gene Expression Regulation, Enzymologic, Metastasis, Mice, Breast cancer, Cell Line, Tumor, medicine, Animals, Humans, Neoplasm Invasiveness, Neoplasm Metastasis, Matrigel, Enzyme Precursors, Brain Neoplasms, Liver Neoplasms, Cancer, Metalloendopeptidases, medicine.disease, Kidney Neoplasms, Recombinant Proteins, Gene Expression Regulation, Neoplastic, medicine.anatomical_structure, Oncology, Cell culture, Gelatinases, Cancer cell, Cancer research, Female, Cell Division
Abstract

The ability to activate pro-matrix metalloproteinase (pro-MMP)-2 via membrane type-MMP is a hallmark of human breast cancer cell lines that show increased invasiveness, suggesting that MMP-2 contributes to human breast cancer progression. To investigate this, we have stably transfected pro-MMP-2 into the human breast cancer cell line MDA-MB-231, which lacks MMP-2 expression but does express its cell surface activator, membrane type 1-MMP. Multiple clones were derived and shown to produce pro-MMP-2 and to activate it in response to concanavalin A. In vitro analysis showed that the pro-MMP-2-transfected clones exhibited an increased invasive potential in Boyden chamber and Matrigel outgrowth assays, compared with the parental cells or those transfected with vector only. When inoculated into the mammary fat pad of nude mice, each of the MMP-2-tranfected clones grew faster than each of the vector controls tested. After intracardiac inoculation into nude mice, pro-MMP-2-transfected clones showed a significant increase in the incidence of metastasis to brain, liver, bone, and kidney compared with the vector control clones but not lung. Increased tumor burden was seen in the primary site and in lung metastases, and a trend toward increased burden was seen in bone, however, no change was seen in brain, liver, or kidney. This data supports a role for MMP-2 in breast cancer progression, both in the growth of primary tumors and in their spread to distant organs. MMP-2 may be a useful target for breast cancer therapy when refinement of MMP inhibitors provides for MMP-specific agents.

Published
2004

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