Your search keyword '"Bravenboer, N."' showing total 121 results

1. Ground reaction forces during walking with different load and slope combinations in rats

Author

Bravenboer, N., van Rens, B. T. T. M., van Essen, H. W., van Dieën, J. H., and Lips, P.

Published

2017

2. The use of a biphasic calcium phosphate in a maxillary sinus floor elevation procedure: a clinical, radiological, histological, and histomorphometric evaluation with 9- and 12-month healing times

Author

Bouwman, W. F., Bravenboer, N., Frenken, J. W. F. H., ten Bruggenkate, C. M., and Schulten, E. A. J. M.

Published

2017

3. Expression of RANKL in breast cancer tissue in patients with fibrous dysplasia/McCune-Albright syndrome

Author

Meier, M E, Hagelstein-Rotman, M, Majoor, B C J, Geels, R E S, Appelman-Dijkstra, N M, Bravenboer, N, Laboratory Specialized Diagnostics & Reseach, Amsterdam Gastroenterology Endocrinology Metabolism, AMS - Tissue Function & Regeneration, and AMS - Ageing & Vitality

Subjects

GNAS, Histology, Breast cancer, Physiology, Endocrinology, Diabetes and Metabolism, RANKL, Fibrous dysplasia, McCune -Albright syndrome

Abstract

BACKGROUND: In fibrous dysplasia/McCune-Albright syndrome (FD/MAS), mosaic mutations in the GNAS gene lead to locally abnormal bone turnover. Additionally, patients with FD/MAS, particularly with thoracic lesions, have an increased risk for breast cancer. Development and progression of breast cancer has been associated with expression of Receptor Activator of NF-κB ligand (RANKL) in mammary tissue, and due to the GNAS mutation, RANKL is systemically increased in patients with FD/MAS. Yet it is unknown whether breast cancer in FD/MAS is also dependent on RANKL. We hypothesized that the GNAS mutation might induce RANKL overproduction and an oncogenic niche in mammary tissue, and examined RANKL expression in breast cancer tissue of patients with FD/MAS compared to controls.METHODS: Nine patients with FD/MAS and breast cancer were included and clinical data were retrieved. Patients were matched to controls with breast cancer without FD/MAS based on age and tumor type. Three pregnant breast cancer patients were included as positive controls. Immunohistochemical detection of RANKL was performed on formalin-fixed paraffin-embedded breast cancer specimens. Staining intensity was classified as weak, moderate or intense. The area of positive RANKL staining divided by the total ductal-lobular area was assessed (positive area percentage, PAP). Number of patients with RANKL expression was compared between FD/MAS and control group by chi-square (χ 2) test, the PAP by Mann-Whitney U test (MWU). RESULTS: RANKL expression was observed in 3 patients with FD/MAS (38 %), mainly in healthy tissue, and none of the control patients (χ 2p = 0.055). The FD/MAS group demonstrated considerably more intense staining than the control group, comparable to positive controls. The median PAP was 0.64 % (range 0.14-2.04 %) in the 3 FD/MAS patients with RANKL expression, 0.01 % (Q1-Q3: 0.0003-0.514 %) in the entire FD/MAS group, 0.006 % (Q1-Q3: 0.001-0.012 %) in the control group (MWU = 0.574), and 0.19 % (0.08-0.32 %) in the pregnant patients. All patients with FD/MAS and RANKL expression had thoracic bone lesions, but no correlation was observed between RANKL expression and presence of the GNAS mutation or FD disease burden. CONCLUSIONS: The triad of a higher number of patients, higher positive area percentage and stronger intensity in the FD/MAS compared to the control group indicates that RANKL may be upregulated in mammary tissue in a subset of patients with FD/MAS, which may explain the increased risk for breast cancer, although the clinical significance remains unclear. Further research is needed to establish risk profiles for the development of RANKL-positive breast cancer and to improve early screening and treatment.

Published

2023

4. 18F-fluoride-PET for dynamic in vivo monitoring of bone formation in multiple myeloma

Author

Regelink, J. C., Raijmakers, P. G., Bravenboer, N., Milek, R., Hoetjes, N. J., de Kreuk, A. M., van Duin, M., Wondergem, M. J., Lips, P., Sonneveld, P., Zijlstra, J. M., and Zweegman, S.

Published

2016

5. Enfermedad inflamatoria intestinal e inflamación ósea extraintestinal asociada

Author

Bodegraven, A. Van and Bravenboer, N.

Published

2021

6. Reporting Guidelines, Review of Methodological Standards, and Challenges Toward Harmonization in Bone Marrow Adiposity Research. Report of the Methodologies Working Group of the International Bone Marrow Adiposity Society

Author

Tratwal, J, Labella, R, Bravenboer, N, Kerckhofs, G, Douni, E, Scheller, EL, Badr, S, Karampinos, DC, Beck-Cormier, S, Palmisano, B, Poloni, A, Moreno-Aliaga, MJ, Fretz, J, Rodeheffer, MS, Boroumand, P, Rosen, CJ, Horowitz, MC, van der Eerden, Bram, Veldhuis-Vlug, AG, Naveiras, O, Tratwal, J, Labella, R, Bravenboer, N, Kerckhofs, G, Douni, E, Scheller, EL, Badr, S, Karampinos, DC, Beck-Cormier, S, Palmisano, B, Poloni, A, Moreno-Aliaga, MJ, Fretz, J, Rodeheffer, MS, Boroumand, P, Rosen, CJ, Horowitz, MC, van der Eerden, Bram, Veldhuis-Vlug, AG, and Naveiras, O

Published

2020

7. Collagen type I α1 Sp1 polymorphism, osteoporosis, and intervertebral disc degeneration in older men and women

Author

Pluijm, S M F, van Essen, H W, Bravenboer, N, Uitterlinden, A G, Smit, J H, Pols, H A P, and Lips, P

Published

2004

8. Generation of Fibrodysplasia ossificans progressiva and control integration free iPSC lines from periodontal ligament fibroblasts

Author

Sanchez-Duffhues, G., primary, Mikkers, H., additional, de Jong, D., additional, Szuhai, K., additional, de Vries, T.J., additional, Freund, C., additional, Bravenboer, N., additional, van Es, R.J.J., additional, Netelenbos, J.C., additional, Goumans, M.-.J., additional, Eekhoff, E.M.W., additional, and ten Dijke, P., additional

Published

2019

9. Generation of Fibrodysplasia ossificans progressiva and control integration free iPSC lines from periodontal ligament fibroblasts

Author

Sanchez-Duffhues, G., Mikkers, H., de Jong, D., Szuhai, K., de Vries, T. J., Freund, C., Bravenboer, N., van Es, R. J.J., Netelenbos, J. C., Goumans, M. J., Eekhoff, E. M.W., ten Dijke, P., Sanchez-Duffhues, G., Mikkers, H., de Jong, D., Szuhai, K., de Vries, T. J., Freund, C., Bravenboer, N., van Es, R. J.J., Netelenbos, J. C., Goumans, M. J., Eekhoff, E. M.W., and ten Dijke, P.

Published

2019

10. Generation of Fibrodysplasia ossificans progressiva and control integration free iPSC lines from periodontal ligament fibroblasts

Author

Zorgeenheid MKA/BT Zorg, MS Hoofd-Hals Chirurgische Oncologie, Cancer, Sanchez-Duffhues, G., Mikkers, H., de Jong, D., Szuhai, K., de Vries, T. J., Freund, C., Bravenboer, N., van Es, R. J.J., Netelenbos, J. C., Goumans, M. J., Eekhoff, E. M.W., ten Dijke, P., Zorgeenheid MKA/BT Zorg, MS Hoofd-Hals Chirurgische Oncologie, Cancer, Sanchez-Duffhues, G., Mikkers, H., de Jong, D., Szuhai, K., de Vries, T. J., Freund, C., Bravenboer, N., van Es, R. J.J., Netelenbos, J. C., Goumans, M. J., Eekhoff, E. M.W., and ten Dijke, P.

Published

2019

11. Flare-up after maxillofacial surgery in a patient with fibrodysplasia ossificans progressiva: An [18F]-NaF PET/CT study and a systematic review

Author

Eekhoff, E.M.W., Netelenbos, J.C., de Graaf, P., Hoebink, M., Bravenboer, N., Micha, D., Pals, G., de Vries, T.J., Lammertsma, A.A., Raijmakers, P.G.H.M., van Es, R.J.J., Periodontology, and Parodontologie (OII, ACTA)

Abstract

Fibrodysplasia ossificans progressiva (FOP) is a rare genetic disorder leading to progressive heterotopic ossifications (HO) of muscles, tendons, and ligaments, which can be induced by trauma or by surgery. Despite strong medical advice to the contrary, an FOP patient insisted on surgery to alleviate her complete trismus, which caused an unbearable impact on her quality of life (QOL). The entire trismus history of this FOP patient is presented. [18F]-NaF position emission tomography/computed tomography (PET/CT) scans were introduced as an imaging method for heterotopic bone formation activity. To place our findings into context, a systematic review on jaw surgery in FOP was performed. After falling down the stairs, a 9-year-old patient developed mobility impairment of her left-sided jaw. During the following 13 years bone scintigraphy showed persistent activity of the disease leading to progressive left-sided zygomatico-mandibular fusion by HO, resulting in complete trismus. Within 1 month after HO removal on the left side and a matching right coronoidectomy, [18F]-NaF PET/CT demonstrated a substantial flare-up activity followed by new HO in both masseter and temporalis muscles. Despite recurrent HO and trismus her QOL increased due to a stable increased interincisal opening of 5.5 mm. Although systematic review reveals a 100% risk of HO recurrence after jaw surgery, information on improved QOL is scarce. In conclusion, surgery in FOP may be beneficial for QOL despite new HO formation. Assessment of disease activity using [18F]-NaF PET/CT is possible before HO is evident on CT and may serve as a new and quantitative marker of the disease. © 2017 The Authors. JBMR Plus Published by Wiley Periodicals, Inc. on behalf of the American Society for Bone and Mineral Research.

Published

2018

12. Bone Marrow Adipose Tissue and Bone Turnover in Postmenopausal Osteoporotic Women and the Effects of Raloxifene

Author

Beekman, K., Veldhuis-Vlug, A., Heijer, M. den, Maas, M., Lips, P., Ott, S., Hof, R. van 't, Bisschop, P., Bravenboer, N., Internal medicine, Amsterdam Movement Sciences - Restoration and Development, APH - Health Behaviors & Chronic Diseases, APH - Aging & Later Life, AGEM - Endocrinology, metabolism and nutrition, and Clinical chemistry

Published

2017

13. Ovariectomy increases RANKL protein expression in bone marrow adipocytes of C3H/HeJ mice

Author

UCL - SST/IMMC/MEED - Mechatronic, Electrical Energy, and Dynamics Systems, Beekman, Kerensa M., Zwaagstra, Marleen, Veldhuis-Vlug, Annegreet G., de Heijer, Martin, Maas, Mario, Kerckhofs, Greet, Parac-Vogt, Tatjana N., Bisschop, Peter H., Bravenboer N., 28th Annual Meeting of the Nederlandse Vereniging voor Calcium- en Botstofwisseling (NVCB 2018), UCL - SST/IMMC/MEED - Mechatronic, Electrical Energy, and Dynamics Systems, Beekman, Kerensa M., Zwaagstra, Marleen, Veldhuis-Vlug, Annegreet G., de Heijer, Martin, Maas, Mario, Kerckhofs, Greet, Parac-Vogt, Tatjana N., Bisschop, Peter H., Bravenboer N., and 28th Annual Meeting of the Nederlandse Vereniging voor Calcium- en Botstofwisseling (NVCB 2018)

Published

2018

14. Histomorphometric Analysis Reveals Reduced Bone Mass and Bone Formation in Patients With Quiescent Crohn's Disease

Author

Oostlander, A.E., Bravenboer, N., Sohl, E., Holzmann, P.J., Woude, C.J. van der, Dijkstra, G., Stokkers, P.C.F., Oldenburg, B., Netelenbos, J.C., Hommes, D.W., Bodegraven, A.A. van, Lips, P., Dutch Initiative Crohn Colitis ICC, Research Institute MOVE, Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI), Translational Immunology Groningen (TRIGR), Groningen Institute for Organ Transplantation (GIOT), Internal medicine, Clinical chemistry, Epidemiology and Data Science, Gastroenterology and hepatology, MOVE Research Institute, CCA - Innovative therapy, Other departments, Internal Medicine, and Gastroenterology & Hepatology

Subjects

Pathology, medicine.medical_specialty, Bone density, Bone Histomorphometry, GASTROINTESTINAL-DISEASE, Osteoporosis, Inflammatory bowel disease, Bone resorption, Pathogenesis, Biopsy, medicine, Hepatology, medicine.diagnostic_test, Bone Histomorphometry Osteocyte Apoptosis Inflammatory Bowel Disease Osteoporosis inflammatory-bowel-disease osteocyte density gastrointestinal-disease postmenopausal women osteoporosis raloxifene, OSTEOCYTE DENSITY, business.industry, Osteocyte Apoptosis, Inflammatory Bowel Disease, Gastroenterology, medicine.disease, Crohn's Disease Activity Index, medicine.anatomical_structure, POSTMENOPAUSAL WOMEN, RALOXIFENE, Osteocyte, business, INFLAMMATORY-BOWEL-DISEASE

Abstract

Background & Aims: Crohn's disease (CD) is associated with an increased prevalence of osteoporosis, but the pathogenesis of this bone loss is only partly understood. We assessed bone structure and remodeling at the tissue level in patients with quiescent CD. We also investigated the roles of osteocyte density and apoptosis in CD-associated bone loss. Methods: The study included 23 patients with quiescent CD; this was a subgroup of patients from a large randomized, double-blind, placebo-controlled, multicenter trial. We obtained transiliac bone biopsy samples and performed histomorphometric analysis. Results: were compared with data from age- and sex-matched healthy individuals (controls). Results: Trabecular bone volume was decreased among patients with CD compared with controls (18.90% vs 25.49%; P < .001). The low bone volume was characterized by decreased trabecular thickness (120.61 vs 151.42 μm; P < .01). Bone formation and resorption were reduced, as indicated by a decreased mineral apposition rate (0.671 vs 0.746 μm/day; P < .01) and a low osteoclast number and surface area compared with controls and published values, respectively. In trabecular bone of patients with CD, osteocyte density and apoptosis were normal. The percentage of empty lacunae among patients was higher than that of published values in controls. Conclusions:: In adult patients with quiescent CD, bone histomorphometric analysis revealed a reduction in bone mass that was characterized by trabecular thinning. The CD-associated bone loss was caused by reduced bone formation, possibly as a consequence of decreased osteocyte viability in the patients' past. © 2011 AGA Institute.

Published

2011

15. The association between common vitamin D receptor gene variations and osteoporosis

Author

Uitterlinden, A. G., Ralston, S. H., Brandi, M. L., Carey, A. H., Grinberg, D., Langdahl, B. L., Lips, P., Lorenc, R., Obermayer-Pietsxch, B., Reeve, J., Reid, D. M., Amedei, A., Bassiti, A., Bustamante, M., Husted, L. B., Diez-Perez, A., Dobnig, H., Dunning, A. M., Enjuanes, A., Fahrleitner-Pammer, A., Fang, Y., Karczmarewicz, E., Kruk, M., Johannes van Leeuwen, Mavilia, C., Meurs, J. B. J., Mangion, J., Mcguigan, F. E. A., Pols, H. A. P., Renner, W., Rivadeneira, F., Schoor, N. M., Scollen, S., Sherlock, R. E., Ioannidis, J. P. A., Parsons, C., Bear, S., Farmer, R., Lukaszkiewicz, J., Bilinski, P., Czerwinski, E., Lewinski, A., Marcinowska-Suchowierska, E., Milewicz, A., Spaczynski, M., Jaworski, M., Nuti, R., Grazio, S., Miazgowski, T., Boonen, R., Masaryk, P., Stepan, J. J., Lopes Vaz, A., Cannata, J., Weber, K., Benevolenskaya, L. I., Todd, C., Khaw, K. -T, Da Silva, J., Bhalla, A., Poor, G., Bruges Armas, J., Lyritis, G., O Neill, T. W., Lunt, M., Compston, J., Cooper, C., Duncan, E., Keen, R., Mclellan, A., Wass, J., Dekema, E., Essen, H., Pluijm, S., Bravenboer, N., Hofman, A., Duijn, C. M., Jong, P. J., Breteler, M. M., Stricker, B. H., Witteman, J. C., Internal medicine, VU University medical center, and Internal Medicine

Subjects

Male, Bone density, Osteoporosis, Osteoporosis/*genetics, Fractures, Bone/genetics, Calcitriol receptor, Fractures, Bone, chemistry.chemical_compound, Bone Density, Receptors, Calcitriol/*genetics, CDX2 Transcription Factor, Prospective Studies, Deoxyribonucleases, Type II Site-Specific, Promoter Regions, Genetic, education.field_of_study, biology, General Medicine, Middle Aged, FokI, Vitamin D3 Receptor, Female, musculoskeletal diseases, Adult, Bone Density/*genetics, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, TaqI, Genotype, Population, Polymorphism, Genetic, Homeodomain Proteins/*genetics, Internal medicine, Internal Medicine, medicine, Vitamin D and neurology, Humans, education, Aged, Homeodomain Proteins, business.industry, medicine.disease, Endocrinology, chemistry, Haplotypes, biology.protein, Receptors, Calcitriol, business

Abstract

Background: Polymorphisms of the vitamin D receptor (VDR) gene have been implicated in the genetic regulation of bone mineral density (BMD). However, the clinical impact of these variants remains unclear. Objective: To evaluate the relation between VDR polymorphisms, BMD, and fractures. Design: Prospective multicenter large-scale association study. Setting: The Genetic Markers for Osteoporosis consortium, involving 9 European research teams. Participants: 26 242 participants (18 405 women). Measurements: Cdx2 promoter, FokI, BsmI, ApaI, and TaqI polymorphisms; BMD at the femoral neck and the lumbar spine by dual x-ray absorptiometry; and fractures. Results: Comparisons of BMD at the lumbar spine and femoral neck showed nonsignificant differences less than 0.011 g/cm2 for any genotype with or without adjustments. A total of 6067 participants reported a history of fracture, and 2088 had vertebral fractures. For all VDR alleles, odds ratios for fractures were very close to 1.00 (range, 0.98 to 1.02) and collectively the 95% CIs ranged from 0.94 (lowest) to 1.07 (highest). For vertebral fractures, we observed a 9% (95% CI, 0% to 18%; P = 0.039) risk reduction for the Cdx2 A-allele (13% risk reduction in a dominant model). Limitations: The authors analyzed only selected VDR polymorphisms. Heterogeneity was detected in some analyses and may reflect some differences in collection of fracture data across cohorts. Not all fractures were related to osteoporosis. Conclusions: The FokI, BsmI, ApaI, and TaqI VDR polymorphisms are not associated with BMD or with fractures, but the Cdx2 polymorphism may be associated with risk for vertebral fractures.

Published

2006

16. Effects of Chronic Estrogen Administration in the Ventromedial Nucleus of the Hypothalamus (VMH) on Fat and Bone Metabolism in Ovariectomized Rats

Author

Zhang, Z., primary, Liu, J., additional, Veldhuis-Vlug, A. G., additional, Su, Y., additional, Foppen, E., additional, van der Eerden, B. C. J., additional, Koedam, M., additional, Bravenboer, N., additional, Kalsbeek, A., additional, Boelen, A., additional, Fliers, E., additional, and Bisschop, P. H., additional

Published

2016

17. No role for vitamin D or a moderate fat diet in aging induced cognitive decline and emotional reactivity in C57BL/6 mice

Author

Brouwer-Brolsma, E.M., Schuurman, T., de Groot, L.C.P.G.M., Feskens, E.J.M., Lute, C., Naninck, E.F.G., Arndt, S.S., van der Staay, F.J., Bravenboer, N., Korosi, A., Steegenga, W.T., Dep Gezondheidszorg Landbouwhuisdieren, LS Dierenwelzijn & Proefdierkunde, Dep of Animals in Science and Society, ASS E&C2, FAH E&C, Emotion and Cognition, Structural and Functional Plasticity of the nervous system (SILS, FNWI), Dep Gezondheidszorg Landbouwhuisdieren, LS Dierenwelzijn & Proefdierkunde, Dep of Animals in Science and Society, ASS E&C2, FAH E&C, Emotion and Cognition, Clinical chemistry, and MOVE Research Institute

Subjects

Blood Glucose, Male, Aging, Nutrition and Disease, Animal Nutrition, Emotions, Morris water navigation task, Open field, pre-post, Voeding, Metabolisme en Genomica, Behavioral Neuroscience, Random Allocation, depressive symptoms, Pre diabetes type II, Cognition, Voeding en Ziekte, Glucose homeostasis, Insulin, older women, Cognitive decline, alzheimers-disease, Vitamin D, Fasting, Diervoeding, d supplementation, Metabolism and Genomics, Emotional reactivity, Metabolisme en Genomica, Nutrition, Metabolism and Genomics, Psychology, Wageningen Livestock Research, medicine.medical_specialty, Elevated plus maze, d deficiency, brain, vitamin D deficiency, insulin-resistance, Insulin resistance, Voeding, serum 25-hydroxyvitamin d, Internal medicine, medicine, Vitamin D and neurology, Animals, Affective Symptoms, Maze Learning, VLAG, Nutrition, Global Nutrition, Wereldvoeding, Body Weight, association, Recognition, Psychology, medicine.disease, Vitamin D Deficiency, Dietary Fats, Survival Analysis, Diet, Mice, Inbred C57BL, Endocrinology, Cognition Disorders

Abstract

Background Epidemiological studies have shown associations between vitamin D, mental health and glucose homeostasis in the elderly. Causal evidence, however, is still lacking. Objective The objective of this study was to investigate the importance of vitamin D in the prevention of emotional disturbances and cognitive decline in aging C57BL/6 mice, with pre-diabetes type II as potential effect modifier. Methods Mice were exposed to one of four diets from 10 months till 24 months of age: low fat vitamin D adequate (LFD), LF vitamin D deficient (LF), moderate fat vitamin D adequate (MFD), and MF vitamin D deficient (MF). The MFD/MF diet was applied to induce a condition resembling pre-diabetes type II. Behavior was assessed twice in the same group of mice at 6–8 and at 22–23 months of age using the Open Field Test (OFT), Elevated Plus Maze (EPM), Object Recognition Test (ORT) and the Morris Water Maze (MWM). Results We successfully induced vitamin D deficiency in the LF/MF mice. Moreover, fasting glucose and fasting insulin levels were significantly higher in MFD/MF mice than in LFD/LF mice. A significant aging effect was observed for most behavioral parameters. A MF(D) diet was shown to delay or prevent the age-related increase in emotional reactivity in the EPM. No effect of vitamin D or vitamin D*fat on behavioral outcomes was measured. Conclusion Aging significantly affected emotional reactivity and cognitive performance. Although other studies have shown effects of vitamin D on emotional reactivity and cognitive performance in mice, these findings could not be confirmed in aged C57BL/6 mice in this study.

Published

2014

18. A Large Human Centrifuge for Exploration and Exploitation Research

Author

Loon, J. J. W. A., Baeyens, J. P., Berte, J., Blanc, S., Braak, L., Bok, K., Jelte Bos, Boyle, R., Bravenboer, N., Eekhoff, E. M. W., Chouker, A., Clement, G., Cras, P., Cross, E., Custaud, M. A., Angelis, M., Delavaux, T., Delfos, R., Poelma, C., Denise, P., Felsenberg, D., Fong, K., Fuller, C., Grillner, S., Groen, E., Harlaar, J., Heer, M., Heglund, N., Hinghofer-Szalkay, H., Goswami, N., Hughes-Fulford, M., Iwase, S., Karemaker, J. M., Langdahl, B. L., Linnarsson, D., Lüthen, C., Monici, M., Mulder, E., Narici, M. V., Norsk, P., Paloski, W., Prisk, K., Rutten, M., Singer, P., Stegeman, D. F., Stephan, A., Stienen, G. J. M., Suedfeld, P., Tesch, P., Ullrich, O., Den Berg, R., Heyning, P., Delahaye, A., Veyt, J., Vico, L., Woodward, E., Young, L., Wuyts, F. L., Oral and Maxillofacial Surgery / Oral Pathology, Clinical chemistry, Internal medicine, Rehabilitation medicine, Physiology, MOVE Research Institute, Kinesiology, Movement Behavior, and Research Institute MOVE

Published

2012

19. Primary human osteoblasts in response to 25-hydroxyvitamin D3, 1,25-dihydroxyvitamin D3and 24R,25-dihydroxyvitamin D3

Author

Van Der Meijden, K. (Karen), Lips, P. (Paul), Driel, M. (Marjolein) van, Heijboer, M.P. (Rien), Schulten, E.A.J.M. (Engelbert A. J. M.), Heijer, M. (Martin) den, Bravenboer, N. (Nathalie), Van Der Meijden, K. (Karen), Lips, P. (Paul), Driel, M. (Marjolein) van, Heijboer, M.P. (Rien), Schulten, E.A.J.M. (Engelbert A. J. M.), Heijer, M. (Martin) den, and Bravenboer, N. (Nathalie)

Abstract

The most biologically active metabolite 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) has well known direct effects on osteoblast growth and differentiation in vitro. The precursor 25-hydroxyvitamin D3 (25(OH)D3) can affect osteoblast function via conversion to 1,25(OH)2D3, however, it is largely unknown whether 25(OH)D3 can affect primary osteoblast function on its own. Furthermore, 25(OH)D3 is not only converted to 1,25(OH)2D3, but also to 24R,25-dihydroxyvitamin D3 (24R,25(OH)2D3) which may have bioactivity as well. Therefore we used a primary human osteoblast model to examine whether 25(OH)D3 itself can affect osteoblast function using CYP27B1 silencing and to investigate whether 24R,25(OH)2D3 can affect osteoblast function. We showed that primary human osteoblasts responded to both 25(OH)D3 and 1,25(OH)2D3 by reducing their proliferation and enhancing their differentiation by the increase of alkaline phosphatase, osteocalcin and osteopontin expression. Osteoblasts expressed CYP27B1 and CYP24 and synthesized 1,25(OH)2D3 and 24R,25(OH)2D3 dose-dependently. Silencing of CYP27B1 resulted in a decline of 1,25(OH)2D3 synthesis, but we observed no significant differences in mRNA levels of differentiation markers in CYP27B1-silenced cells compared to control cells after treatment with 25(OH)D3. We demonstrated that 24R,25(OH)2D3 increased mRNA levels of alkaline phosphatase, osteocalcin and osteopontin. In addition, 24R,25(OH)2D3 strongly increased CYP24 mRNA. In conclusion, the vitamin D metabolites 25(OH)D3, 1,25(OH)2D3 and 24R,25(OH)2D3 can affect osteoblast differentiation directly or indirectly. We showed that primary human osteoblasts not only respond to 1,25(OH)2D3, but also to 24R,25(OH)2D3 by enhancing osteoblast differentiation. This suggests that 25(OH)D3 can affect osteoblast differentiation via conversion to the active metabolite 1,25(OH)2D3, but also via conversion to 24R,25(OH)2D3. Whether 25(OH)D3 has direct actions on osteoblast function needs further investi

Published

2014

20. No role for vitamin D or a moderate fat diet in aging induced cognitive decline and emotional reactivity in C57BL/6 mice

Author

Dep Gezondheidszorg Landbouwhuisdieren, LS Dierenwelzijn & Proefdierkunde, Dep of Animals in Science and Society, ASS E&C2, FAH E&C, Emotion and Cognition, Brouwer-Brolsma, E.M., Schuurman, T., de Groot, L.C.P.G.M., Feskens, E.J.M., Lute, C., Naninck, E.F.G., Arndt, S.S., van der Staay, F.J., Bravenboer, N., Korosi, A., Steegenga, W.T., Dep Gezondheidszorg Landbouwhuisdieren, LS Dierenwelzijn & Proefdierkunde, Dep of Animals in Science and Society, ASS E&C2, FAH E&C, Emotion and Cognition, Brouwer-Brolsma, E.M., Schuurman, T., de Groot, L.C.P.G.M., Feskens, E.J.M., Lute, C., Naninck, E.F.G., Arndt, S.S., van der Staay, F.J., Bravenboer, N., Korosi, A., and Steegenga, W.T.

Published

2014

21. Primary Human Osteoblasts in Response to 25-Hydroxyvitamin D-3, 1,25-Dihydroxyvitamin D-3 and 24R, 25-Dihydroxyvitamin D-3

Author

van der Meijden, K, Lips, P, Driel, Marjolein, Heijboer, AC, Schulten, EAJM, Heijer, Mariska, Bravenboer, N, van der Meijden, K, Lips, P, Driel, Marjolein, Heijboer, AC, Schulten, EAJM, Heijer, Mariska, and Bravenboer, N

Abstract

The most biologically active metabolite 1,25-dihydroxyvitamin D-3 (1,25(OH)(2)D-3) has well known direct effects on osteoblast growth and differentiation in vitro. The precursor 25-hydroxyvitamin D-3 (25(OH) D-3) can affect osteoblast function via conversion to 1,25(OH)(2)D-3, however, it is largely unknown whether 25(OH) D-3 can affect primary osteoblast function on its own. Furthermore, 25(OH) D-3 is not only converted to 1,25(OH)(2)D-3, but also to 24R, 25-dihydroxyvitamin D-3 (24R, 25(OH)(2)D-3) which may have bioactivity as well. Therefore we used a primary human osteoblast model to examine whether 25(OH) D-3 itself can affect osteoblast function using CYP27B1 silencing and to investigate whether 24R, 25(OH)(2)D-3 can affect osteoblast function. We showed that primary human osteoblasts responded to both 25(OH) D-3 and 1,25(OH)(2)D-3 by reducing their proliferation and enhancing their differentiation by the increase of alkaline phosphatase, osteocalcin and osteopontin expression. Osteoblasts expressed CYP27B1 and CYP24 and synthesized 1,25(OH)(2)D-3 and 24R, 25(OH)(2)D-3 dose-dependently. Silencing of CYP27B1 resulted in a decline of 1,25(OH)(2)D-3 synthesis, but we observed no significant differences in mRNA levels of differentiation markers in CYP27B1-silenced cells compared to control cells after treatment with 25(OH) D-3. We demonstrated that 24R, 25(OH)(2)D-3 increased mRNA levels of alkaline phosphatase, osteocalcin and osteopontin. In addition, 24R, 25(OH)(2)D-3 strongly increased CYP24 mRNA. In conclusion, the vitamin D metabolites 25(OH) D-3, 1,25(OH)(2)D-3 and 24R, 25(OH)(2)D-3 can affect osteoblast differentiation directly or indirectly. We showed that primary human osteoblasts not only respond to 1,25(OH)(2)D-3, but also to 24R, 25(OH)(2)D-3 by enhancing osteoblast differentiation. This suggests that 25(OH) D-3 can affect osteoblast differentiation via conversion to the active metabolite 1,25(OH)(2)D-3, but also via conversion to 24R, 25(OH)(2)D-3. W

Published

2014

22. Collagen type 1 alpha 1 Sp 1 polymorphism, osteoporosis, and intervertebral disc degeneration in older men and women

Author

Pluijm, SMF, van Essen, HW, Bravenboer, N, Uitterlinden, André, Smit, JH, Pols, Huib, Lips, P, and Internal Medicine

Published

2003

23. Effects of concurrent training on oxidative capacity in rat gastrocnemius muscle

Author

Furrer, R., Bravenboer, N., Kos, D., Lips, P., de Haan, A., Jaspers, R.T., Furrer, R., Bravenboer, N., Kos, D., Lips, P., de Haan, A., and Jaspers, R.T.

Abstract

PURPOSE: Training for improvement of oxidative capacity of muscle fibers may be attenuated when concurrently training for peak power. However, because of fiber type-specific recruitment, such attenuation may only account for high-oxidative muscle fibers. Here, we investigate the effects of concurrent training on oxidative capacity (as measured by succinate dehydrogenase (SDH) activity) by using task-specific recruitment of the high- and low-oxidative compartment of rat medial gastrocnemius muscle (GM). METHODS: Forty rats were subjected to 6 wk of peak power training (PT, n = 10), endurance training (ET, n = 10), concurrent peak power and endurance training (PET, n = 10), or no training (control, n = 10). SDH activity, mRNA expression of SDH, peroxisome proliferator-activated receptor-γ coactivator 1α (PGC-1α), receptor-interacting protein 140, and BCL2/adenovirus E1B 19 kDa-interacting protein 3 as well as PGC-1α protein levels were analyzed in the low- and high-oxidative region of the GM. RESULTS: In the low-oxidative compartment, PT and PET induced a 30% decrease in SDH activity of Type IIB fibers compared with controls and ET (P < 0.001) without changes in mRNA or protein levels. In the high-oxidative compartment, after ET, SDH mRNA levels were 42% higher and RIP140 mRNA levels 33% lower compared with controls, which did not result in changes in SDH activity. CONCLUSION: These results indicate that in compartmentalized rat GM, peak power on top of endurance training attenuated transcription of mRNA for mitochondrial proteins in high-oxidative muscle fibers. In low-oxidative Type IIB fibers, peak power training substantially decreased SDH activity, which was not related to lower SDH mRNA levels. It is concluded that PT and PET enhanced mitochondrial degradation in the low-oxidative compartment of rat GM. Copyright © 2013 by the American College of Sports Medicine.

Published

2013

24. Attenuated increase in maximal force of rat medial gastrocnemius muscle after concurrent peak power and endurance training

Author

Furrer, R., Jaspers, R.T., Baggerman, H.L., Bravenboer, N., Lips, P., de Haan, A., Furrer, R., Jaspers, R.T., Baggerman, H.L., Bravenboer, N., Lips, P., and de Haan, A.

Abstract

Improvement of muscle peak power and oxidative capacity are generally presumed to be mutually exclusive. However, this may not be valid by using fibre type-specific recruitment. Since rat medial gastrocnemius muscle (GM) is composed of high and low oxidative compartments which are recruited task specifically, we hypothesised that the adaptive responses to peak power training were unaffected by additional endurance training. Thirty rats were subjected to either no training (control), peak power training (PT), or both peak power and endurance training (PET), which was performed on a treadmill 5 days per week for 6 weeks. Maximal running velocity increased 13.5% throughout the training and was similar in both training groups. Only after PT, GM maximal force was 10% higher than that of the control group. In the low oxidative compartment, mRNA levels of myostatin and MuRF-1 were higher after PT as compared to those of control and PET groups, respectively. Phospho-S6 ribosomal protein levels remained unchanged, suggesting that the elevated myostatin levels after PT did not inhibit mTOR signalling. In conclusion, even by using task-specific recruitment of the compartmentalized rat GM, additional endurance training interfered with the adaptive response of peak power training and attenuated the increase in maximal force after power training. © 2013 Regula Furrer et al.

Published

2013

25. Bone pain and extremely low bone mineral density due to severe vitamin D deficiency in celiac disease

Author

Rabelink, N.M., Westgeest, H.M., Bravenboer, N., Jacobs, M.A.J.M., Lips, P.T.A.M., Rabelink, N.M., Westgeest, H.M., Bravenboer, N., Jacobs, M.A.J.M., and Lips, P.T.A.M.

Abstract

Case report A 29-year-old wheelchair-bound woman was presented to us by the gastroenterologist with suspected osteomalacia. She had lived in the Netherlands all her life and was born of Moroccan parents. Her medical history revealed iron deficiency, growth retardation, and celiac disease, for which she was put on a gluten-free diet. She had progressive bone pain since 2 years, difficulty with walking, and about 15 kg weight loss. She had a short stature, scoliosis, and pronounced kyphosis of the spine and poor condition of her teeth. Laboratory results showed hypocalcemia, an immeasurable serum25-hydroxyvitamin D level, and elevated parathyroid hormone and alkaline phosphatase levels. Spinal radiographs showed unsharp, low contrast vertebrae. Bone mineral density measurement at the lumbar spine and hip showed a T-score of -6.0 and -6.5, respectively. A bone scintigraphy showed multiple hotspots in ribs, sternum, mandible, and long bones. A duodenal biopsy revealed villous atrophy (Marsh 3C) and positive antibodies against endomysium, transglutaminase, and gliadin, compatible with active celiac disease. A bone biopsy showed severe osteomalacia but normal bone volume. She was treated with calcium intravenously and later orally. Furthermore, she was treated with high oral doses of vitamin D and a gluten-free diet. After a few weeks of treatment, her bone pain decreased, and her muscle strength improved. Discussion In this article, the pathophysiology and occurrence of osteomalacia as a complication of celiac disease are discussed. Low bone mineral density can point to osteomalacia as well as osteoporosis. © International Osteoporosis Foundation and National Osteoporosis Foundation 2011.

Published

2011

26. Mechanical loading stimulates BMP7, but not BMP2, production by osteocytes

Author

Santos, A., Bakker, A.D., Willems, H.M.E., Bravenboer, N., Bronckers, A.L.J.J., Klein-Nulend, J., Santos, A., Bakker, A.D., Willems, H.M.E., Bravenboer, N., Bronckers, A.L.J.J., and Klein-Nulend, J.

Abstract

Bone mechanical adaptation is a cellular process that allows bones to adapt their mass and structure to mechanical loading. This process is governed by the osteocytes, which in response to mechanical loading produce signaling molecules that affect osteoblasts and osteoclasts. Bone morphogenic proteins (BMPs) are excellent candidates as signaling molecules, but it is unknown whether mechanically stimulated osteocytes affect bone adaptation through BMP production. Therefore, the aim of this study was to assess whether osteocytes produce BMPs in response to mechanical loading. In addition, since BMP7 has a vitamin D receptor (VDR) response element in the promoter region, we also investigated whether VDR is involved in the BMP7 response to mechanical loading. Human or VDR

Published

2011

27. Vitamin B12 Deficiency Stimulates Osteoclastogenesis via Increased Homocysteine and Methylmalonic Acid

Author

Vaes, B.L.T., Lute, C., Blom, H.J., Bravenboer, N., de Vries, T.J., Everts, V., Dhonukshe-Rutten, R.A.M., Müller, M.R., de Groot, C.P.G.M., Steegenga, W.T., Vaes, B.L.T., Lute, C., Blom, H.J., Bravenboer, N., de Vries, T.J., Everts, V., Dhonukshe-Rutten, R.A.M., Müller, M.R., de Groot, C.P.G.M., and Steegenga, W.T.

Abstract

The risk of nutrient deficiencies increases with age in our modern Western society, and vitamin B12 deficiency is especially prevalent in the elderly and causes increased homocysteine (Hcy) and methylmalonic acid (MMA) levels. These three factors have been recognized as risk factors for reduced bone mineral density and increased fracture risk, though mechanistic evidence is still lacking. In the present study, we investigated the influence of B12, Hcy, and MMA on differentiation and activity of bone cells. B12 deficiency did not affect the onset of osteoblast differentiation, maturation, matrix mineralization, or adipocyte differentiation from human mesenchymal stem cells (hMSCs). B12 deficiency caused an increase in the secretion of Hcy and MMA into the culture medium by osteoblasts, but Hcy and MMA appeared to have no effect on hMSC osteoblast differentiation. We further studied the effect of B12, Hcy, and MMA on the formation of multinucleated tartrate-resistant acid phosphatase¿positive osteoclasts from mouse bone marrow. We observed that B12 did not show an effect on osteoclastogenesis. However, Hcy as well as MMA were found to induce osteoclastogenesis in a dose-dependent manner. On the basis of these results, we conclude that B12 deficiency may lead to decreased bone mass by increased osteoclast formation due to increased MMA and Hcy levels.

Published

2009

28. F-fluoride-PET for dynamic in vivo monitoring of bone formation in multiple myeloma.

Author

Regelink, J., Raijmakers, P., Bravenboer, N., Milek, R., Hoetjes, N., de Kreuk, A., van Duin, M., Wondergem, M., Lips, P., Sonneveld, P., Zijlstra, J., and Zweegman, S.

Subjects

BONE growth, MULTIPLE myeloma diagnosis, BONE diseases, HETEROGENEITY, MULTIPLE myeloma, PREVENTION, PATIENTS, DISEASE risk factors

Abstract

Background: Bone disease in multiple myeloma is characterized by reduced bone formation. The gold standard of bone formation is the mineral apposition rate (MAR), an invasive technique reflecting bone formation at a single site. We compared F-fluoride-PET with the MAR in myeloma patients. Methods: Bone formation was measured before and after bortezomib treatment by determination of the MAR in iliac bone marrow biopsies and the measurement of F-uptake. Results: The inter- and intra-individual variations in F-uptake (SUV) were pronounced as 33.50 (range 4.42 to 37.92) and 27.18 (range 4.00 to 31.18), respectively. A significant correlation between the MAR and F-uptake was found ( r = 0.80, p = 0.017). There was a heterogeneous response after treatment varying from −2.20 to 4.53. Conclusions: Iliac F-uptake was associated with the local MAR in myeloma patients. Furthermore, F-fluoride-PET demonstrated the heterogeneity of in vivo bone formation, enabling monitoring during treatment. [ABSTRACT FROM AUTHOR]

Published

2016

29. Additional weight bearing during exercise and estrogen in the rat: the effect on bone mass, turnover, and structure.

Author

Tromp, A.M., Bravenboer, N., Tanck, E.J.M., Oostlander, A., Holzmann, P.J., Kostense, P.J., Roos, J.C., Burger, E.H., Huiskes, R., Lips, P., Tromp, A.M., Bravenboer, N., Tanck, E.J.M., Oostlander, A., Holzmann, P.J., Kostense, P.J., Roos, J.C., Burger, E.H., Huiskes, R., and Lips, P.

Abstract

Contains fulltext : 51270.pdf (publisher's version ) (Closed access)

Published

2006

30. The distribution and characterization of HNK-1 antigens in the developing avian heart

Author

Luider, T.M. (Theo), Bravenboer, N. (Nathalie), Meijers, C. (Carel), Kamp, A.W.M. (Arthur) van der, Tibboel, D. (Dick), Poelmann, R.E. (Robert), Luider, T.M. (Theo), Bravenboer, N. (Nathalie), Meijers, C. (Carel), Kamp, A.W.M. (Arthur) van der, Tibboel, D. (Dick), and Poelmann, R.E. (Robert)

Abstract

The heart originates from splanchnic mesoderm and to a lesser extent from neural crest cells. The HNK-1 monoclonal antibody is a marker for early migrating neural crest cells, but reacts also with structures which are not derived from the neural crest. We investigated whether heart structures are HNK-1 positive before neural crest cells colonize these target tissues. To that end, we determined the HNK-1 antigen expression in the developing avian heart on immunohistochemical sections and on Western blots. The HNK-1 immunoreactivity in the developing chick heart is compared with data from literature cm the localization of neural crest cells in chick/quail chimeras. Structures with neural crest contribution, including parts of the early outflow tract and the related endocardial cushions, the primordia of the semilunar valve leaflets and the aorticopulmonary septum were HNK-1 positive. Furthermore, other structures were HNK-1 positive, such as the atrioventricular cushions, the wall of the sinus venosus at stage HH 15 through 21, parts of the endocardium at E3, parts of the myocardium at E6, and the extracellular matrix in the myocardial base of the semilunar valves at E14. HNK-1 expression was particularly observed in morphologically dynamic regions such as the developing valves, the outflow tract cushion, the developing conduction system and the autonomie nervous system of the heart. We observed that atrioventricular endocardial cushions are HNK-1 positive. We conclude that: a HNK-1 immunoreactivity does not always coincide with the presence of neural crest cells or their derivatives; (2) the outflow tract cushions and atrioventricular endocardial cushions are HNK-1 positive before neural crest cells are expected (stage HH 19) to enter the endocardial cushions of the outflow tract; (3) the observed spatio-temporal HNK-1 patterns observed in the developing heart correspond with various HNK-1 antigens. Apart from a constant pattern of HNK-1 antigens during development

Published

1993

31. Collagen type I alpha1 Sp1 polymorphism, osteoporosis, and intervertebral disc degeneration in older men and women.

Author

Pluijm, S M F, van Essen, H W, Bravenboer, N, Uitterlinden, A G, Smit, J H, Pols, H A P, and Lips, P

Subjects

COLLAGEN, COMPARATIVE studies, DISEASE susceptibility, BONE fractures, GENETIC polymorphisms, INTERVERTEBRAL disk, LONGITUDINAL method, SPINE diseases, RESEARCH methodology, MEDICAL cooperation, OSTEOPOROSIS, RESEARCH, EVALUATION research, BONE density, ODDS ratio, GENOTYPES

Abstract

Objectives: To examine whether collagen type I alpha1 (COLIA1) Sp1 polymorphism is associated with osteoporosis and/or intervertebral disc degeneration in older people.Methods: COLIA1 genotype was determined in 966 men and women (>/=65 years) of the Longitudinal Aging Study Amsterdam. The guanine (G) to thymidine (T) polymorphism in the first intron of the COLIA1 gene was detected by PCR and MscI digestion. In the total sample, quantitative ultrasound (QUS) measurements, serum osteocalcin (OC), and urine deoxypyridinoline (DPD/Cr(urine)) were assessed. A follow up of fractures was done every three months. In a subsample, total body bone mineral content (n = 485) and bone mineral density (BMD) of the hip and lumbar spine (n = 512) were measured by dual energy x ray absorptiometry (DXA). Prevalent vertebral deformities and intervertebral disc degeneration were identified on radiographs (n = 517).Results: People with the TT genotype had a higher risk of disc degeneration than those with the GG and GT genotypes (OR = 3.6; 95% CI 1.3 to 10). For men, higher levels of OC were found in those with the T allele than in those without it (GG v (GT+TT) 1.96 (0.06) nmol/l v 2.19 (0.09) nmol/l). COLIA1 polymorphism was not significantly associated with other measures of osteoporosis in either men or women.Conclusion: COLIA1 Sp1 polymorphism may be a genetic risk factor related to intervertebral disc degeneration in older people. Previously reported associations between the COLIAI Sp1 genotype and lower BMD or QUS values, higher levels of DPD/Cr, and an increased fracture risk in either men or women could not be confirmed. [ABSTRACT FROM AUTHOR]

Published

2004

32. Mechanosensitivity of osteocytes in their native matrix

Author

Zhang, Chen, Klein Nulend, Jenneke, Bravenboer, N, Oral Cell Biology, Klein-Nulend, Jenneke, Bravenboer, Nathalie, Laboratory Specialized Diagnostics & Reseach, AMS - Tissue Function & Regeneration, and AMS - Ageing & Vitality

Abstract

Osteocytes sense and transduce mechanical signals into biochemical signals, thereby regulating the adaptation of bone to mechanical loading. Their deep location in hard mineralized bone matrix hinders their isolation from bone, and thereby limits studies on osteocytes in vitro. In chapter 2, we reviewed two-dimensional (2D) and three-dimensional (3D) in vitro models of osteocytes with a special focus on models used to determine the mechanosensity and mechanoresponsiveness of osteocytes. We concluded that osteocytes are mostly studied in 2D-monolayer culture, but that 3D in vitro models of osteocyte-like cells and primary osteocytes have been established as well. 3D-osteocyte models mimic the native environment of osteocytes and show superior osteocyte morphology and behavior, enabling the development of human disease models. Osteocytes cultured in their native matrix resemble osteocytes in their in vivo situation most closely. The native matrix of osteocytes affects their mechanoresponsiveness. To study the role of the matrix surrounding the osteocytes in their mechanoresponsiveness, we developed, in chapter 3, a 3D-mechanical loading model of human cortical bone containing osteocytes in their native matrix. Using our model, mechanical loading can be reliably applied to osteocytes in their native matrix. Mechanically loaded osteocytes in their native matrix maintained their viability, and slightly upregulated SOST expression with increasing mechanical loading magnitude up to 8000 µɛ. This demonstrated that osteocytes in our model showed responsiveness to mechanical loading, indicating that our model is suitable for further studies on the role of healthy or diseased native matrix on osteocyte mechanoresponsiveness. Moreover, osteocytes in their native matrix responded to 1,25-dihydroxyvitamin D3, which indicates that our model can be used for studies on the role of small molecules in bone metabolism, and for drug screening. The mechanism of osteocyte-regulated mechanical adaptation of bone is not fully understood. More insight into target gene expression in osteocytes in their native matrix in response to mechanical loading is necessary. In chapter 4, we identified mechanosensitive genes by mapping the response of osteocytes in their native matrix to mechanical loading using RNA sequencing. Forty-seven new differentially expressed genes by mechanical loading were discovered in osteocytes in their native bone matrix. Eleven of these genes were related to bone metabolism. The functional aspects of these genes will be further explored, since they might play a role in the mechanical adaptation of bone. Our findings will be helpful to unravel the possible role of osteocytes in metabolic bone diseases, thereby providing new insight in the pathogenesis of these diseases, and facilitating potential gene targeted therapy. The inherited bone disorder osteogenesis imperfecta (OI) is characterized by bone fragility. Most OI patients have mutations leading to defected type I collagen, which is the main protein component of the extracellular matrix of bone. Osteocytes play an important role in bone homeostasis, but whether and how the function of osteocytes is affected in OI is unknown. In chapter 5, we studied whether abnormalities in OI bone matrix affect the osteocyte response to mechanical loading. Isolated non-OI and OI osteocytes cultured in monolayer showed similar mechanoresponsiveness, indicating that after removal of the altered bone matrix, isolated OI osteocytes retained their normal ability to respond to mechanical loading. This demonstrates that intrinsic mechanosensing by osteocytes is unaffected in OI. Moreover, osteocytes in OI bone matrix exhibited an altered response to mechanical loading compared to osteocytes in non-OI bone matrix. Abnormalities in OI bone matrix, i.e. hypermineralized collagenous matrix, may affect osteocyte mechanoresponsiveness, which could be partly responsible for the bone fragility in OI patients. This study provided new insight in the pathogenesis of OI, which may contribute to the development of new strategies for OI treatment in the future.

Published

2023

33. Natural Polymers and Osteogenic Cells for Bone Tissue Regeneration

Author

Cao, Wei, Klein-Nulend, Jenneke, Schulten, Engelbert, Wu, Gang, Bravenboer, Nathalie, Amsterdam Movement Sciences, Amsterdam Movement Sciences - Restoration and Development, Oral and Maxillofacial Surgery / Oral Pathology, Klein Nulend, Jenneke, Wu, G, Bravenboer, N, and Oral Cell Biology

Abstract

Bone defects caused by systemic or local factors cannot heal spontaneously. The repair of critical-sized bone defects in clinical practice remains challenging due to limited clinically available bone-defect filling material. To stimulate bone regeneration and resolve this clinical challenge, bone tissue engineering approaches have been developed during the past decades. Osteocytes have multiple functions in bone tissue. They can sense fluid shear stress as a result of mechanical loading, translating the mechanical stress into the production of biochemical signaling molecules. These effective biomolecules further regulate bone resorption and bone formation. Thus, it may well be that osteocytes not only regulate bone turnover but are also able to enhance osteogenesis of stem cells, suggesting a novel yet unrecognized role of osteocytes in governing bone tissue regeneration. In Chapter 2, we reviewed osteocyte functions in bone, as well as the interaction of osteocytes with other bone cells, and their role in bone remodeling. We hypothesize that osteocytes may have a pivotal role in bone regeneration as well, and thus that bone regeneration may be enhanced effectively and rapidly by optimal usage and stimulation of osteocytes. Currently available synthetic bone grafts are biocompatible and osteoconductive, but the majority of these biomaterials lack osteoinductivity. Biomaterials coated with various growth factors, proteins, and/or drugs promote the expansion and osteogenic differentiation of precursor cells. However, these growth factors or drugs might cause local and systemic adverse effects that hinder the clinical application for bone regeneration. Therefore, the search for safe and effective biomaterials to promote bone regeneration is still ongoing. In Chapter 3, we concluded that our results indicate a possible role of k-carrageenan in pre-osteoblast adhesion, spreading, migration, metabolic activity, proliferation, and osteogenic differentiation. This study fully explored the influence of k-carrageenan on cell function from different aspects that are needed for bone regeneration. The current results suggest that k-carrageenan might be a promising factor to functionalize bone graft and for enhanced osseointegration of implants. The search for cost-effective bioactive agents that can be incorporated in biomimetic calcium phosphate coating on an implant surface to improve implant osseointegration is still ongoing. k-Carrageenan could be a potent factor to improve implant osteoinductivity and osseointegration when incorporated in a calcium phosphate coating on titanium implants. In Chapter 4, we successfully incorporated k-carrageenan in an octa-calcium phosphate (OCP) coating on a titanium surface using a biomimetic co-precipitation technique. We found that k-carrageenan in the OCP coating increased pre-osteoblast spreading, proliferation, and metabolic activity, as well as alkaline phosphatase (ALP) activity, matrix mineralization, and osteogenic gene expression suggesting that k-carrageenan-functionalized OCP coating might improve osseointegration of titanium dental or orthopedic implants. Confined cell-cell and/or cell-scaffold interactions in three-dimensional (3D)-printed scaffolds containing β-tricalcium phosphate (TCP) limit bone regeneration and large bone defect repair. Stem cell culture systems have attracted considerable attention as a way to better mimic the complex interactions between individual cells and scaffolds that occur in vivo. Spheroids might be a promising strategy to improve cell-cell and/or cell-scaffold interactions to achieve ideal bone regeneration. In Chapter 5, we successfully developed self-assembled stem cells from human exfoliated deciduous teeth (SHEDs) µ-spheroids that enhanced the osteogenic potential of 3D-printed hydroxypropyl methylcellulose/polyethylenimine/β-TCP composite scaffolds in vitro and in vivo, suggesting that SHEDs µ-spheroids may be promising in bone tissue engineering for bone regeneration. Collectively, natural polymers and osteogenic cells do affect bone tissue regeneration. Bone regeneration modulated by osteocytes, k-carrageenan, and SHEDs µ-spheroids is promising in bone tissue engineering. Investigation of these processes provides further opportunities to learn and elucidate the mechanisms involved, leading to the development of new strategies for bone regeneration.

Published

2023

34. Bone marrow adipose tissue and bone metabolism

Author

Beekman, Kerensa Mattanja, den Heijer, M., Maas, M., Bravenboer, N., Bisschop, P.H.L.T., den Heijer, Martin, Maas, Mario, Bravenboer, Nathalie, Bisschop, Peter, Radiology and nuclear medicine, Internal medicine, and APH - Health Behaviors & Chronic Diseases

Abstract

In this thesis we explored the association between bone marrow adipose tissue (BMAT) and bone metabolism, to ultimately determine if BMAT might be a potential new imaging biomarker or potential new treatment target for osteoporosis. As patients with osteoporosis have low bone mineral density (BMD) combined with high BMAT, and bone marrow adipocytes (BMAds) and osteoblasts share a common progenitor, it is hypothesized that preferential differentiation towards adipocytes causes increased bone marrow adiposity and decreased bone formation. A second hypothesis is that BMAds have paracrine effects on bone metabolism. BMAT is a dynamic tissue. Neonates have little BMAT and during our life BMAT increases from the extremities in a centripetal way. In chapter 2 we show the specific pattern of BMAT distribution within the spine, pelvis, femur and tibia in a group of healthy subjects. BMAT increased from cranial to caudal within the spine, from proximal to distal within femora and showed a small, but consistent decrease from proximal to distal within tibiae. Furthermore, we show that the age-related increase in BMAT is gender and location dependent. As BMAT fatty acid unsaturation is associated with fractures, we also quantified BMAT fatty acid unsaturation. The association between BMAT and BMAT fatty acid unsaturation was opposed, depending on the location. Within the spine, BMAT and unsaturation were negatively correlated, while in the femora and tibiae BMAT and unsaturation were positively correlated. The gender specific differences in BMAT patterns observed in chapter 2 could possibly be mediated by sex steroids as estrogen treatment decreases BMAT and increases BMD. In chapter 3 we found no effect of raloxifene (a selective estrogen receptor modulator, registered for treatment of osteoporosis) on BMAT, adipocyte size or number, quantified in bone biopsies of postmenopausal women with osteoporosis. We found that BMAT volume and bone marrow adipocyte size both were negatively associated with osteoclast number, suggesting an association between BMAT and bone resorption. Furthermore, we found that women with osteoporosis and vertebral fractures had higher BMAT compared to women with osteoporosis without vertebral fractures, while there was no difference in bone volume between these groups, which could possibly indicate that BMAT is associated with fracture risk independent of bone volume. The negative association between BMAT and bone resorption could potentially be mediated by receptor activator of nuclear factor κ-B ligand (RANKL). Bone resorption is regulated by RANKL, which is expressed by osteocytes, osteoblasts and bone marrow precursor cells. In chapter 4 we showed that mature bone marrow adipocytes also express RANKL in a mouse model of postmenopausal osteoporosis (ovariectomy). Furthermore, we showed that estrogen deficiency caused by ovariectomy, not only increased BMAT, but also increased the percentage of RANKL positive BMAds. In chapter 5, we sought to inhibit adipogenesis by administration of a PPARγ antagonist, in the same mouse model of postmenopausal osteoporosis, to determine if we could prevent bone loss caused by estrogen deficiency. However, in these animals, administration of the PPARγ antagonist had no effect on BMAT, bone turnover, bone volume nor on bone strength. Postmenopausal estrogen deficiency is associated with increased visceral adipose tissue (VAT), and increased VAT is associated with increased BMAT and decreased BMD, suggesting an association between body composition and BMAT. Furthermore, patients with anorexia nervosa have high BMAT and low BMD. In chapter 6 we explore the effect of weight loss by gastric bypass surgery on BMAT and BMD in morbidly obese postmenopausal women. We found that both BMAT and BMD decreases after weight loss due to gastric bypass surgery, suggesting that BMAT does not contribute to bone loss after gastric bypass in postmenopausal women.

Published

2021

35. Local Vitamin D Metabolism in Bone and Muscle

Author

van der Meijden, K., Lips, Paul, den Heijer, Martin, Bravenboer, Nathalie, Jaspers, R.T., Internal medicine, Amsterdam Neuroscience - Mood, Anxiety, Psychosis, Stress & Sleep, Amsterdam Movement Sciences - Restoration and Development, Lips, P.T.A.M., den Heijer, M., Bravenboer, N., and Jaspers, Richard

Subjects

myoblast differentiation, osteoblast differentiation, 24-hydroxylase, 1alpha-hydroxylase, 25-dihydroxyvitamin D, 25-hydroxyvitamin D

Published

2017

36. Muscle and Bone in Training

Author

Furrer, R., de Haan, A., Lips, Paul, Jaspers, R.T., Bravenboer, Nathalie, MOVE Research Institute, de Haan, Arnold, Lips, P.T.A.M., Jaspers, Richard, Bravenboer, N., Kinesiology, and Research Institute MOVE

Published

2013

37. Functional Insights in PLS3-Mediated Osteogenic Regulation.

Author

Zhong W, Neugebauer J, Pathak JL, Li X, Pals G, Zillikens MC, Eekhoff EMW, Bravenboer N, Zhang Q, Hammerschmidt M, Wirth B, and Micha D

Subjects

Animals, Humans, Mice, Fibroblasts metabolism, Osteoblasts metabolism, Zebrafish Proteins metabolism, Zebrafish Proteins genetics, Gene Knockdown Techniques, Zebrafish metabolism, Zebrafish genetics, Osteogenesis genetics, Microfilament Proteins metabolism, Microfilament Proteins genetics, Membrane Glycoproteins metabolism, Membrane Glycoproteins genetics, Cell Differentiation

Abstract

Plastin-3 (PLS3) encodes T-plastin, an actin-bundling protein mediating the formation of actin filaments by which numerous cellular processes are regulated. Loss-of-function genetic defects in PLS3 are reported to cause X-linked osteoporosis and childhood-onset fractures. However, the molecular etiology of PLS3 remains elusive. Functional compensation by actin-bundling proteins ACTN1, ACTN4, and FSCN1 was investigated in zebrafish following morpholino-mediated pls3 knockdown. Primary dermal fibroblasts from six patients with a PLS3 variant were also used to examine expression of these proteins during osteogenic differentiation. In addition, Pls3 knockdown in the murine MLO-Y4 cell line was employed to provide insights in global gene expression. Our results showed that ACTN1 and ACTN4 can rescue the skeletal deformities in zebrafish after pls3 knockdown, but this was inadequate for FSCN1. Patients' fibroblasts showed the same osteogenic transdifferentiation ability as healthy donors. RNA-seq results showed differential expression in Wnt1 , Nos1ap , and Myh3 after Pls3 knockdown in MLO-Y4 cells, which were also associated with the Wnt and Th17 cell differentiation pathways. Moreover, WNT2 was significantly increased in patient osteoblast-like cells compared to healthy donors. Altogether, our findings in different bone cell types indicate that the mechanism of PLS3-related pathology extends beyond actin-bundling proteins, implicating broader pathways of bone metabolism.

Published

2024

38. Eagle syndrome: tissue characteristics and structure of the styloid process.

Author

de Ruiter RD, Treurniet S, Bravenboer N, Busse B, Hendrickx JJ, Jansen JC, Dubois L, Schreuder WH, Micha D, Teunissen BP, Raijmakers PGHM, Eekhoff EMW, and von Brackel FN

Abstract

Eagle syndrome is a bone disease where elongation of the styloid process leads to throat and neck pain, and in severe cases neurovascular symptoms such as syncope and neuralgia. The pathophysiology of Eagle syndrome is poorly understood with various theories having been proposed how this elongation is caused. To better understand the pathophysiology, we performed a work-up in 6 patients presenting with Eagle syndrome. Patients mainly presented with pain on turning the neck (100%), foreign body sensation (67%), tension in the neck (67%), and dysphagia (50%). The typical length of the styloid process ranges from 25 to 30 mm; however, [ 18 F]NaF (sodium fluoride) PET/CT showed elongated styloid processes with an average length of 52.1 ± 15.6 mm (mean ± SD) with increased turnover at the base of one of the styloid processes. The removed styloid processes were further examined by histology, micro-CT, quantitative backscatter electron imaging (qBEI), Fourier transform infrared spectroscopy (FTIR), and circularly polarized light imaging. Histology revealed one case of a fractured styloid process healing through callus formation and one case of pseudarthrosis. Bone mineral density and mineralization was similar in the styloid processes when compared to cortical bone samples derived from the mandibular bone of different patients. Circular polarized light microscopy showed a collagen orientation in the styloid process comparable to the cortical bone samples with a distinct separation of collagen structure between the mineralized structure and the surrounding soft tissue with FTIR analysis demonstrating a typical composition of bone. This altogether suggests that the elongated styloid processes in Eagle syndrome are mature bone, capable of endochondral repair, possibly growing from the base of the process through endochondral ossification, rather than being a form of secondary calcification of the stylohyoid ligament as previously postulated., Competing Interests: No authors have conflicts of interest to disclose., (© The Author(s) 2024. Published by Oxford University Press on behalf of the American Society for Bone and Mineral Research.)

Published

2024

39. In Vitro Modelling of Osteogenesis Imperfecta with Patient-Derived Induced Mesenchymal Stem Cells.

Author

Claeys L, Zhytnik L, Ventura L, Wisse LE, Eekhoff EMW, Pals G, Bravenboer N, Heine VM, and Micha D

Subjects

Humans, Cell Differentiation, Collagen metabolism, Skin, Osteogenesis genetics, Osteogenesis Imperfecta genetics, Osteogenesis Imperfecta metabolism, Mesenchymal Stem Cells metabolism, Induced Pluripotent Stem Cells

Abstract

(1) Mesenchymal stem cells (MSCs) are a valuable cell model to study the bone pathology of Osteogenesis Imperfecta (OI), a rare genetic collagen-related disorder characterized by bone fragility and skeletal dysplasia. We aimed to generate a novel OI induced mesenchymal stem cell (iMSC) model from induced pluripotent stem cells (iPSCs) derived from human dermal fibroblasts. For the first time, OI iMSCs generation was based on an intermediate neural crest cell (iNCC) stage. (2) Skin fibroblasts from healthy individuals and OI patients were reprogrammed into iPSCs and subsequently differentiated into iMSCs via iNCCs. (3) Successful generation of iPSCs from acquired fibroblasts was confirmed with changes in cell morphology, expression of iPSC markers SOX2 , NANOG , and OCT4 and three germ-layer tests. Following differentiation into iNCCs, cells presented increased iNCC markers including P75NTR , TFAP2A , and HNK-1 and decreased iPSC markers, shown to reach the iNCC stage. Induction into iMSCs was confirmed by the presence of CD73 , CD105 , and CD90 markers, low expression of the hematopoietic, and reduced expression of the iNCC markers. iMSCs were trilineage differentiation-competent, confirmed using molecular analyses and staining for cell-type-specific osteoblast, adipocyte, and chondrocyte markers. (4) In the current study, we have developed a multipotent in vitro iMSC model of OI patients and healthy controls able to differentiate into osteoblast-like cells.

Published

2024

40. Long-Term Safety of Bone Regeneration Using Autologous Stromal Vascular Fraction and Calcium Phosphate Ceramics: A 10-Year Prospective Cohort Study.

Author

Wu V, Klein-Nulend J, Bravenboer N, Ten Bruggenkate CM, Helder MN, and Schulten EAJM

Subjects

Humans, Bone Regeneration, Calcium Phosphates adverse effects, Ceramics, Prospective Studies, Stromal Vascular Fraction, Clinical Trials, Phase I as Topic, Follow-Up Studies, Bone Substitutes adverse effects, Dental Implants, Sinus Floor Augmentation methods

Abstract

This prospective cohort study aimed to assess long-term safety, dental implant survival, and clinical and radiological outcomes after maxillary sinus floor elevation (MSFE; lateral window technique) using freshly isolated autologous stromal vascular fraction (SVF) combined with calcium phosphate ceramics. All 10 patients previously participating in a phase I trial were included in a 10-year follow-up. They received either β-tricalcium phosphate (β-TCP; n = 5) or biphasic calcium phosphate (BCP; n = 5) with SVF-supplementation on one side (study). Bilaterally treated patients (6 of 10; 3 β-TCP, 3 BCP) received only calcium phosphate on the opposite side (control). Clinical and radiological assessments were performed on 44 dental implants at 1-month pre-MSFE, and 0.5- to 10-year post-MSFE. Implants were placed 6 months post-MSFE. No adverse events or pathology was reported during a 10-year follow-up. Forty-three dental implants (98%) remained functional. Control and study sides showed similar peri-implant soft-tissue quality, sulcus bleeding index, probing depth, plaque index, keratinized mucosa width, as well as marginal bone loss (0-6 mm), graft height loss (0-6 mm), and graft volume reduction. Peri-implantitis was observed around 6 implants (control: 4; study: 2) in 3 patients. This study is the first to demonstrate the 10-year safety of SVF-supplementation in MSFE for jawbone reconstruction. SVF-supplementation showed enhanced bone regeneration in the short term (previous study) and led to no abnormalities clinically and radiologically in the long term., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2023

41. The intricate mechanism of PLS3 in bone homeostasis and disease.

Author

Zhong W, Pathak JL, Liang Y, Zhytnik L, Pals G, Eekhoff EMW, Bravenboer N, and Micha D

Subjects

Humans, Mutation, Bone and Bones pathology, Homeostasis, Mechanotransduction, Cellular, Osteoporosis pathology

Abstract

Since our discovery in 2013 that genetic defects in PLS3 lead to bone fragility, the mechanistic details of this process have remained obscure. It has been established that PLS3 variants cause syndromic and nonsyndromic osteoporosis as well as osteoarthritis. PLS3 codes for an actin-bundling protein with a broad pattern of expression. As such, it is puzzling how PLS3 specifically leads to bone-related disease presentation. Our review aims to summarize the current state of knowledge regarding the function of PLS3 in the predominant cell types in the bone tissue, the osteocytes, osteoblasts and osteoclasts. This is related to the role of PLS3 in regulating mechanotransduction, calcium regulation, vesicle trafficking, cell differentiation and mineralization as part of the complex bone pathology presented by PLS3 defects. Considering the consequences of PLS3 defects on multiple aspects of bone tissue metabolism, our review motivates the study of its mechanism in bone diseases which can potentially help in the design of suitable therapy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zhong, Pathak, Liang, Zhytnik, Pals, Eekhoff, Bravenboer and Micha.)

Published

2023

42. Methodological aspects of in vivo axial loading in rodents: a systematic review.

Author

Nepal AK, van Essen HW, de Jongh RT, van Schoor NM, Otten RHJ, Vanderschueren D, Lips P, and Bravenboer N

Subjects

Female, Rats, Mice, Animals, Bone and Bones, Bone Density, Weight-Bearing, Stress, Mechanical, Rodentia, Tibia

Abstract

Axial loading in rodents provides a controlled setting for mechanical loading, because load and subsequent strain, frequency, number of cycles and rest insertion between cycles, are precisely defined. These methodological aspects as well as factors, such as ovariectomy, aging, and disuse may affect the outcome of the loading test, including bone mass, structure, and bone mineral density. This review aims to overview methodological aspects and modifying factors in axial loading on bone outcomes. A systematic literature search was performed in bibliographic databases until December 2021, which resulted in 2183 articles. A total of 144 articles were selected for this review: 23 rat studies, 74 mouse studies, and 47 knock out (KO) mouse studies. Results indicated that peak load, frequency, and number of loading cycles mainly affected the outcomes of bone mass, structure, and density in both rat and mouse studies. It is crucial to consider methodological parameters and modifying factors such as age, sex-steroid deficiency, and disuse in loading protocols for the prediction of loading-related bone outcomes., Competing Interests: The authors have no conflict of interest.

Published

2023

43. Editorial: Rare musculoskeletal disorders: disease mechanisms and therapies.

Author

Seefried L, Bravenboer N, and Imel EA

Subjects

Humans, Osteogenesis Imperfecta, Musculoskeletal Diseases therapy

Abstract

Competing Interests: LS received honoraria for lectures and advice from AstraZeneca/Alexion, Amgen, Chiesi, Gedeon-Richter, GlaxoSmithKline, Inozyme, Ipsen, KyowaKirin, medi, STADA, Theramex and UCB and support for scientific projects to the institution from AstraZeneca/Alexion, Chiesi, KyowaKirin and Novartis. EAI received research funding from Ultragenyx, Kyowa Kirin, Amgen, Sanofi, Calciolytix, and has received honoraria for advising or consulting fees from Kyowa Kirin, Ultragenyx, Inozyme, and Agios. The remaining author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

44. The Effect of Sclerostin and Monoclonal Sclerostin Antibody Romosozumab on Osteogenesis and Osteoclastogenesis Mediated by Periodontal Ligament Fibroblasts.

Author

Pigeaud KE, Rietveld ML, Witvliet AF, Hogervorst JMA, Zhang C, Forouzanfar T, Bravenboer N, Schoenmaker T, and de Vries TJ

Subjects

Humans, Cells, Cultured, Fibroblasts, Periodontal Ligament, Leukocytes, Mononuclear, Osteogenesis

Abstract

Sclerostin is a bone formation inhibitor produced by osteocytes. Although sclerostin is mainly expressed in osteocytes, it was also reported in periodontal ligament (PDL) fibroblasts, which are cells that play a role in both osteogenesis and osteoclastogenesis. Here, we assess the role of sclerostin and its clinically used inhibitor, romosozumab, in both processes. For osteogenesis assays, human PDL fibroblasts were cultured under control or mineralizing conditions with increasing concentrations of sclerostin or romosozumab. For analyzing osteogenic capacity and alkaline phosphatase (ALP) activity, alizarin red staining for mineral deposition and qPCR of osteogenic markers were performed. Osteoclast formation was investigated in the presence of sclerostin or romosozumab and, in PDLs, in the presence of fibroblasts co-cultured with peripheral blood mononuclear cells (PBMCs). PDL-PBMC co-cultures stimulated with sclerostin did not affect osteoclast formation. In contrast, the addition of romosozumab slightly reduced the osteoclast formation in PDL-PBMC co-cultures at high concentrations. Neither sclerostin nor romosozumab affected the osteogenic capacity of PDL fibroblasts. qPCR analysis showed that the mineralization medium upregulated the relative expression of osteogenic markers, but this expression was barely affected when romosozumab was added to the cultures. In order to account for the limited effects of sclerostin or romosozumab, we finally compared the expression of SOST and its receptors LRP-4, -5, and -6 to the expression in osteocyte rich-bone. The expression of SOST, LRP-4, and LRP-5 was higher in osteocytes compared to in PDL cells. The limited interaction of sclerostin or romosozumab with PDL fibroblasts may relate to the primary biological function of the periodontal ligament: to primarily resist bone formation and bone degradation to the benefit of an intact ligament that is indented by every chew movement.

Published

2023

45. Exploration of the skeletal phenotype of the Col1a1 +/Mov13 mouse model for haploinsufficient osteogenesis imperfecta type 1.

Author

Claeys L, Zhytnik L, Wisse LE, van Essen HW, Eekhoff EMW, Pals G, Bravenboer N, and Micha D

Subjects

Male, Mice, Animals, Female, X-Ray Microtomography, Mice, Inbred C57BL, Collagen genetics, Phenotype, Osteogenesis Imperfecta genetics, Osteogenesis Imperfecta pathology

Abstract

Introduction: Osteogenesis Imperfecta is a rare genetic connective tissue disorder, characterized by skeletal dysplasia and fragile bones. Currently only two mouse models have been reported for haploinsufficient (HI) mild Osteogenesis Imperfecta (OI); the Col1a1 +/Mov13 (Mov13) and the Col1a1 +/-365 mouse model. The Mov13 mice were created by random insertion of the Mouse Moloney leukemia virus in the first intron of the Col1a1 gene, preventing the initiation of transcription. Since the development of the Mov13 mice almost four decades ago and its basic phenotypic characterization in the 90s, there have not been many further studies. We aimed to extensively characterize the Mov13 mouse model in order to critically evaluate its possible use for preclinical studies of HI OI., Methods: Bone tissue from ten heterozygous Mov13 and ten wild-type littermates (WT) C57BL/6J mice (50% males per group) was analyzed at eight weeks of age with bone histomorphometry, micro computed tomography (microCT), 3-point bending, gene expression of different collagens, as well as serum markers of bone turnover., Results: The Mov13 mouse presented a lower bone strength and impaired material properties based on our results of 3-point bending and microCT analysis respectively. In contrast, no significant differences were found for all histomorphometric parameters. In addition, no significant differences in Col1a1 bone expression were present, but there was a significant lower P1NP concentration, a bone formation marker, measured in serum. Furthermore, bone tissue of Mov13 mice presented significantly higher expression of collagens ( Col1a2 , Col5a1 and Col5a2 ), and bone metabolism markers ( Bglap , Fgf23 , Smad7 , Edn1 and Eln ) compared to WT. Finally, we measured a significantly lower Col1a1 expression in heart and skin tissue and also determined a higher expression of other collagens in the heart tissue., Conclusion: Although we did not detect a significant reduction in Col1a1 expression in the bone tissue, a change in bone structure and reduction in bone strength was noted. Regrettably, the variability of the bone phenotype and the appearance of severe lymphoma in adult Mov13 mice, does not favor their use for the testing of new long-term drug studies. As such, a new HI OI type 1 mouse model is urgently needed., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Claeys, Zhytnik, Wisse, van Essen, Eekhoff, Pals, Bravenboer and Micha.)

Published

2023

46. Mechanical loading modulates phosphate related genes in rat bone.

Author

Nepal AK, van Essen HW, Reijnders CMA, Lips P, and Bravenboer N

Subjects

Animals, Female, Rats, 25-Hydroxyvitamin D3 1-alpha-Hydroxylase, Bone Density, Calcification, Physiologic, Phosphates

Abstract

Mechanical loading determines bone mass and bone structure, which involves many biochemical signal molecules. Of these molecules, Mepe and Fgf23 are involved in bone mineralization and phosphate homeostasis. Thus, we aimed to explore whether mechanical loading of bone affects factors of phosphate homeostasis. We studied the effect of mechanical loading of bone on the expression of Fgf23, Mepe, Dmp1, Phex, Cyp27b1, and Vdr. Twelve-week old female rats received a 4-point bending load on the right tibia, whereas control rats were not loaded. RT-qPCR was performed on tibia mRNA at 4, 5, 6, 7 or 8 hours after mechanical loading for detection of Mepe, Dmp1, Fgf23, Phex, Cyp27b1, and Vdr. Immunohistochemistry was performed to visualise FGF23 protein in tibiae. Serum FGF23, phosphate and calcium levels were measured in all rats. Four-point bending resulted in a reduction of tibia Fgf23 gene expression by 64% (p = 0.002) and a reduction of serum FGF23 by 30% (p<0.001), six hours after loading. Eight hours after loading, Dmp1 and Mepe gene expression increased by 151% (p = 0.007) and 100% (p = 0.007). Mechanical loading did not change Phex, Cyp27b1, and Vdr gene expression at any time-point. We conclude that mechanical loading appears to provoke both a paracrine as well as an endocrine response in bone by modulating factors that regulate bone mineralization and phosphate homeostasis., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Nepal et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

47. Mapping the Response of Human Osteocytes in Native Matrix to Mechanical Loading Using RNA Sequencing.

Author

Zhang C, van Essen HW, Sie D, Micha D, Pals G, Klein-Nulend J, and Bravenboer N

Abstract

Osteocytes sense mechanical loads and transduce mechanical signals into a chemical response. They are the most abundant bone cells deeply embedded in mineralized bone matrix, which affects their regulatory activity in the mechanical adaptation of bone. The specific location in the calcified bone matrix hinders studies on osteocytes in the in vivo setting. Recently, we developed a three-dimensional mechanical loading model of human osteocytes in their native matrix, allowing to study osteocyte mechanoresponsive target gene expression in vitro. Here we aimed to identify differentially expressed genes by mapping the response of human primary osteocytes in their native matrix to mechanical loading using RNA sequencing. Human fibular bone was retrieved from 10 donors (age: 32-82 years, 5 female, 5 male). Cortical bone explants (8.0 × 3.0 × 1.5 mm; length × width × height) were either not loaded or mechanically loaded by 2000 or 8000 μɛ for 5 minutes, followed by 0, 6, or 24 hours post-culture without loading. High-quality RNA was isolated, and differential gene expression analysis performed by R2 platform. Real-time PCR was used to confirm differentially expressed genes. Twenty-eight genes were differentially expressed between unloaded and loaded (2000 or 8000 μɛ) bone at 6 hours post-culture, and 19 genes at 24 hours post-culture. Eleven of these genes were related to bone metabolism, ie, EGR1 , FAF1 , H3F3B , PAN2 , RNF213 , SAMD4A , and TBC1D24 at 6 hours post-culture, and EGFEM1P , HOXD4 , SNORD91B , and SNX9 at 24 hours post-culture. Mechanical loading significantly decreased RNF213 gene expression, which was confirmed by real-time PCR. In conclusion, mechanically loaded osteocytes differentially expressed 47 genes, of which 11 genes were related to bone metabolism. RNF213 might play a role in mechanical adaptation of bone by regulating angiogenesis, which is a prerequisite for successful bone formation. The functional aspects of the differentially expressed genes in bone mechanical adaptation requires future investigation. © 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research., Competing Interests: The authors have no conflicts of interest to declare that are relevant to the content of this article., (© 2023 The Authors. JBMR Plus published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research.)

Published

2023

48. Kappa-carrageenan-Functionalization of octacalcium phosphate-coated titanium Discs enhances pre-osteoblast behavior and osteogenic differentiation.

Author

Cao W, Jin J, Wu G, Bravenboer N, Helder MN, Schulten EAJM, Bacabac RG, Pathak JL, and Klein-Nulend J

Abstract

Bioactive coatings are promising for improving osseointegration and the long-term success of titanium dental or orthopaedic implants. Biomimetic octacalcium phosphate (OCP) coating can be used as a carrier for osteoinductive agents. κ-Carrageenan, a highly hydrophilic and biocompatible seaweed-derived sulfated-polysaccharide, promotes pre-osteoblast activity required for bone regeneration. Whether κ-carrageenan can functionalize OCP-coating to enhance osseointegration of titanium implants is unclear. This study aimed to analyze carrageenan-functionalized biomimetic OCP-coated titanium structure, and effects of carrageenan functionalization on pre-osteoblast behavior and osteogenic differentiation. Titanium discs were coated with OCP/κ-carrageenan at 0.125-2 mg/ml OCP solution, and physicochemical and biological properties were investigated. κ-Carrageenan (2 mg/ml) in the OCP coating of titanium discs decreased the pore size in the sheet-like OCP crystal by 41.32%. None of the κ-carrageenan concentrations tested in the OCP-coating did affect hydrophilicity. However, κ-carrageenan (2 mg/ml) increased (1.26-fold) MC3T3-E1 pre-osteoblast spreading at 1 h i.e., κ-Carrageenan in the OCP-coating increased pre-osteoblast proliferation (max. 1.92-fold at 2 mg/ml, day 1), metabolic activity (max. 1.50-fold at 2 mg/ml, day 3), and alkaline phosphatase protein (max. 4.21-fold at 2 mg/ml, day 3), as well as matrix mineralization (max. 5.45-fold at 2 mg/ml, day 21). κ-Carrageenan (2 mg/ml) in the OCP-coating increased gene expression of Mepe (4.93-fold) at day 14, and Runx2 (2.94-fold), Opn (3.59-fold), Fgf2 (3.47-fold), Ocn (3.88-fold), and Dmp1 (4.59-fold) at day 21 in pre-osteoblasts. In conclusion, κ-carrageenan modified the morphology and microstructure of OCP-coating on titanium discs, and enhanced pre-osteoblast metabolic activity, proliferation, and osteogenic differentiation. This suggests that κ-carrageenan-functionalized OCP coating may be promising for in vivo improvement of titanium implant osseointegration., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Cao, Jin, Wu, Bravenboer, Helder, Schulten, Bacabac, Pathak and Klein-Nulend.)

Published

2022

49. Osteogenic transdifferentiation of primary human fibroblasts to osteoblast-like cells with human platelet lysate.

Author

Cayami FK, Claeys L, de Ruiter R, Smilde BJ, Wisse L, Bogunovic N, Riesebos E, Eken L, Kooi I, Sistermans EA, Bravenboer N, Pals G, Faradz SMH, Sie D, Eekhoff EMW, and Micha D

Subjects

Calcification, Physiologic genetics, Cell Differentiation genetics, Fibroblasts, Humans, Osteogenesis genetics, Cell Transdifferentiation genetics, Osteoblasts metabolism

Abstract

Inherited bone disorders account for about 10% of documented Mendelian disorders and are associated with high financial burden. Their study requires osteoblasts which play a critical role in regulating the development and maintenance of bone tissue. However, bone tissue is not always available from patients. We developed a highly efficient platelet lysate-based approach to directly transdifferentiate skin-derived human fibroblasts to osteoblast-like cells. We extensively characterized our in vitro model by examining the expression of osteoblast-specific markers during the transdifferentiation process both at the mRNA and protein level. The transdifferentiated osteoblast-like cells showed significantly increased expression of a panel of osteogenic markers. Mineral deposition and ALP activity were also shown, confirming their osteogenic properties. RNA-seq analysis allowed the global study of changes in the transcriptome of the transdifferentiated cells. The transdifferentiated cells clustered separately from the primary fibroblasts with regard to the significantly upregulated genes indicating a distinct transcriptome profile; transdifferentiated osteoblasts also showed significant enrichment in gene expression related to skeletal development and bone mineralization. Our presented in vitro model may potentially contribute to the prospect of studying osteoblast-dependent disorders in patient-derived cells., (© 2022. The Author(s).)

Published

2022

50. Gender- and Age-Associated Differences in Bone Marrow Adipose Tissue and Bone Marrow Fat Unsaturation Throughout the Skeleton, Quantified Using Chemical Shift Encoding-Based Water-Fat MRI.

Author

Beekman KM, Regenboog M, Nederveen AJ, Bravenboer N, den Heijer M, Bisschop PH, Hollak CE, Akkerman EM, and Maas M

Subjects

Adipose Tissue diagnostic imaging, Animals, Bone and Bones diagnostic imaging, Cross-Sectional Studies, Female, Humans, Lumbar Vertebrae diagnostic imaging, Magnetic Resonance Imaging methods, Male, Bone Marrow diagnostic imaging, Water

Abstract

Bone marrow adipose tissue (BMAT) is a dynamic tissue which is associated with osteoporosis, bone metastasis, and primary bone tumors. The aim of this study is to determine region-specific variations and age- and gender-specific differences in BMAT and BMAT composition in healthy subjects. In this cross-sectional study, we included 40 healthy subjects (26 male: mean age 49 years, range 22-75 years; 14 female: mean age 50 years, range 29-71) and determined the bone marrow signal fat fraction and bone marrow unsaturation in the spine (C3-L5), pelvis, femora, and tibiae using chemical shift encoding-based water-fat imaging (WFI) with multiple gradient echoes (mGRE). Regions of interest covered the individual vertebral bodies, pelvis and proximal epimetaphysis, diaphysis, and distal epimetaphysis of the femur and tibia. The spinal fat fraction increased from cervical to lumbar vertebral bodies (mean fat fraction ( ± SD or (IQR): cervical spine 0.37 ± 0.1; thoracic spine 0.41 ± 0.08. lumbar spine 0.46 ± 0.01; p < 0.001). The femoral fat fraction increased from proximal to distal (proximal 0.78 ± 0.09; diaphysis 0.86 (0.15); distal 0.93 ± 0.02; p < 0.001), while within the tibia the fat fraction decreased from proximal to distal (proximal 0.92 ± 0.01; diaphysis 0.91 (0.02); distal 0.90 ± 0.01; p < 0.001). In female subjects, age was associated with fat fraction in the spine, pelvis, and proximal femur (ρ = 0.88 p < 0.001; ρ = 0.87 p < 0.001; ρ = 0.63 p = 0.02; ρ = 0.74 p = 0.002, respectively), while in male subjects age was only associated with spinal fat fraction (ρ = 0.40 p = 0.04). Fat fraction and unsaturation were negatively associated within the spine (r = -0.40 p = 0.01), while in the extremities fat fraction and unsaturation were positively associated (distal femur: r = 0.42 p = 0.01; proximal tibia: r = 0.47, p = 0.002; distal tibia: r = 0.35 p = 0.03), both independent of age and gender. In conclusion, we confirm the distinct, age- and gender-dependent, distribution of BMAT throughout the human skeleton and we show that, contradicting previous animal studies, bone marrow unsaturation in human subjects is highest within the axial skeleton compared to the appendicular skeleton. Furthermore, we show that BMAT unsaturation was negatively correlated with BMAT within the spine, while in the appendicular skeleton, BMAT and BMAT unsaturation were positively associated., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Beekman, Regenboog, Nederveen, Bravenboer, den Heijer, Bisschop, Hollak, Akkerman and Maas.)

Published

2022