Your search keyword '"Ivaska KK"' showing total 57 results

1. The complex role of Rcor2: Regulates mesenchymal stromal cell differentiation in vitro but is dispensable in vivo.

Author

Rummukainen P, Tarkkonen K, Al Majidi R, Puolakkainen T, Nieminen-Pihala V, Valensisi C, Saastamoinen L, Hawkins D, Heino TJ, Ivaska KK, and Kiviranta R

Subjects

Animals, Mice, Osteogenesis genetics, Osteogenesis physiology, Repressor Proteins metabolism, Repressor Proteins genetics, Cell Line, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells cytology, Cell Differentiation genetics, Osteoblasts metabolism, Osteoblasts cytology

Abstract

Recent research has revealed several important pathways of epigenetic regulation leading to transcriptional changes in bone cells. Rest Corepressor 2 (Rcor2) is a coregulator of Lysine-specific histone demethylase 1 (Lsd1), a demethylase linked to osteoblast activity, hematopoietic stem cell differentiation and malignancy of different neoplasms. However, the role of Rcor2 in osteoblast differentiation has not yet been examined in detail. We have previously shown that Rcor2 is highly expressed in mesenchymal stromal cells (MSC) and particularly in the osteoblastic lineage. The role of Rcor2 in osteoblastic differentiation in vitro was further characterized and we demonstrate here that lentiviral silencing of Rcor2 in MC3T3-E1 cells led to a decrease in osteoblast differentiation. This was indicated by decreased alkaline phosphatase and von Kossa stainings as well as by decreased expression of several osteoblast-related marker genes. RNA-sequencing of the Rcor2-downregulated MC3T3-E1 cells showed decreased repression of Rcor2 target genes, as well as significant upregulation of majority of the differentially expressed genes. While the heterozygous, global loss of Rcor2 in vivo did not lead to a detectable bone phenotype, conditional deletion of Rcor2 in limb-bud mesenchymal cells led to a moderate decrease in cortical bone volume. These findings were not accentuated by challenging bone formation by ovariectomy or tibial fracture. Furthermore, a global deletion of Rcor2 led to decreased white adipose tissue in vivo and decreased the capacity of primary cells to differentiate into adipocytes in vitro. The conditional deletion of Rcor2 led to decreased adiposity in fracture callus. Taken together, these results suggest that epigenetic regulation of mesenchymal stromal cell differentiation is mediated by Rcor2, which could thus play an important role in defining the MSC fate., Competing Interests: Declaration of competing interest None., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

2. Evaluation of bone marrow glucose uptake and adiposity in male rats after diet and exercise interventions.

Author

Ojala R, Widjaja N, Hentilä J, Jalo A, Helin JS, Nissinen TA, Jalava N, Eskola O, Rajander J, Löyttyniemi E, Ivaska KK, and Hannukainen JC

Subjects

Animals, Male, Rats, Adipocytes metabolism, Rats, Sprague-Dawley, Adiposity, Diet, High-Fat adverse effects, Physical Conditioning, Animal, Bone Marrow metabolism, Glucose metabolism, Obesity metabolism

Abstract

Objectives: Obesity impairs bone marrow (BM) glucose metabolism. Adult BM constitutes mostly of adipocytes that respond to changes in energy metabolism by modulating their morphology and number. Here we evaluated whether diet or exercise intervention could improve the high-fat diet (HFD) associated impairment in BM glucose uptake (BMGU) and whether this associates with the morphology of BM adipocytes (BMAds) in rats., Methods: Eight-week-old male Sprague-Dawley rats were fed ad libitum either HFD or chow diet for 24 weeks. Additionally after 12 weeks, HFD-fed rats switched either to chow diet, voluntary intermittent running exercise, or both for another 12 weeks. BMAd morphology was assessed by perilipin-1 immunofluorescence staining in formalin-fixed paraffin-embedded tibial sections. Insulin-stimulated sternal and humeral BMGU were measured using [ 18 F]FDG-PET/CT. Tibial microarchitecture and mineral density were measured with microCT., Results: HFD rats had significantly higher whole-body fat percentage compared to the chow group (17% vs 13%, respectively; p = 0.004) and larger median size of BMAds in the proximal tibia (815 µm 2 vs 592 µm 2 , respectively; p = 0.03) but not in the distal tibia. Switch to chow diet combined with running exercise normalized whole-body fat percentage ( p < 0.001) but not the BMAd size. At 32 weeks of age, there was no significant difference in insulin-stimulated BMGU between the study groups. However, BMGU was significantly higher in sternum compared to humerus ( p < 0.001) and higher in 8-week-old compared to 32-week-old rats ( p < 0.001). BMAd size in proximal tibia correlated positively with whole-body fat percentage (r = 0.48, p = 0.005) and negatively with humeral BMGU (r = -0.63, p = 0.02). HFD significantly reduced trabecular number ( p < 0.001) compared to the chow group. Switch to chow diet reversed this as the trabecular number was significantly higher ( p = 0.008) than in the HFD group., Conclusion: In this study we showed that insulin-stimulated BMGU is age- and site-dependent. BMGU was not affected by the study interventions. HFD increased whole-body fat percentage and the size of BMAds in proximal tibia. Switching from HFD to a chow diet and running exercise improved glucose homeostasis and normalized the HFD-induced increase in body fat but not the hypertrophy of BMAds., 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 © 2024 Ojala, Widjaja, Hentilä, Jalo, Helin, Nissinen, Jalava, Eskola, Rajander, Löyttyniemi, Ivaska and Hannukainen.)

Published

2024

3. Short- and long-term exposure to high glucose induces unique transcriptional changes in osteoblasts in vitro.

Author

Jalava N, Arponen M, Widjaja N, Heino TJ, and Ivaska KK

Subjects

Animals, Rats, Gene Expression Profiling, Hyperglycemia metabolism, Hyperglycemia genetics, Cell Differentiation drug effects, Cell Differentiation genetics, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells drug effects, Transcriptome, Osteogenesis drug effects, Osteogenesis genetics, Cell Survival drug effects, Transcription, Genetic drug effects, Cells, Cultured, Oxidative Stress drug effects, Osteoblasts metabolism, Osteoblasts drug effects, Glucose metabolism, Gene Expression Regulation drug effects

Abstract

Bone is increasingly recognized as a target for diabetic complications. In order to evaluate the direct effects of high glucose on bone, we investigated the global transcriptional changes induced by hyperglycemia in osteoblasts in vitro. Rat bone marrow-derived mesenchymal stromal cells were differentiated into osteoblasts for 10 days, and prior to analysis, they were exposed to hyperglycemia (25 mM) for the short-term (1 or 3 days) or long-term (10 days). Genes and pathways regulated by hyperglycemia were identified using mRNA sequencing and verified with qPCR. Genes upregulated by 1-day hyperglycemia were, for example, related to extracellular matrix organization, collagen synthesis and bone formation. This stimulatory effect was attenuated by 3 days. Long-term exposure impaired osteoblast viability, and downregulated, for example, extracellular matrix organization and lysosomal pathways, and increased intracellular oxidative stress. Interestingly, transcriptional changes by different exposure times were mostly unique and only 89 common genes responding to glucose were identified. In conclusion, short-term hyperglycemia had a stimulatory effect on osteoblasts and bone formation, whereas long-term hyperglycemia had a negative effect on intracellular redox balance, osteoblast viability and function., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

4. Bone marrow metabolism is affected by body weight and response to exercise training varies according to anatomical location.

Author

Ojala R, Hentilä J, Lietzén MS, Arponen M, Heiskanen MA, Honkala SM, Virtanen H, Koskensalo K, Lautamäki R, Löyttyniemi E, Parkkola R, Heinonen OJ, Malm T, Lahti L, Rinne J, Eskola O, Rajander J, Pietiläinen KH, Kaprio J, Ivaska KK, and Hannukainen JC

Subjects

Humans, Female, Adult, Obesity, Exercise, Overweight, Bone Density, Bone Marrow, Insulin Resistance

Abstract

Aim: High body weight is a protective factor against osteoporosis, but obesity also suppresses bone metabolism and whole-body insulin sensitivity. However, the impact of body weight and regular training on bone marrow (BM) glucose metabolism is unclear. We studied the effects of regular exercise training on bone and BM metabolism in monozygotic twin pairs discordant for body weight., Methods: We recruited 12 monozygotic twin pairs (mean ± SD age 40.4 ± 4.5 years; body mass index 32.9 ± 7.6, mean difference between co-twins 7.6 kg/m 2 ; eight female pairs). Ten pairs completed the 6-month long training intervention. We measured lumbar vertebral and femoral BM insulin-stimulated glucose uptake (GU) using 18 F-FDG positron emission tomography, lumbar spine bone mineral density and bone turnover markers., Results: At baseline, heavier co-twins had higher lumbar vertebral BM GU (p < .001) and lower bone turnover markers (all p < .01) compared with leaner co-twins but there was no significant difference in femoral BM GU, or bone mineral density. Training improved whole-body insulin sensitivity, aerobic capacity (both p < .05) and femoral BM GU (p = .008). The training response in lumbar vertebral BM GU was different between the groups (time × group, p = .02), as GU tended to decrease in heavier co-twins (p = .06) while there was no change in leaner co-twins., Conclusions: In this study, regular exercise training increases femoral BM GU regardless of weight and genetics. Interestingly, lumbar vertebral BM GU is higher in participants with higher body weight, and training counteracts this effect in heavier co-twins even without reduction in weight. These data suggest that BM metabolism is altered by physical activity., (© 2023 The Authors. Diabetes, Obesity and Metabolism published by John Wiley & Sons Ltd.)

Published

2024

5. Perilipin-1 immunostaining improves semi-automated digital quantitation of bone marrow adipocytes in histological bone sections.

Author

Widjaja N, Jalava N, Chen Y, and Ivaska KK

Subjects

Rats, Animals, Rats, Sprague-Dawley, Perilipin-1, Adipocytes, Eosine Yellowish-(YS), Bone Marrow, Bone and Bones

Abstract

Bone marrow adipocytes (BMAds) are not just passive fillers inside the bone marrow compartment but respond to various metabolic changes. Assessment of those responses requires evaluation of the number of BMAds and their morphology for which laborious and error-prone manual histological analysis remains the most widely used method. Here, we report an alternative image analysis strategy to semi-automatically quantitate and analyse the morphology of BMAds in histological bone sections. Decalcified, formalin-fixed paraffin-embedded histological sections of long bones of Sprague-Dawley rats were stained with either haematoxylin and eosin (HE) or by immunofluorescent staining for adipocyte-specific protein perilipin-1 (PLIN1). ImageJ-based commands were constructed to detect BMAds sized 200 µm 2 or larger from standardized 1 mm 2 analysis regions by either classifying the background colour (HE) or the positive and circular PLIN1 fluorescent signal. Semi-automated quantitation strongly correlated with independent, single-blinded manual counts regardless of the staining method (HE-based: r =0.85, p <0.001; PLIN1 based: r =0.95, p <0.001). The detection error was higher in HE-stained sections than in PLIN1-stained sections (14% versus 5%, respectively; p <0.001), which was due to false-positive detections of unstained adipocyte-like circular structures. In our dataset, the total adiposity area from standardised ROIs in PLIN-1-stained sections correlated with that in whole-bone sections ( r =0.60, p =0.02).

Published

2023

6. The evolution of the adolescent growth spurt: Urinary biomarkers of bone turnover in wild chimpanzees (Pan troglodytes).

Author

Sandel AA, Negrey JD, Arponen M, Clark IR, Clift JB, Reddy RB, and Ivaska KK

Subjects

Animals, Female, Male, Humans, Adolescent, Child, Cross-Sectional Studies, Osteocalcin, Body Size, Uganda, Biomarkers, Pan troglodytes, Mammals

Abstract

Life history theory addresses how organisms balance development and reproduction. Mammals usually invest considerable energy into growth in infancy, and they do so incrementally less until reaching adult body size, when they shift energy to reproduction. Humans are unusual in having a long adolescence when energy is invested in both reproduction and growth, including rapid skeletal growth around puberty. Although many primates, especially in captivity, experience accelerated growth in mass around puberty, it remains unclear whether this represents skeletal growth. Without data on skeletal growth in nonhuman primates, anthropologists have often assumed the adolescent growth spurt is uniquely human, and hypotheses for its evolution have focused on other uniquely human traits. The lack of data is largely due to methodological difficulties of assessing skeletal growth in wild primates. Here, we use two urinary markers of bone turnover-osteocalcin and collagen-to study skeletal growth in a large, cross-sectional sample of wild chimpanzees (Pan troglodytes) at Ngogo, Kibale National Park, Uganda. For both bone turnover markers, we found a nonlinear effect of age, which was largely driven by males. For male chimpanzees, values for osteocalcin and collagen peaked at age 9.4 years and 10.8 years, respectively, which corresponds to early and middle adolescence. Notably, collagen values increased from 4.5 to 9 years, suggesting faster growth during early adolescence compared to late infancy. Biomarker levels plateaued at 20 years in both sexes, suggesting skeletal growth continues until then. Additional data, notably on females and infants of both sexes, are needed, as are longitudinal samples. However, our cross-sectional analysis suggests an adolescent growth spurt in the skeleton of chimpanzees, especially for males. Biologists should avoid claiming that the adolescent growth spurt is uniquely human, and hypotheses for the patterns of human growth should consider variation in our primate relatives., Competing Interests: Declaration of competing interest The authors have no conflicts of interest., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

7. Glucose transporters GLUT1, GLUT3, and GLUT4 have different effects on osteoblast proliferation and metabolism.

Author

Arponen M, Jalava N, Widjaja N, and Ivaska KK

Abstract

Bone is an active tissue that undergoes constant remodeling. Bone formation requires energy and one of the energy sources of bone-forming osteoblasts is glucose, which is transported inside the cells via glucose transporters. However, the role of class I glucose transporters in the differentiation and metabolism of osteoblasts and their precursors, bone marrow mesenchymal stromal cells (BMSCs) remains inconclusive. Our aim was to characterize the expression and contribution of main class I glucose transporters, GLUT1, GLUT3, and GLUT4, during osteoblast proliferation and differentiation. To investigate the role of each GLUT, we downregulated GLUTs with siRNA technology in primary rat BMSCs. Live-cell imaging and RNA-seq analysis was used to evaluate downstream pathways in silenced osteoblasts. Glucose transporters GLUT1, GLUT3, and GLUT4 had distinct expression patterns in osteoblasts. GLUT1 was abundant in BMSCs, but rapidly and significantly downregulated during osteoblast differentiation by up to 80% ( p < 0.001). Similar downregulation was observed for GLUT4 ( p < 0.001). In contrast , expression levels of GLUT3 remained stable during differentiation. Osteoblasts lacked GLUT2. Silencing of GLUT4 resulted in a significant decrease in proliferation and differentiation of preosteoblasts ( p < 0.001) and several pathways related to carbohydrate metabolism and cell signaling were suppressed. However, silencing of GLUT3 resulted in increased proliferation ( p < 0.001), despite suppression of several pathways involved in cellular metabolism, biosynthesis and actin organization. Silencing of GLUT1 had no effect on proliferation and less changes in the transcriptome. RNA-seq dataset further revealed that osteoblasts express also class II and III glucose transporters, except for GLUT7. In conclusion, GLUT1, -3 and -4 may all contribute to glucose uptake in differentiating osteoblasts. GLUT4 expression was clearly required for osteoblast proliferation and differentiation. GLUT1 appears to be abundant in early precursors, but stable expression of GLUT3 suggest also a role for GLUT3 in osteoblasts. Presence of other GLUT members may further contribute to fine-tuning of glucose uptake. Together, glucose uptake in osteoblast lineage appears to rely on several glucose transporters to ensure sufficient energy for new bone formation., 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 Arponen, Jalava, Widjaja and Ivaska.)

Published

2022

8. Bone Turnover Marker Profiling and Fracture Risk in Older Women: Fracture Risk from Age 75 to 90.

Author

Ivaska KK, McGuigan FE, Malmgren L, Gerdhem P, Johansson H, Kanis JA, and Akesson KE

Subjects

Aged, Aged, 80 and over, Alkaline Phosphatase, Biomarkers, Bone Density, Bone Remodeling, Collagen Type I, Female, Humans, Osteocalcin, Hip Fractures, Osteoporosis complications, Osteoporotic Fractures epidemiology

Abstract

Purpose: A major challenge in osteoporosis is to identify individuals at high fracture risk. We investigated six bone turnover markers (BTMs) to determine association with specific fracture types; the time-frame for risk prediction and whether these are influenced by age at assessment., Methods: Population-based OPRA cohort (n = 1044) was assessed at ages 75, 80, 85 and fractures documented for up to 15 years. Six BTMs were analyzed at each time-point (N-terminal propeptide of type I collagen, PINP; total osteocalcin, OC; bone-specific alkaline phosphatase, BALP; C-terminal telopeptide of type I collagen, CTX; tartrate-resistant acid phosphatase 5b, TRAcP5b; urinary osteocalcin). Hazard ratios (HR) for any, major osteoporotic, vertebral and hip fractures were calculated as short (1, 2, 3 years) and long-term risk (5, 10, 15 years)., Results: At 75 year, high CTX levels were associated with an increased risk of all fractures, including major osteoporotic fractures, across most time-frames (HRs ranging: 1.28 to 2.28). PINP was not consistently associated. Urinary osteocalcin was consistently associated with elevated short-term risk (HRs ranging: 1.83-2.72). Other BTMs were directionally in accordance, though not all statistically significant. BTMs were not predictive for hip fractures. Association of all BTMs attenuated over time; at 80 year none were associated with an increased fracture risk., Conclusion: CTX, urinary OC and TRAcP5b are predictive for fracture in a 1 to 3 year, perspective, whereas in the long-term or above age 80 years, BTMs appear less valuable. Resorption markers, particularly CTX, were more consistently associated with fracture risk than formation markers in the very elderly., (© 2022. The Author(s).)

Published

2022

9. Age-Progressive and Gender-Dependent Bone Phenotype in Mice Lacking Both Ebf1 and Ebf2 in Prrx1-Expressing Mesenchymal Cells.

Author

Nieminen-Pihala V, Rummukainen P, Wang F, Tarkkonen K, Ivaska KK, and Kiviranta R

Subjects

Age Factors, Animals, Female, Male, Mice, Mice, Knockout, Osteoblasts cytology, Osteoblasts metabolism, Osteogenesis, Phenotype, Sex Factors, Transcription Factors metabolism, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Bone and Bones cytology, Bone and Bones metabolism, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Trans-Activators genetics, Trans-Activators metabolism

Abstract

Ebfs are a family of transcription factors regulating the differentiation of multiple cell types of mesenchymal origin, including osteoblasts. Global deletion of Ebf1 results in increased bone formation and bone mass, while global loss of Ebf2 leads to enhanced bone resorption and decreased bone mass. Targeted deletion of Ebf1 in early committed osteoblasts leads to increased bone formation, whereas deletion in mature osteoblasts has no effect. To study the effects of Ebf2 specifically on long bone development, we created a limb bud mesenchyme targeted Ebf2 knockout mouse model by using paired related homeobox gene 1 (Prrx1) Cre. To investigate the possible interplay between Ebf1 and Ebf2, we deleted both Ebf1 and Ebf2 in the cells expressing Prrx1. Mice with Prrx1-targeted deletion of Ebf2 had a very mild bone phenotype. However, deletion of both Ebf1 and Ebf2 in mesenchymal lineage cells lead to significant, age progressive increase in bone volume. The phenotype was to some extent gender dependent, leading to an increase in both trabecular and cortical bone in females, while in males a mild cortical bone phenotype and a growth plate defect was observed. The phenotype was observed at both 6 and 12 weeks of age, but it was more pronounced in older female mice. Our data suggest that Ebfs modulate bone homeostasis and they are likely able to compensate for the lack of each other. The roles of Ebfs in bone formation appear to be complex and affected by multiple factors, such as age and gender., (© 2022. The Author(s).)

Published

2022

10. Guidelines for Biobanking of Bone Marrow Adipose Tissue and Related Cell Types: Report of the Biobanking Working Group of the International Bone Marrow Adiposity Society.

Author

Lucas S, Tencerova M, von der Weid B, Andersen TL, Attané C, Behler-Janbeck F, Cawthorn WP, Ivaska KK, Naveiras O, Podgorski I, Reagan MR, and van der Eerden BCJ

Subjects

Adiposity, Biological Specimen Banks, Humans, Adipose Tissue, Bone Marrow, Tissue Banks organization & administration

Abstract

Over the last two decades, increased interest of scientists to study bone marrow adiposity (BMA) in relation to bone and adipose tissue physiology has expanded the number of publications using different sources of bone marrow adipose tissue (BMAT). However, each source of BMAT has its limitations in the number of downstream analyses for which it can be used. Based on this increased scientific demand, the International Bone Marrow Adiposity Society (BMAS) established a Biobanking Working Group to identify the challenges of biobanking for human BMA-related samples and to develop guidelines to advance establishment of biobanks for BMA research. BMA is a young, growing field with increased interest among many diverse scientific communities. These bring new perspectives and important biological questions on how to improve and build an international community with biobank databases that can be used and shared all over the world. However, to create internationally accessible biobanks, several practical and legislative issues must be addressed to create a general ethical protocol used in all institutes, to allow for exchange of biological material internationally. In this position paper, the BMAS Biobanking Working Group describes similarities and differences of patient information (PIF) and consent forms from different institutes and addresses a possibility to create uniform documents for BMA biobanking purposes. Further, based on discussion among Working Group members, we report an overview of the current isolation protocols for human bone marrow adipocytes (BMAds) and bone marrow stromal cells (BMSCs, formerly mesenchymal), highlighting the specific points crucial for effective isolation. Although we remain far from a unified BMAd isolation protocol and PIF, we have summarized all of these important aspects, which are needed to build a BMA biobank. In conclusion, we believe that harmonizing isolation protocols and PIF globally will help to build international collaborations and improve the quality and interpretation of BMA research outcomes., Competing Interests: BE is chair and coordinator of the BMAS Working Group on Biobanking. All authors are members of the BMAS Working Group on Biobanking. BE, WC and ON are members of the BMAS Executive Board. SL, MR and MT are members of the BMAS Scientific Board., (Copyright © 2021 Lucas, Tencerova, von der Weid, Andersen, Attané, Behler-Janbeck, Cawthorn, Ivaska, Naveiras, Podgorski, Reagan and van der Eerden.)

Published

2021

11. Serum and Urinary Osteocalcin in Healthy 7- to 19-Year-Old Finnish Children and Adolescents.

Author

Paldánius PM, Ivaska KK, Mäkitie O, and Viljakainen H

Abstract

Children and adolescents have high bone turnover marker (BTM) levels due to high growth velocity and rapid bone turnover. Pediatric normative values for BTMs reflecting bone formation and resorption are vital for timely assessment of healthy bone turnover, investigating skeletal diseases, or monitoring treatment outcomes. Optimally, clinically feasible measurement protocols for BTMs would be validated and measurable in both urine and serum. We aimed to (a) establish sex- and age-specific reference intervals for urinary and serum total and carboxylated osteocalcin (OC) in 7- to 19-year-old healthy Finnish children and adolescents ( n = 172), (b) validate these against standardized serum and urinary BTMs, and (c) assess the impact of anthropometry, pubertal status, and body composition on the OC values. All OC values in addition to other BTMs increased with puberty and correlated with pubertal growth, which occurred and declined earlier in girls than in boys. The mean serum total and carboxylated OC and urinary OC values and percentiles for sex-specific age categories and pubertal stages were established. Correlation between serum and urinary OC was weak, especially in younger boys, but improved with increasing age. The independent determinants for OC varied, the urinary OC being the most robust while age, height, weight, and plasma parathyroid hormone (PTH) influenced serum total and carboxylated OC values. Body composition parameters had no influence on any of the OC values. In children and adolescents, circulating and urinary OC reflect more accurately growth status than bone mineral density (BMD) or body composition. Thus, validity of OC, similar to other BTMs, as a single marker of bone turnover, remains limited. Yet, serum and urinary OC similarly to other BTMs provide a valuable supplementary tool when assessing longitudinal changes in bone health with repeat measurements, in combination with other clinically relevant parameters., 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 © 2021 Paldánius, Ivaska, Mäkitie and Viljakainen.)

Published

2021

12. Effects of FGFR inhibitors TKI258, BGJ398 and AZD4547 on breast cancer cells in 2D, 3D and tissue explant cultures.

Author

Kähkönen TE, Toriseva M, Petruk N, Virta AR, Maher A, Eigéliené N, Kaivola J, Boström P, Koskivuo I, Nees M, Tuomela JM, Ivaska KK, and Härkönen PL

Subjects

Cell Death drug effects, Cell Line, Tumor, Cell Movement drug effects, Cell Proliferation drug effects, Cell Survival drug effects, Female, Humans, Neoplasm Invasiveness, Organoids drug effects, Organoids pathology, Protein Kinase Inhibitors pharmacology, Receptor Protein-Tyrosine Kinases metabolism, Signal Transduction drug effects, Benzamides pharmacology, Benzimidazoles pharmacology, Breast Neoplasms pathology, Phenylurea Compounds pharmacology, Piperazines pharmacology, Pyrazoles pharmacology, Pyrimidines pharmacology, Quinolones pharmacology, Receptor Protein-Tyrosine Kinases antagonists & inhibitors, Tissue Culture Techniques

Abstract

Purpose: Fibroblast growth factor receptors (FGFR) and pathways are important players in breast cancer (BC) development. They are commonly altered, and BCs exhibiting FGFR gene amplification are currently being studied for drug development. Here, we aimed to compare the effects of three FGFR inhibitors (FGFRis), i.e., non-selective TKI258 and selective BGJ398 and AZD4547, on different BC-derived cell lines (BCCs) and primary tissues., Methods: The human BCCs MCF-7 and MDA-MB-231(SA) (wild-type FGFR) and MFM223 (amplified FGFR1 and FGFR2) were analyzed for FGFR expression using qRT-PCR, and the effects of FGFRis on FGFR signaling by Western blotting. The effects of FGFRis on proliferation, viability, migration and invasion of BCCs were assessed in 2D cultures using live-cell imaging, and in 3D cultures using phenotypic analysis of organoids. To study radio-sensitization, FGFRi treatment was combined with irradiation. Patient-derived BC samples were treated with FGFRis in explant cultures and immunostained for Ki67 and cleaved caspase 3., Results: We found that all FGFRis tested decreased the growth and viability of BC cells in 2D and 3D cultures. BGJ398 and AZD4547 were found to be potent at low concentrations in FGFR-amplified MFM233 cells, whereas higher concentrations were required in non-amplified MCF7 and MDA-MB-231(SA) cells. TKI258 inhibited the migration and invasion, whereas BGJ398 and AZD4547 only inhibited the invasion of MDA-MB-231(SA) cells. FGFRi treatment of MCF7 and MFM223 cells enhanced the inhibitory effect of radiotherapy, but this effect was not observed in MDA-MB-231(SA) cells. FGFRi-treated primary BC explants with moderate FGFR levels showed a tendency towards decreased proliferation and increased apoptosis., Conclusions: Our results indicate that, besides targeting FGFR-amplified BCs with selective FGFRis, also BCs without FGFR amplification/activation may benefit from FGFRi-treatment. Combination with other treatment modalities, such as radiotherapy, may allow the use of FGFRis at relatively low concentrations and, thereby, contribute to better BC treatment outcomes.

Published

2021

13. Recombinant Antibodies with Unique Specificities Allow for Sensitive and Specific Detection of Uncarboxylated Osteocalcin in Human Circulation.

Author

Arponen M, Brockmann EC, Kiviranta R, Lamminmäki U, and Ivaska KK

Subjects

Aged, Binding Sites, Blood Glucose, Bone and Bones, Cross Reactions, Diabetes Mellitus, Type 2, Epitopes, Female, Humans, Immunoassay, Male, Middle Aged, Sensitivity and Specificity, Antibodies chemistry, Osteocalcin blood

Abstract

Osteocalcin is a bone-specific protein which contains three glutamic acid residues (Glu) that undergo post-translational gamma-carboxylation. Uncarboxylated osteocalcin (ucOC) may participate in the regulation of glucose metabolism, thus measurement of ucOC could be useful in evaluating interactions between bone and glucose metabolism. We developed recombinant antibodies and immunoassay to specifically detect ucOC in human blood samples. ucOC-specific recombinant antibodies were selected from an antibody library by phage display. Four candidates were characterized, and one (Fab-AP13) was used to set up an immunoassay with a pre-existing MAb. Plasma ucOC levels were measured in subjects with normal fasting blood glucose (≤ 6 mmol/l, N = 46) or with hyperglycemia (≥ 7 mmol/l, N = 29). Further, we analyzed ucOC in age- and gender-matched patients with diagnosed type 2 diabetes (T2D, N = 49). Antibodies recognized ucOC without cross-reaction to carboxylated osteocalcin. Antibodies had unique binding sites at the carboxylation region, with Glu17 included in all epitopes. Immunoassay was set up and characterized. Immunoassay detected ucOC in serum and plasma, with on average 1.6-fold higher levels in plasma. ucOC concentrations were significantly lower in subjects with hyperglycemia (median 0.58 ng/ml, p = 0.008) or with T2D diagnosis (0.68 ng/ml, p = 0.015) than in subjects with normal blood glucose (1.01 ng/ml). ucOC negatively correlated with fasting plasma glucose in subjects without T2D (r = - 0.24, p = 0.035) but not in T2D patients (p = 0.41). Our immunoassay, based on the novel recombinant antibody, allows for specific and sensitive detection of ucOC in human circulation. Correlation between ucOC and plasma glucose suggests interactions between osteocalcin and glucose metabolism in humans.

Published

2020

14. Bone Marrow Metabolism Is Impaired in Insulin Resistance and Improves After Exercise Training.

Author

Ojala R, Motiani KK, Ivaska KK, Arponen M, Eskelinen JJ, Virtanen KA, Löyttyniemi E, Heiskanen MA, U-Din M, Nuutila P, Kalliokoski KK, and Hannukainen JC

Subjects

Adult, Female, Humans, Male, Middle Aged, Sedentary Behavior, Bone Marrow metabolism, Exercise physiology, Insulin Resistance physiology

Abstract

Context: Exercise training improves bone mineral density, but little is known about the effects of training on bone marrow (BM) metabolism. BM insulin sensitivity has been suggested to play an important role in bone health and whole-body insulin sensitivity., Objective: To study the effects of exercise training on BM metabolism., Design: Randomized controlled trial., Setting: Clinical research center., Participants: Sedentary healthy (n = 28, 40-55 years, all males) and insulin resistant (IR) subjects (n = 26, 43-55 years, males/females 16/10)., Intervention: Two weeks of sprint interval training or moderate-intensity continuous training., Main Outcome Measures: We measured femoral, lumbar, and thoracic BM insulin-stimulated glucose uptake (GU) and fasting free fatty acid uptake (FFAU) using positron-emission tomography and bone turnover markers from plasma., Results: At baseline, GU was highest in lumbar, followed by thoracic, and lowest in femoral BM (all Ps < 0.0001). FFAU was higher in lumbar and thoracic than femoral BM (both Ps < 0.0001). BM FFAU and femoral BM GU were higher in healthy compared to IR men and in females compared to males (all Ps < 0.05). Training increased femoral BM GU similarly in all groups and decreased lumbar BM FFAU in males (all Ps < 0.05). Osteocalcin and PINP were lower in IR than healthy men and correlated positively with femoral BM GU and glycemic status (all Ps < 0.05)., Conclusions: BM metabolism differs regarding anatomical location. Short-term training improves BM GU and FFAU in healthy and IR subjects. Bone turnover rate is decreased in insulin resistance and associates positively with BM metabolism and glycemic control., Clinical Trial Registration Number: NCT01344928., (© Endocrine Society 2020.)

Published

2020

15. Human Bone Marrow Adipose Tissue is a Metabolically Active and Insulin-Sensitive Distinct Fat Depot.

Author

Pham TT, Ivaska KK, Hannukainen JC, Virtanen KA, Lidell ME, Enerbäck S, Mäkelä K, Parkkola R, Piirola S, Oikonen V, Nuutila P, and Kiviranta R

Subjects

Adipocytes metabolism, Adult, Cross-Sectional Studies, Diabetes Mellitus, Type 2 metabolism, Female, Glucose metabolism, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Middle Aged, Obesity metabolism, Positron-Emission Tomography, Adipose Tissue metabolism, Bone Marrow metabolism, Insulin metabolism, Insulin Resistance

Abstract

Context: Bone marrow (BM) in adult long bones is rich in adipose tissue, but the functions of BM adipocytes are largely unknown. We set out to elucidate the metabolic and molecular characteristics of BM adipose tissue (BMAT) in humans., Objective: Our aim was to determine if BMAT is an insulin-sensitive tissue, and whether the insulin sensitivity is altered in obesity or type 2 diabetes (T2DM)., Design: This was a cross-sectional and longitudinal study., Setting: The study was conducted in a clinical research center., Patients or Other Participants: Bone marrow adipose tissue glucose uptake (GU) was assessed in 23 morbidly obese subjects (9 with T2DM) and 9 healthy controls with normal body weight. In addition, GU was assessed in another 11 controls during cold exposure. Bone marrow adipose tissue samples for molecular analyses were collected from non-DM patients undergoing knee arthroplasty., Intervention(s): Obese subjects were assessed before and 6 months after bariatric surgery and controls at 1 time point., Main Outcome Measure: We used positron emission tomography imaging with 2-[18F]fluoro-2-deoxy-D-glucose tracer to characterize GU in femoral and vertebral BMAT. Bone marrow adipose tissue molecular profile was assessed using quantitative RT-PCR., Results: Insulin enhances GU in human BMAT. Femoral BMAT insulin sensitivity was impaired in obese patients with T2DM compared to controls, but it improved after bariatric surgery. Furthermore, gene expression analysis revealed that BMAT was distinct from brown and white adipose tissue., Conclusions: Bone marrow adipose tissue is a metabolically active, insulin-sensitive and molecularly distinct fat depot that may play a role in whole body energy metabolism., (© Endocrine Society 2020.)

Published

2020

16. Dovitinib dilactic acid reduces tumor growth and tumor-induced bone changes in an experimental breast cancer bone growth model.

Author

Kähkönen TE, Tuomela JM, Grönroos TJ, Halleen JM, Ivaska KK, and Härkönen PL

Abstract

Advanced breast cancer has a high incidence of bone metastases. In bone, breast cancer cells induce osteolytic or mixed bone lesions by inducing an imbalance in bone formation and resorption. Activated fibroblast growth factor receptors (FGFRs) are important in regulation of tumor growth and bone remodeling. In this study we used FGFR1 and FGFR2 gene amplifications containing human MFM223 breast cancer cells in an experimental xenograft model of breast cancer bone growth using intratibial inoculation technique. This model mimics bone metastases in breast cancer patients. The effects of an FGFR inhibitor, dovitinib dilactic acid (TKI258) on tumor growth and tumor-induced bone changes were evaluated. Cancer-induced bone lesions were smaller in dovitinib-treated mice as evaluated by X-ray imaging. Peripheral quantitative computed tomography imaging showed higher total and cortical bone mineral content and cortical bone mineral density in dovitinib-treated mice, suggesting better preserved bone mass. CatWalk gait analysis indicated that dovitinib-treated mice experienced less cancer-induced bone pain in the tumor-bearing leg. A trend towards decreased tumor growth and metabolic activity was observed in dovitinib-treated mice quantified by positron emission tomography imaging with 2-[ 18 F]fluoro-2-deoxy-D-glucose at the endpoint. We conclude that dovitinib treatment decreased tumor burden, cancer-induced changes in bone, and bone pain. The results suggest that targeting FGFRs could be beneficial in breast cancer patients with bone metastases.

Published

2019

17. Low free 25-hydroxyvitamin D and high vitamin D binding protein and parathyroid hormone in obese Caucasians. A complex association with bone?

Author

Saarnio E, Pekkinen M, Itkonen ST, Kemi V, Karp H, Ivaska KK, Risteli J, Koivula MK, Kärkkäinen M, Mäkitie O, Sievänen H, and Lamberg-Allardt C

Subjects

Adult, Female, Finland, Humans, Male, Middle Aged, Vitamin D blood, Obesity blood, Parathyroid Hormone blood, Vitamin D analogs & derivatives

Abstract

Background: Studies have shown altered vitamin D metabolism in obesity. We assessed differences between obese and normal-weight subjects in total, free, and bioavailable 25-hydroxyvitamin D (25(OH)D, 25(OH)DFree, and 25(OH)DBio, respectively), vitamin D binding protein (DBP), parathyroid hormone (PTH) and bone traits., Methods: 595 37-47-year-old healthy Finnish men and women stratified by BMI were examined in this cross-sectional study. Background characteristic and intakes of vitamin D and calcium were collected. The concentrations of 25(OH)D, PTH, DBP, albumin and bone turnover markers were determined from blood. 25(OH)DFree and 25(OH)DBio were calculated. pQCT was performed at radius and tibia., Results: Mean±SE (ANCOVA) 25(OH)DFree (10.8±0.6 vs 12.9±0.4 nmol/L; P = 0.008) and 25(OH)DBio (4.1±0.3 vs 5.1±0.1 nmol/L; P = 0.003) were lower in obese than in normal-weight women. In men, 25(OH)D (48.0±2.4 vs 56.4±2.0 nmol/L, P = 0.003), 25(OH)DFree (10.3±0.7 vs 12.5±0.6 pmol/L; P = 0.044) and 25(OH)DBio (4.2±0.3 vs 5.1±0.2 nmol/L; P = 0.032) were lower in obese. Similarly in all subjects, 25(OH)D, 25(OH)DFree and 25(OH)DBio were lower in obese (P<0.001). DBP (399±12 vs 356±7mg/L, P = 0.008) and PTH (62.2±3.0 vs 53.3±1.9 ng/L; P = 0.045) were higher in obese than in normal-weight women. In all subjects, PTH and DBP were higher in obese (P = 0.047and P = 0.004, respectively). In obese women, 25(OH)D was negatively associated with distal radius trabecular density (R2 = 0.089, P = 0.009) and tibial shaft cortical strength index (CSI) (R2 = 0.146, P = 0.004). 25(OH)DFree was negatively associated with distal radius CSI (R2 = 0.070, P = 0.049), radial shaft cortical density (CorD) (R2 = 0.050, P = 0.045), and tibial shaft CSI (R2 = 0.113, P = 0.012). 25(OH)DBio was negatively associated with distal radius CSI (R2 = 0.072, P = 0.045), radial shaft CorD (R2 = 0.059, P = 0.032), and tibial shaft CSI (R2 = 0.093, P = 0.024)., Conclusions: The associations between BMI and 25(OH)D, 25(OH)DFree, and 25(OH)DBio, DBP, and PTH suggest that obese subjects may differ from normal-weight subjects in vitamin D metabolism. BMI associated positively with trabecular bone traits and CSI in our study, and slightly negatively with cortical bone traits. Surprisingly, there was a negative association of free and bioavailable 25(OH)D and some of the bone traits in obese women.

Published

2018

18. Role of fibroblast growth factor receptors (FGFR) and FGFR like-1 (FGFRL1) in mesenchymal stromal cell differentiation to osteoblasts and adipocytes.

Author

Kähkönen TE, Ivaska KK, Jiang M, Büki KG, Väänänen HK, and Härkönen PL

Subjects

Adipocytes drug effects, Adipocytes metabolism, Animals, Cell Line, Down-Regulation drug effects, Fibroblast Growth Factor 2 pharmacology, Gene Expression Profiling, Gene Silencing, Male, Mesenchymal Stem Cells drug effects, Mice, Inbred C57BL, Osteoblasts drug effects, Osteoblasts metabolism, Receptor, Fibroblast Growth Factor, Type 5 genetics, Receptors, Fibroblast Growth Factor genetics, Adipocytes cytology, Cell Differentiation drug effects, Cell Differentiation genetics, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Osteoblasts cytology, Receptor, Fibroblast Growth Factor, Type 5 metabolism, Receptors, Fibroblast Growth Factor metabolism

Abstract

Fibroblast growth factors (FGF) and their receptors (FGFRs) regulate many developmental processes including differentiation of mesenchymal stromal cells (MSC). We developed two MSC lines capable of differentiating to osteoblasts and adipocytes and studied the role of FGFRs in this process. We identified FGFR2 and fibroblast growth factor receptor like-1 (FGFRL1) as possible actors in MSC differentiation with gene microarray and qRT-PCR. FGFR2 and FGFRL1 mRNA expression strongly increased during MSC differentiation to osteoblasts. FGF2 treatment, resulting in downregulation of FGFR2, or silencing FGFR2 expression with siRNAs inhibited osteoblast differentiation. During adipocyte differentiation expression of FGFR1 and FGFRL1 increased and was down-regulated by FGF2. FGFR1 knockdown inhibited adipocyte differentiation. Silencing FGFR2 and FGFR1 in MSCs was associated with decreased FGFRL1 expression in osteoblasts and adipocytes, respectively. Our results suggest that FGFR1 and FGFR2 regulate FGFRL1 expression. FGFRL1 may mediate or modulate FGFR regulation of MSC differentiation together with FGFR2 in osteoblastic and FGFR1 in adipocytic lineage., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

19. Testicular Function and Bone in Young Men with Severe Childhood-Onset Obesity.

Author

Laakso S, Viljakainen H, Lipsanen-Nyman M, Turpeinen U, Ivaska KK, Anand-Ivell R, Ivell R, and Mäkitie O

Subjects

Adolescent, Adult, Age of Onset, Child, Humans, Leydig Cells pathology, Male, Obesity pathology, Obesity physiopathology, Body Mass Index, Leydig Cells metabolism, Obesity metabolism, Testosterone metabolism

Abstract

Background: Previous studies suggest increased risk for hypoandrogenism and fractures in men with obesity. We aimed to describe the effects of severe childhood-onset obesity on the cross talk between metabolic state, testes, and skeleton at late puberty., Methods: A cohort of adolescent and young adult males with severe childhood-onset obesity (n = 21, mean age 18.5 years) and an age-matched control group were assessed for testicular hormones and X-ray absorptiometry-derived bone mass., Results: Current median body mass indexes for the obese and control subjects were 37.4 and 22.9. Severe early-onset obesity manifested with lower free testosterone (median [interquartile range] 244 [194-332] vs. 403 [293-463] pmol/L, p = 0.002). Lower insulin-like 3 (1.02 [0.82-1.23] vs. 1.22 [1.01-1.46] ng/mL, p = 0.045) and lower ratio of testosterone to luteinizing hormone (2.81 [1.96-3.98] vs. 4.10 [3.03-5.83] nmol/IU, p = 0.008) suggested disrupted Leydig cell function. The degree of current obesity inversely correlated with free testosterone (τ = -0.516, p = 0.003), which in turn correlated positively with bone area at all measurement sites in males with childhood-onset obesity., Conclusions: Severe childhood-onset obesity is associated with impaired Leydig cell function in young men and lower free testosterone may contribute to impaired skeletal characteristics., (© 2018 S. Karger AG, Basel.)

Published

2018

20. Changes in bone metabolism after bariatric surgery by gastric bypass or sleeve gastrectomy.

Author

Ivaska KK, Huovinen V, Soinio M, Hannukainen JC, Saunavaara V, Salminen P, Helmiö M, Parkkola R, Nuutila P, and Kiviranta R

Subjects

Adult, Biomarkers metabolism, Blood Glucose metabolism, Bone Density, Bone Remodeling, Case-Control Studies, Diabetes Mellitus, Type 2 metabolism, Female, Humans, Lumbar Vertebrae physiopathology, Male, Middle Aged, Obesity, Morbid metabolism, Obesity, Morbid surgery, Weight Loss, Bone and Bones metabolism, Gastrectomy, Gastric Bypass

Abstract

Bariatric surgery results in rapid weight loss and beneficial metabolic effects, but may have negative effects on the skeleton. The objective of this prospective study was to evaluate changes in bone metabolism in response to bariatric surgery with two surgical techniques. 46 morbidly obese subjects (mean 44.9years, BMI 42.1) with (n=19) or without (n=27) type 2 diabetes (T2DM) at baseline underwent either Roux-en-Y gastric bypass (RYGB, n=21) or sleeve gastrectomy (SG, n=25). Bone turnover markers (CTX, PINP, TRAcP5b, TotalOC and ucOC) were measured before and six months after surgery. Volumetric bone mineral density (vBMD) at lumbar spine and vertebral bone marrow (VBM) fat were measured in 21 subjects (7 RYGB and 14 SG) with three-dimensional quantitative computer tomography and 1 H MR spectroscopy, respectively. 25 non-obese subjects were recruited as controls (mean 45.8years, BMI 23.0) and assessed at a single cross-sectional visit. Obese subjects had significantly lower bone turnover at baseline when compared to non-obese controls. Bone metabolic markers markedly increased post-operatively (p<0.0001 for all). The activation of bone remodeling was significantly higher after RYGB than after SG and was particularly observed in patients, whose type 2 diabetes was in remission after weight loss. There was no change in volumetric BMD or marrow fat at lumbar spine six months after surgery in our sample. In conclusion, severe obesity decreases bone remodeling, which is activated after bariatric surgery. The increase in bone turnover after surgery is affected by the choice of surgical technique and by the post-surgery remission of T2DM., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2017

21. Bone mineral density is increased after a 16-week resistance training intervention in elderly women with decreased muscle strength.

Author

Huovinen V, Ivaska KK, Kiviranta R, Bucci M, Lipponen H, Sandboge S, Raiko J, Eriksson JG, Parkkola R, Iozzo P, and Nuutila P

Subjects

Aged, Female, Follow-Up Studies, Humans, Osteoporotic Fractures diagnosis, Osteoporotic Fractures metabolism, Time Factors, Bone Density physiology, Early Medical Intervention methods, Muscle Strength physiology, Osteoporotic Fractures prevention & control, Resistance Training methods

Abstract

Objective: Non-pharmacological interventions are important in reducing risk for osteoporotic fractures. We investigated the effects of a 16-week individualized resistance training intervention on bone mineral density (BMD), bone turnover markers and 10-year relative risk (RR) for osteoporotic fracture., Design: Interventional study with a follow-up., Methods: In total, 37 elderly women (mean age 71.9 ± 3.1 years) with decreased muscle strength participated in the resistance training intervention three times per week with 60 min per session for 16 weeks under the supervision of a licensed physiotherapist. Total hip BMD with quantitative CT, bone markers (sclerostin, osteocalcin, CTX, PINP, IGF-1, 25(OH)-D) and 10-year RR for osteoporotic fracture were measured at baseline, post-intervention and at 1-year follow-up after the end of the intervention. Eleven age- and sex-matched controls did not participate in the intervention but were studied at baseline and at 1-year follow-up., Results: Resistance training seemed to increase total hip BMD by 6% (P = 0.005). Sclerostin (P < 0.001) and total osteocalcin (P = 0.04) increased while other bone markers remained unchanged. A 10-year RR for major osteoporotic and hip fracture remained unchanged. At follow-up total hip BMD (P < 0.001) decreased back to the baseline level with a simultaneous decrease in serum sclerostin (P = 0.045), CTX (P < 0.001) and an increase in 25(OH)-D (P < 0.001), 10-year RR for major osteoporotic (P = 0.002) and hip fracture (P = 0.01)., Conclusions: Our findings suggest an important role of continuous supervised resistance training for the prevention of osteoporotic fractures in elderly women with decreased muscle strength., (© 2016 European Society of Endocrinology.)

Published

2016

22. Obese young adults exhibit lower total and lower free serum 25-hydroxycholecalciferol in a randomized vitamin D intervention.

Author

Holmlund-Suila E, Pekkinen M, Ivaska KK, Andersson S, Mäkitie O, and Viljakainen H

Subjects

Adolescent, Calcifediol blood, Double-Blind Method, Female, Humans, Male, Pediatric Obesity blood, Treatment Outcome, Vitamin D-Binding Protein blood, Young Adult, Cholecalciferol therapeutic use, Pediatric Obesity drug therapy

Abstract

Objective: Although obesity is a risk factor for vitamin D insufficiency, its impact on vitamin D-binding protein (DBP) concentration, and thereby possibly also on free 25OHD, is less well known. Our aim was to compare total and free serum 25OHD, and DBP concentrations between obese and normal-weight young adults at baseline and their responses to cholecalciferol supplementation., Design: A 12-week randomized, double-blinded clinical trial., Patients: Obese subjects N = 18 (BMI = 38, 67% men) with severe childhood-onset obesity and 24 normal-weight subjects (BMI = 23, 46% men), age between 15 and 25 years, were randomized into two groups to receive either placebo or cholecalciferol 50 μg (2000 IU) daily., Measurements: At baseline, 6-week and 12-week blood samples and anthropometric measurements were collected; baseline body composition was assessed by dual-energy X-ray absorptiometry., Results: At baseline, obese subjects had, compared with normal-weight, lower total and free serum 25OHD (49 vs 62 nmol/l, P = 0·041; 2·8 vs 4·7 pg/ml, P = 0·001), without differences in DBP concentrations (309 vs 346 μg/ml, P = 0·212). Cholecalciferol 50 μg per day increased both total and free 25OHD (ancova P < 0·001 and P = 0·021). The response of total 25OHD to supplementation was inferior in the obese compared with normal-weight subjects (P = 0·027). On the contrary, the change in free 25OHD concentration was similar in groups (P = 0·487)., Conclusions: Obese young adults exhibit lower total and free 25OHD concentration, which is not directly explained by differences in DBP status. The response of free 25OHD to supplementation did not differ between obese and normal-weight subjects., (© 2016 John Wiley & Sons Ltd.)

Published

2016

23. The effects of acute hyperinsulinemia on bone metabolism.

Author

Ivaska KK, Heliövaara MK, Ebeling P, Bucci M, Huovinen V, Väänänen HK, Nuutila P, and Koistinen HA

Abstract

Insulin signaling in bone-forming osteoblasts stimulates bone formation and promotes the release of osteocalcin (OC) in mice. Only a few studies have assessed the direct effect of insulin on bone metabolism in humans. Here, we studied markers of bone metabolism in response to acute hyperinsulinemia in men and women. Thirty-three subjects from three separate cohorts (n=8, n=12 and n=13) participated in a euglycaemic hyperinsulinemic clamp study. Blood samples were collected before and at the end of infusions to determine the markers of bone formation (PINP, total OC, uncarboxylated form of OC (ucOC)) and resorption (CTX, TRAcP5b). During 4 h insulin infusion (40 mU/m(2) per min, low insulin), CTX level decreased by 11% (P<0.05). High insulin infusion rate (72 mU/m(2) per min) for 4 h resulted in more pronounced decrease (-32%, P<0.01) whereas shorter insulin exposure (40 mU/m(2) per min for 2 h) had no effect (P=0.61). Markers of osteoblast activity remained unchanged during 4 h insulin, but the ratio of uncarboxylated-to-total OC decreased in response to insulin (P<0.05 and P<0.01 for low and high insulin for 4 h respectively). During 2 h low insulin infusion, both total OC and ucOC decreased significantly (P<0.01 for both). In conclusion, insulin decreases bone resorption and circulating levels of total OC and ucOC. Insulin has direct effects on bone metabolism in humans and changes in the circulating levels of bone markers can be seen within a few hours after administration of insulin., (© 2015 The authors.)

Published

2015

24. Increased Body Adiposity and Serum Leptin Concentrations in Very Long-Term Adult Male Survivors of Childhood Acute Lymphoblastic Leukemia.

Author

Jahnukainen K, Heikkinen R, Henriksson M, Andersson S, Ivaska KK, Puukko-Viertomies LR, and Mäkitie O

Subjects

Absorptiometry, Photon, Adipokines blood, Adiponectin blood, Adult, Child, Cohort Studies, Hormone Replacement Therapy, Humans, Hypogonadism etiology, Insulin-Like Growth Factor Binding Protein 3 blood, Male, Obesity epidemiology, Obesity etiology, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma radiotherapy, Radiotherapy adverse effects, Survivors, Testis metabolism, Testosterone therapeutic use, Adiposity, Leptin blood, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma blood, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma pathology

Abstract

Background: We evaluated the body composition and its association with hypogonadism in adult male long-term acute lymphoblastic leukemia (ALL) survivors., Methods: The cohort included 49 long-term male ALL survivors and 55 age-matched healthy controls. Fat and lean mass was assessed by dual-energy X-ray absorptiometry; blood biochemistry was obtained for adipokines and testicular endocrine markers., Results: As compared with controls, the ALL survivors (median age 29 years, range 25-38), assessed 10-28 years after ALL diagnosis, had higher percentages of body (p < 0.05) and trunk fat mass (p < 0.05), and a lower body lean mass (p < 0.001). Survivors had significantly higher levels of leptin and adiponectin and lower levels of insulin-like growth factor-binding protein 3. Body fat mass and percent fat mass correlated with serum leptin and sex hormone-binding globulin (SHBG) levels. Altogether, 15% of the ALL survivors and 9% of age-matched controls were obese (BMI ≥ 30). Obese survivors more often had hypogonadism, had received testicular irradiation, and needed testosterone replacement therapy compared to nonobese survivors., Conclusion: At young adulthood, long-term male ALL survivors have significantly increased body adiposity despite normal weight and BMI. Potential indicators of increased adiposity included high leptin and low SHBG levels. Serum testicular endocrine markers did not correlate with body adiposity., (© 2015 S. Karger AG, Basel.)

Published

2015

25. High adiposity and serum leptin accompanied by altered bone turnover markers in severe juvenile idiopathic arthritis.

Author

Markula-Patjas KP, Ivaska KK, Pekkinen M, Andersson S, Moilanen E, Viljakainen HT, and Mäkitie O

Subjects

Adipokines blood, Adiponectin blood, Adipose Tissue metabolism, Adolescent, Arthritis, Juvenile physiopathology, Biomarkers blood, Body Mass Index, Bone Density physiology, Bone Resorption metabolism, Case-Control Studies, Child, Female, Humans, Male, Adiposity physiology, Arthritis, Juvenile metabolism, Bone and Bones metabolism, Collagen Type I blood, Leptin blood, Peptide Fragments blood, Peptides blood, Procollagen blood, Severity of Illness Index

Abstract

Objective: To evaluate interactions between skeleton and adipose tissue, and association of adipokines and bone turnover markers with disease-related factors in patients with severe juvenile idiopathic arthritis (JIA)., Methods: Forty-nine patients (median age 14.8 yrs, median disease duration 10.2 yrs) with refractory polyarticular JIA and 89 sex-matched and age-matched healthy controls participated in the study. Study subjects underwent clinical examination, body composition assessment with dual-energy X-ray absorptiometry, and analyses for leptin, adiponectin, and bone turnover markers., Results: Patients with JIA were shorter and more often overweight (p = 0.001) or obese (p < 0.001) than controls. They had significantly higher serum leptin, even when adjusted for fat mass (p < 0.001), than did controls. Adiponectin did not differ between the groups. Concentration of carboxyterminal telopeptide of type I collagen was higher (p = 0.006) in patients. The inverse association between leptin and bone turnover markers disappeared in controls but was strengthened in patients when adjusted for fat mass. Leptin, adiponectin, or bone markers did not associate with variables of disease activity., Conclusion: Patients with severe JIA had high adiposity accompanied by increased bone resorption. Their serum leptin was higher, even independently of fat mass. Leptin tended to associate inversely with bone turnover markers but did not associate with variables of disease activity.

Published

2014

26. Suppressed bone turnover in obesity: a link to energy metabolism? A case-control study.

Author

Viljakainen H, Ivaska KK, Paldánius P, Lipsanen-Nyman M, Saukkonen T, Pietiläinen KH, Andersson S, Laitinen K, and Mäkitie O

Subjects

Adolescent, Adult, Biomarkers blood, Biomarkers metabolism, Bone and Bones metabolism, Case-Control Studies, Female, Glucose Tolerance Test, Humans, Male, Obesity blood, Osteocalcin blood, Young Adult, Bone Remodeling, Energy Metabolism, Obesity metabolism, Osteocalcin metabolism

Abstract

Context: Observations in rodents suggest that osteocalcin (OC) participates in glucose metabolism. Based on human studies, it remains unclear whether circulating OC is simply a bone turnover marker (BTM) or also a mediator in interactions between the skeleton and glucose homeostasis., Objective: The objective of the study was to determine the responses of BTMs, including OC, to oral glucose tolerance test (OGTT) in a case-control setting., Design and Patients: Thirty-four normoglycemic young adults [mean age 19 y (SD 2.3)] with severe childhood-onset obesity and their gender- and age-matched nonobese controls underwent a standard 2-hour OGTT., Main Outcome Measures: Glucose, insulin, and six BTMs including total and carboxylated OC (cOC) were determined at baseline and at 30, 60, 90, and 120 minutes during OGTT., Results: The obese and control subjects were similar in height; the mean body mass indices were 40.4 and 21.9 kg/m(2), respectively. The homeostasis model assessment index was 2.7 times greater in the obese subjects. All BTMs, except bone-specific alkaline phophatase, were lower in the obese subjects compared with the controls: the differences at baseline were 40%, 35%, 17%, 31%, and 32% for N-terminal propeptides of type I collagen, cross-linked telopeptides of type I collagen, tartrate-resistant acid phosphatase, total OC, and carboxylated OC (P < .05 for all) after adjusting for whole-body bone area. All BTMs decreased during OGTT. The relative values for the OGTT responses for total, but not for cOC (measured as area under the curve) differed between the two groups (P = .029 and P = .139, respectively): the decrease in total OC during the OGTT was less pronounced in the obese subjects. Responses in other BTMs were similar between the groups. No associations were observed between glucose metabolism and OCs during OGTT with linear regression., Conclusions: Bone turnover markers were substantially lower in obese subjects compared with controls. Total OC and cOC showed less pronounced decrease during the OGTT in obese subjects compared with controls, whereas other BTMs responded similarly in the two groups. The role of OC, if anything, in glucose homeostasis is indirect and may be mediated via other factors than glucose or insulin.

Published

2014

27. Inactivation of the androgen receptor in bone-forming cells leads to trabecular bone loss in adult female mice.

Author

Määttä JA, Büki KG, Ivaska KK, Nieminen-Pihala V, Elo TD, Kähkönen T, Poutanen M, Härkönen P, and Väänänen K

Abstract

Removal of the androgen receptor (AR) from bone-forming cells has been shown to reduce trabecular bone volume in male mice. In female mice, the role of AR in the regulation of bone homeostasis has been poorly understood. We generated a mouse strain in which the AR is completely inactivated only in mineralizing osteoblasts and osteocytes by breeding mice carrying osteocalcin promoter-regulated Cre-recombinase with mice possessing loxP recombination sites flanking exon 2 of the AR gene (AR(ΔOB/ΔOB) mice). In female AR(ΔOB/ΔOB) mice, the trabecular bone volume was reduced owing to a smaller number of trabeculae at 6 months of age compared with the control AR(fl/fl) animals. In male AR(ΔOB/ΔOB) mice, an increase in trabecular bone separation could already be detected at 3.5 months of age, and at 6 months, the trabecular bone volume was significantly reduced compared with that of male AR(fl/fl) mice. No AR-dependent changes were observed in the cortical bone of either sex. On the basis of micro-computed tomography and histomorphometry, we conclude that in male mice, the AR is involved in the regulation of osteoclast number by osteoblasts, whereas in female mice, the lack of the AR in the bone-forming cells leads to a decreased number of trabeculae upon aging.

Published

2013

28. Total and carboxylated osteocalcin associate with insulin levels in young adults born with normal or very low birth weight.

Author

Paldánius PM, Ivaska KK, Hovi P, Andersson S, Eriksson JG, Väänänen K, Kajantie E, and Mäkitie O

Subjects

Adolescent, Adult, Bone Density, Fasting, Female, Gestational Age, Glucose Tolerance Test, Humans, Infant, Newborn, Infant, Very Low Birth Weight growth & development, Longitudinal Studies, Male, Protein Processing, Post-Translational, Blood Glucose metabolism, Bone and Bones metabolism, Energy Metabolism physiology, Infant, Very Low Birth Weight blood, Insulin blood, Osteocalcin blood

Abstract

Objective: Osteocalcin (OC), a bone-derived protein, has been implicated in the regulation of glucose and energy metabolism. Young adults born with very low birth weight (VLBW) have altered glucose regulation and lower bone mineral density (BMD) compared with those born at term. The aim of this study was to explore the association between bone and glucose metabolism in healthy young adults born prematurely or at term., Methods: The cohort of this cross-sectional study comprised 332 non-diabetic young adults (age 18 to 27 years) born either preterm with VLBW (n = 163) or at term (n = 169). OC, carboxylated osteocalcin (cOC) and markers of glucose metabolism were measured at fasting and after a 75-g oral glucose tolerance test (OGTT)., Results: VLBW adults were shorter, had lower BMD (p<0.001) and higher fasting OC (p = 0.027) and cOC (p = 0.005) than term-born subjects. They also had higher 2-hour insulin (p = 0.001) and glucose (p = 0.037) concentrations. OGTT induced a significant reduction in OC (p<0.001), similar in both groups. OC reduction was not associated with OGTT-induced increases in insulin (p = 0.54). However, fasting total OC and cOC correlated negatively with fasting insulin after adjustment for age, gender, BMD and VLBW status (r = -0.182, p = 0.009 and r = -0.283, p<0.001, respectively)., Conclusion: Adults born with VLBW have higher OC and cOC than their peers born at term. This may in part reflect the mechanisms that underlie their lower BMD and decreased insulin sensitivity. Serum OC appears to be negatively associated with long-term glucose regulation whereas acute changes during OGTT may be mediated via other mechanisms.

Published

2013

29. Serum osteocalcin is not associated with glucose but is inversely associated with leptin across generations of nondiabetic women.

Author

Lu C, Ivaska KK, Alen M, Wang Q, Törmäkangas T, Xu L, Wiklund P, Mikkola TM, Pekkala S, Tian H, Väänänen HK, and Cheng S

Subjects

Adiponectin blood, Adolescent, Adult, Age Factors, Aged, Bone and Bones metabolism, Female, Humans, Insulin blood, Insulin Resistance, Middle Aged, Premenopause, Blood Glucose metabolism, Leptin blood, Osteocalcin blood

Abstract

Context: The skeleton is recognized as an important player in energy metabolism through its interactions with other tissues. Whether the association of osteocalcin with glucose metabolism is age dependent has not been fully addressed., Objective: The objective of the study was to examine the age-specific association between different forms of osteocalcin and glucose and adipokines., Design: This was a family-based study across three generations., Setting: The study was conducted at a university laboratory., Participants: Sixty-four daughter-premenopausal mother-maternal grandmother trios participated in the study., Methods: Fasting plasma glucose and insulin concentrations, serum total (tOC), carboxylated (cOC), and uncarboxylated (ucOC = tOC - cOC) osteocalcin, leptin, and adiponectin levels, and fat masses were assessed. Generalized estimating equations (GEE) model was used to assess the associations of bone biomarkers with glucose metabolism variables and adipokines., Results: No significant difference in insulin was found between generations, whereas glucose and leptin increased with age. Levels of tOC, cOC, and ucOC were highest in girls and lowest in mothers (P < 0.01). Grandmothers had higher leptin and adiponectin than mothers and girls. Despite the differences in insulin and glucose between the low and high homeostasis model assessment insulin resistance index (HOMA-IR) groups within generations, no significant differences in tOC, cOC, and ucOC were found. Compared with their low HOMA-IR counterparts, the high HOMA-IR group had significantly higher leptin and lower adiponectin in mothers and grandmothers. The tOC, cOC, and ucOC levels did not correlate with HOMA-IR, leptin, or adiponectin when the three generations were evaluated together, but when separated by generation, leptin was inversely correlated with tOC (P = 0.003) and cOC (P = 0.047) in mothers and with ucOC in grandmothers (P = 0.042)., Conclusions: Osteocalcin, glucose, and adipokines change with age but in a noncommensurate manner. We infer that the association between osteocalcin and glucose metabolism is minor and age specific in nondiabetic women. Leptin, however, strongly correlated with insulin resistance independently of fat masses, suggesting that obesity, as a metabolic disorder risk factor, affects glucose metabolism, partly through the role of leptin.

Published

2012

30. Tactile/kinesthetic stimulation (TKS) increases tibial speed of sound and urinary osteocalcin (U-MidOC and unOC) in premature infants (29-32weeks PMA).

Author

Haley S, Beachy J, Ivaska KK, Slater H, Smith S, and Moyer-Mileur LJ

Subjects

Female, Humans, Infant, Newborn, Longitudinal Studies, Male, Prospective Studies, Tibia diagnostic imaging, Ultrasonography, Acoustics, Infant, Premature, Kinesthesis, Massage, Osteocalcin urine, Tibia physiology

Abstract

Preterm delivery (<37 weeks post-menstrual age) is associated with suboptimal bone mass. We hypothesized that tactile/kinesthetic stimulation (TKS), a form of infant massage that incorporates kinesthetic movement, would increase bone strength and markers of bone accretion in preterm infants. Preterm, AGA infants (29-32 weeks) were randomly assigned to TKS (N=20) or Control (N=20). Twice daily TKS was provided 6 days per week for 2 weeks. Control infants received the same care without TKS treatment. Treatment was masked to parents, health care providers, and study personnel. Baseline and week two measures were collected for tibial speed of sound (tSOS, m/sec), a surrogate for bone strength, by quantitative ultrasound (Sunlight8000) and urine markers of bone metabolism, pyridinium crosslinks and osteocalcin (U-MidOC and unOC). Infant characteristics at birth and study entry as well as energy/nutrient intake were similar between TKS and Control. TKS intervention attenuated the decrease in tSOS observed in Control infants (p<0.05). Urinary pyridinium crosslinks decreased over time in both TKS and CTL (p<0.005). TKS infants experienced greater increases in urinary osteocalcin (U-MidOC, p<0.001 and unOC, p<0.05). We conclude that TKS improves bone strength in premature infants by attenuating the decrease that normally follows preterm birth. Further, biomarkers of bone metabolism suggest a modification in bone turnover in TKS infants in favor of bone accretion. Taken together, we speculate that TKS improves bone mineralization., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

31. Urinary osteocalcin and serum pro-C-type natriuretic peptide predict linear catch-up growth in infants.

Author

Kilpeläinen L, Ivaska KK, Kuiri-Hänninen T, Väänänen HK, Rehfeld JF, Goetze JP, Sankilampi U, and Dunkel L

Subjects

Anthropometry methods, Body Size, Cohort Studies, Female, Humans, Infant, Infant, Newborn, Infant, Premature, Longitudinal Studies, Male, Prospective Studies, ROC Curve, Risk, Bone and Bones physiology, Natriuretic Peptide, C-Type blood, Osteocalcin urine

Abstract

Preterm (PT) infants are at risk of growth failure despite advanced early care and nutrition. In addition to poor weight gain, slow postnatal linear growth also is associated with adverse neurological outcome. Markers distinguishing infants at risk for impaired catch-up growth are needed. The aim of this longitudinal study was to determine the extent to which postnatal levels of circulating cartilage (serum pro-C-type natriuretic peptide [S-proCNP]) and urinary bone metabolic markers (urinary osteocalcin [MidOC] and two forms of C-terminal cross-linked telopeptide of type I collagen [U-α-CTX-I and U-β-CTX-I]) predict catch-up growth in infancy in 67 PT and 58 full-term (FT) infants. PT infants were significantly shorter than FT infants during the first 6 months of life, but no statistically significant difference was found at the corrected age of 14 months (M14). At the age of 3 months (M3), S-ProCNP and U-MidOC levels, but not U-α-CTX-I and U-β-CTX-I levels, correlated positively with prospective growth velocity from M3 to M14 (ρ = 0.460, p < 0.001 and ρ = 0.710, p < 0.001, respectively). In predicting slow linear growth (growth velocity at the lowest quartile), the area under the S-ProCNP ROC curve was 0.662 and that of U-MidOC 0.891. Thus, U-MidOC, and to lesser extent S-ProCNP at M3 are predictors of catch-up growth in infancy., (Copyright © 2012 American Society for Bone and Mineral Research.)

Published

2012

32. The effect of oral glucose tolerance test on serum osteocalcin and bone turnover markers in young adults.

Author

Paldánius PM, Ivaska KK, Hovi P, Andersson S, Väänänen HK, Kajantie E, and Mäkitie O

Subjects

Adolescent, Adult, Enzyme-Linked Immunosorbent Assay, Female, Humans, Male, Young Adult, Bone Remodeling physiology, Glucose Tolerance Test, Osteocalcin blood

Abstract

Osteocalcin (OC) is an osteoblast-derived protein implicated in the regulation of glucose tolerance and energy metabolism. This endocrine function has been suggested to be exerted via its undercarboxylated form, which has been shown to induce expression of adiponectin, insulin, and islet cell proliferation in mice. Furthermore, insulin has recently been shown to regulate the biological activity of OC in bone. Our aim was to explore the association between glucose and bone metabolism by evaluating the effect of a standard 75 g oral glucose tolerance test (OGTT) on serum OC, carboxylated OC (cOC) and bone-turnover markers (BTMs) C terminal telopeptide (βCTX-I) and N terminal propeptide (PINP) of type I collagen and tartrate-resistant acid phosphatase 5b (TRACP5b). Serum samples collected at 0 and at 120 min were analyzed in a cohort of normoglycemic young adults (n = 23, mean age 23.6 years). During OGTT a significant decrease was observed in all BTMs (P < 0.001 for all variables). The median decreases from 0 to 120 min for OC, cOC, βCTX-I, PINP, and TRACP5b were -32.1% (-37.9 to -19.6), -34.4% (-39.8 to -22.2), -61.4% (-68.5 to -53.0), -26.8% (-33.2 to -19.2), and -44.5% (-48.3 to -40.2), respectively. A strong association between the changes in OC and cOC was observed (r = 0.83, P < 0.001). The decrease in PINP was associated with changes in OC, whereas the changes in βCTX-I and TRACP5b were not associated with decreases in OC or cOC. The observed OGTT-induced changes in bone-derived proteins were partially independent of each other and potentially mediated by different mechanisms.

Published

2012

33. Polymorphisms in the inflammatory genes CIITA, CLEC16A and IFNG influence BMD, bone loss and fracture in elderly women.

Author

Swanberg M, McGuigan FE, Ivaska KK, Gerdhem P, and Åkesson K

Subjects

Aged, Aged, 80 and over, Bone Density, Bone Diseases, Metabolic genetics, Bone Resorption, Cohort Studies, Female, Femur Neck pathology, Fractures, Bone genetics, Humans, Inflammation, Lumbar Vertebrae pathology, Osteogenesis, Osteoporosis genetics, Surveys and Questionnaires, Gene Expression Regulation, Interferon-gamma genetics, Lectins, C-Type genetics, Monosaccharide Transport Proteins genetics, Nuclear Proteins genetics, Polymorphism, Genetic, Trans-Activators genetics

Abstract

Osteoclast activity and the fine balance between bone formation and resorption is affected by inflammatory factors such as cytokines and T lymphocyte activity, mediated by major histocompatibility complex (MHC) molecules, in turn regulated by the MHC class II transactivator (MHC2TA). We investigated the effect of functional polymorphisms in the MHC2TA gene (CIITA), and two additional genes; C-type lectin domain 16A (CLEC16A), in linkage disequilibrium with CIITA and Interferon-γ (IFNG), an inducer of CIITA; on bone density, bone resorption markers, bone loss and fracture risk in 75 year-old women followed for up to 10 years (OPRA n = 1003) and in young adult women (PEAK-25 n = 999). CIITA was associated with BMD at age 75 (lumbar spine p = 0.011; femoral neck (FN) p = 0.049) and age 80 (total body p = 0.015; total hip p = 0.042; FN p = 0.028). Carriers of the CIITA rs3087456(G) allele had 1.8-3.4% higher BMD and displayed increased rate of bone loss between age 75 and 80 (FN p = 0.013; total hip p = 0.030; total body p = 3.8E(-5)). Despite increasing bone loss, the rs3087456(G) allele was protective against incident fracture overall (p = 0.002), osteoporotic fracture and hip fracture. Carriers of CLEC16A and IFNG variant alleles had lower BMD (p<0.05) and ultrasound parameters and a lower risk of incident fracture (CLEC16A, p = 0.011). In 25-year old women, none of the genes were associated with BMD. In conclusion, variation in inflammatory genes CIITA, CLEC-16A and INFG appear to contribute to bone phenotypes in elderly women and suggest a role for low-grade inflammation and MHC class II expression for osteoporosis pathogenesis.

Published

2012

34. Polymorphisms in the macrophage migration inhibitory factor gene and bone loss in postmenopausal women.

Author

Swanberg M, McGuigan F, Ivaska KK, Gerdhem P, Lerner UH, Bucala R, Kuchel G, Kenny A, and Akesson K

Subjects

Acid Phosphatase metabolism, Aged, Biomarkers metabolism, Bone Density genetics, Cohort Studies, Female, Gene Frequency genetics, Haplotypes genetics, Heterozygote, Humans, Isoenzymes metabolism, Tartrate-Resistant Acid Phosphatase, Bone Resorption genetics, Intramolecular Oxidoreductases genetics, Macrophage Migration-Inhibitory Factors genetics, Polymorphism, Single Nucleotide genetics, Postmenopause genetics

Abstract

Osteoporosis is a severe condition in postmenopausal women and a common cause of fracture. Osteoporosis is a complex disease with a strong genetic impact, but susceptibility is determined by many genes with modest effects and environmental factors. Only a handful of genes consistently associated with osteoporosis have been identified so far. Inflammation affects bone metabolism by interfering with the interplay between bone resorption and formation, and many inflammatory mediators are involved in natural bone remodeling. The cytokine macrophage migration inhibitory factor (MIF) has been shown to affect bone density in rodents, and polymorphisms in the human MIF promoter are associated with inflammatory disorders such as rheumatoid arthritis. We investigated the association of polymorphisms in the MIF gene with bone mineral density (BMD) and bone loss in 1002 elderly women using MIF promoter polymorphisms MIF-CATT(5-8) and rs755622(G/C) located -794 and -173 bp upstream of the transcriptional start site. Bone loss was estimated both by the change in BMD over 5 years and by the levels of bone resorption markers in serum measured at four occasions during a 5-year period. The MIF-CATT(7)/rs755622(C) haplotype was associated with increased rate of bone loss during 5 years at the femoral neck (p<0.05) and total hip (p<0.05). In addition, the MIF-CATT(7)/rs755622(C) haplotype carriers had higher levels of the bone turnover marker serum C-terminal cross-linking telopeptide of type I collagen (S-CTX-I, p<0.01) during the 5 year follow-up period. There was no association between MIF-CATT(7)/rs755622(C) and baseline BMD at femoral neck, total hip or lumbar spine. We conclude that MIF promoter polymorphisms have modest effects on bone remodeling and are associated with the rate of bone loss in elderly women., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published

2010

35. Osteocalcin gene polymorphisms influence concentration of serum osteocalcin and enhance fracture identification.

Author

McGuigan F, Kumar J, Ivaska KK, Obrant KJ, Gerdhem P, and Akesson K

Subjects

Aged, Cohort Studies, Female, Gene Frequency genetics, Genotype, Humans, Logistic Models, Risk Factors, Sweden, Fractures, Bone blood, Fractures, Bone genetics, Osteocalcin blood, Osteocalcin genetics, Polymorphism, Single Nucleotide genetics

Abstract

Osteoporosis is a major health problem affecting more than 75 million people throughout Europe, the United States, and Japan. Epidemiologic studies have determined that both genetic and environmental factors contribute to the pathogenesis of osteoporosis. We have investigated the association between polymorphisms at the osteocalcin locus and variables linked to bone health. Osteocalcin provides a link between bone and energy metabolism, hence its potential importance as an osteoporosis candidate gene. In this study, we included a total of 996 women (all aged 75 years) from the Osteoporosis Prospective Risk Assessment (OPRA) cohort. We sequenced the osteocalcin gene along with flanking regions to search for novel coding polymorphisms. We also analyzed four polymorphisms selected from within and flanking regions of the osteocalcin gene to study their association with serum total osteocalcin levels (S-TotalOC), total-body (TB) bone mineral density (BMD), fracture, TB fat mass, and body mass index (BMI). The promoter polymorphism rs1800247 was significantly associated with S-TotalOC (p = .012) after controlling for BMI and TB BMD. The polymorphism rs1543297 was significantly associated with prospectively occurring fractures (p = .008). In a model taking into account rs1543297 and rs1800247, along with TB BMD, BMI, smoking, and S-TotalOC, the polymorphisms together were able to identify an additional 6% of women who sustained a fracture (p = .02). We found no association between the polymorphisms and TB BMD, BMI, or TB fat mass. In conclusion, polymorphisms in and around the osteocalcin locus are significantly associated with S-TotalOC and fracture. Genotyping at the osteocalcin locus could add valuable information in the identification of women at risk of osteoporosis., ((c) 2010 American Society for Bone and Mineral Research.)

Published

2010

36. Bone turnover markers and prediction of fracture: a prospective follow-up study of 1040 elderly women for a mean of 9 years.

Author

Ivaska KK, Gerdhem P, Väänänen HK, Akesson K, and Obrant KJ

Subjects

Aged, Bone Density, Bone Resorption complications, Female, Follow-Up Studies, Fractures, Bone etiology, Fractures, Bone metabolism, Hip Fractures epidemiology, Hip Fractures etiology, Hip Fractures metabolism, Humans, Incidence, Osteoporosis, Postmenopausal complications, Risk Factors, Time Factors, Biomarkers blood, Biomarkers urine, Bone Resorption metabolism, Fractures, Bone epidemiology

Abstract

Osteoporosis is characterized by compromised bone mass and strength, predisposing to an increased risk of fracture. Increased bone metabolism has been suggested to be a risk factor for fracture. The aim of this study was to evaluate whether baseline bone turnover markers are associated with long-term incidence of fracture in a population-based sample of 1040 women who were 75 years old (Malmö OPRA study). Seven bone markers (S-TRACP5b, S-CTX-I, S-OC[1-49], S-TotalOC, S-cOC, S-boneALP, and urinary osteocalcin) were measured at baseline and 1-year follow-up visit. During the mean follow-up of 9.0 years (range 7.4-10.9), 363 women sustained at least one fracture of any type, including 116 hip fractures and 103 clinical vertebral fractures. High S-TRACP5b and S-CTX-I levels were associated with increased risk of any fracture with hazard ratios [HRs (95% confidence interval)] of 1.16 (1.04-1.29) and 1.13 (1.01-1.27) per SD increase, respectively. They also were associated with increased risk of clinical vertebral fracture with HRs of 1.22 (1.01-1.48) and 1.32 (1.05-1.67), respectively. Markers were not associated with risk for hip fracture. Results were similar when we used resorption markers, including urinary osteocalcin, measured at the 1-year visit or an average of the two measurements. The HRs were highest for any fracture in the beginning of the follow-up period, 2.5 years from baseline. For vertebral fractures, the association was more pronounced and lasted for a longer period of time, at least for 5 years. In conclusion, elevated levels of S-TRACP5b, S-CTX-I, and urinary osteocalcin are associated with increased fracture risk for up to a decade in elderly women., (Copyright 2010 American Society for Bone and Mineral Research.)

Published

2010

37. Bone turnover markers are correlated with quantitative ultrasound of the calcaneus: 5-year longitudinal data.

Author

Lenora J, Gerdhem P, Obrant KJ, and Ivaska KK

Subjects

Acid Phosphatase blood, Aged, Alkaline Phosphatase blood, Amino Acids urine, Calcaneus anatomy & histology, Collagen Type I, Creatinine urine, Female, Humans, Isoenzymes blood, Longitudinal Studies, Organ Size, Osteocalcin metabolism, Peptide Fragments blood, Peptides, Postmenopause, Procollagen blood, Sweden, Tartrate-Resistant Acid Phosphatase, Ultrasonography, Biomarkers blood, Bone Remodeling physiology, Calcaneus diagnostic imaging

Abstract

Summary: Associations between bone turnover markers and calcaneal ultrasound (quantitative ultrasound, QUS) were studied in a population-based sample of 810 elderly women. Baseline bone turnover markers correlated with baseline QUS as well as with 5-year prospective changes in QUS., Introduction: Bone turnover markers are associated with areal bone mineral density, but the knowledge on the association with QUS is limited., Methods: Eight hundred ten women, all 75 years old, were investigated at baseline. Five hundred six completed a 5-year follow-up. Bone turnover markers and calcaneal QUS [speed of sound (SoS), broadband ultrasound attenuation (BUA), stiffness] were investigated at baseline. QUS was investigated at follow-up., Results: All bone turnover markers were correlated with baseline QUS [standardized regression (Beta(std)) values from -0.07, p < 0.05 to -0.23, p < 0.001], with the exception of bone-specific alkaline phosphatase (S-Bone ALP) which was not correlated with BUA and stiffness index. When the correlations between baseline bone turnover markers and 5-year changes in QUS were analyzed, three serum osteocalcins were correlated with changes of SoS and stiffness index (Beta(std) = -0.11, p < 0.05 to -0.17, p < 0.001). Also S-CTX-I correlated with changes of SoS and stiffness index (Beta(std) = -0.10 and -0.09, respectively, p < 0.05). S-TRACP5b, urinary deoxypyridinoline/crea, and U-MidOC/crea correlated with changes of SoS (Beta(std) = -0.10 and p < 0.05 for all). S-Bone ALP did not correlate with change of QUS. None of the bone turnover markers correlated with changes of BUA., Conclusions: Bone turnover markers correlate with concomitantly assessed QUS as well as with longitudinal change in QUS.

Published

2009

38. Overexpression of cathepsin K accelerates the resorption cycle and osteoblast differentiation in vitro.

Author

Morko J, Kiviranta R, Mulari MT, Ivaska KK, Väänänen HK, Vuorio E, and Laitala-Leinonen T

Subjects

Animals, Blotting, Western, Cathepsin K, Cell Differentiation physiology, Fluorescent Antibody Technique, Mice, Mice, Transgenic, Microscopy, Confocal, Microscopy, Fluorescence, Osteoclasts cytology, Protein Transport, Bone Resorption metabolism, Cathepsins metabolism, Osteoblasts cytology, Osteoblasts metabolism, Osteoclasts metabolism

Abstract

Bone resorption is a multistep process including osteoclast attachment, cytoskeletal reorganization, formation of four distinct plasma membrane domains, and matrix demineralization and degradation followed by cell detachment. The present study describes the intracellular mechanisms by which overexpression of cathepsin K in osteoclasts results in enhanced bone resorption. Osteoclasts and bone marrow-derived osteoclast and osteoblast precursors were isolated from mice homozygous (UTU17(+/+)) and negative for the transgene locus. Cells cultured on bovine cortical bone slices were analyzed by fluorescence and confocal laser scanning microscopy, and bone resorption was studied by measurements of biochemical resorption markers, morphometry, and FESEM. Excessive cathepsin K protein and enzyme activity were microscopically observed in various intracellular vesicles and in the resorption lacunae of cathepsin K-overexpressing osteoclasts. The number of cathepsin K-containing vesicles in UTU17(+/+) osteoclasts was highly increased, and co-localization with markers for the biosynthetic and transcytotic pathways was observed throughout the cytoplasm. As a functional consequence of cathepsin K overexpression, biochemical resorption markers were increased in culture media of UTU17(+/+) osteoclasts. Detailed morphometrical analysis of the erosion in bone slices indicated that the increased biosynthesis of cathepsin K was sufficient to accelerate the osteoclastic bone resorption cycle. Cathepsin K overexpression also enhanced osteogenesis and induced the formation of exceptionally small, actively resorbing osteoclasts from their bone marrow precursors in vitro. The present study describes for the first time how enhancement in one phase of the osteoclastic resorption cycle also stimulates its other phases and further demonstrate that tight control and temporal coupling of mesenchymal and hematopoietic bone cells in this multistep process.

Published

2009

39. Bone turnover markers are correlated with total skeletal uptake of 99mTc-methylene diphosphonate (99mTc-MDP).

Author

Lenora J, Norrgren K, Thorsson O, Wollmer P, Obrant KJ, and Ivaska KK

Abstract

Background: Skeletal uptake of 99mTc labelled methylene diphosphonate (99mTc-MDP) is used for producing images of pathological bone uptake due to its incorporation to the sites of active bone turnover. This study was done to validate bone turnover markers using total skeletal uptake (TSU) of 99mTc-MDP., Methods: 22 postmenopausal women (52-80 years) volunteered to participate. Scintigraphy was performed by injecting 520 MBq of 99mTc-MDP and taking whole body images after 3 minutes, and 5 hours. TSU was calculated from these two images by taking into account the urinary loss and soft tissue uptake. Bone turnover markers used were bone specific alkaline phosphatase (S-Bone ALP), three different assays for serum osteocalcin (OC), tartrate resistant acid phosphatase 5b (S-TRACP5b), serum C-terminal cross-linked telopeptides of type I collagen (S-CTX-I) and three assays for urinary osteocalcin (U-OC)., Results: The median TSU of 99mTc-MDP was 23% of the administered activity. All bone turnover markers were significantly correlated with TSU with r-values from 0.52 (p = 0.013) to 0.90 (p < 0.001). The two resorption markers had numerically higher correlations (S-TRACP5b r = 0.90, S-CTX-I r = 0.80) than the formation markers (S-Total OC r = 0.72, S-Bone ALP r = 0.66), but the difference was not statistically significant. TSU did not correlate with age, weight, body mass index or bone mineral density., Conclusion: In conclusion, bone turnover markers are strongly correlated with total skeletal uptake of 99mTc-MDP. There were no significant differences in correlations for bone formation and resorption markers. This should be due to the coupling between formation and resorption.

Published

2009

40. Serial assessment of serum bone metabolism markers identifies women with the highest rate of bone loss and osteoporosis risk.

Author

Ivaska KK, Lenora J, Gerdhem P, Akesson K, Väänänen HK, and Obrant KJ

Subjects

Aged, Biomarkers, Bone Density, Bone Remodeling, Female, Humans, Longitudinal Studies, Bone Diseases, Metabolic diagnosis, Bone and Bones metabolism, Osteoporosis, Postmenopausal diagnosis

Abstract

Context: One of the important challenges in the management of osteoporosis is to identify women who are at high risk of developing osteoporosis and fragility fractures., Objective: Our objective was to evaluate whether assessment of bone metabolism at multiple occasions can identify women with the highest risk for bone loss., Design: The Malmö Osteoporosis Prospective Risk Assessment study is an ongoing longitudinal study. Participants have been evaluated at baseline and after 1, 3, and 5 yr., Setting: We conducted a population-based study., Participants: Participants included 1044 women, all 75 yr old at baseline., Main Outcome Measures: Seven bone turnover markers were assessed at baseline and at 1, 3, and 5 yr (n = 573). The 5-yr change in areal bone mineral density (aBMD) was also determined., Results: Baseline markers correlated weakly to change in total body aBMD. The associations were more pronounced when the average of the baseline and 1-yr measurements was used (standardized regression coefficients -0.12 to -0.23, P < 0.01). Adding the 3-yr and 5-yr measurement further strengthened the correlation (regression coefficients up to -0.30, P < 0.001). Women with constantly high turnover lost significantly more bone at total body assessment (-2.6%) than women with intermediate (-1.6%) or low turnover (-0.2%, P for trend < 0.001). They also had a greater decrease in hip BMD (-8.3, -6.0, and -5.1%, respectively, P = 0.010). Results were similar also in the subgroup of women with osteopenia., Conclusions: Our results suggest that serial assessment of bone turnover improves the identification of women with the highest rate of bone loss and osteoporosis risk.

Published

2008

41. Urinary osteocalcin and other markers of bone metabolism: the effect of risedronate therapy.

Author

Kumm J, Ivaska KK, Rohtla K, Vaananen K, and Tamm A

Subjects

Aged, Biomarkers urine, Bone Density drug effects, Etidronic Acid therapeutic use, Female, Humans, Middle Aged, Risedronic Acid, Time Factors, Etidronic Acid analogs & derivatives, Osteocalcin urine, Osteoporosis, Postmenopausal drug therapy, Osteoporosis, Postmenopausal urine

Abstract

Objective: Serum osteocalcin (S-OC) is widely used as an index of bone formation. However, there is evidence that some urinary fragments of OC reflect resorption and might be useful in monitoring antiresorptive therapy. Here, we report 6-month changes in urinary midfragments of osteocalcin (U-MidOC) and other bone turnover markers in response to risedronate treatment., Material and Methods: The study group comprised 19 patients with postmenopausal osteoporosis, aged 49-66 years, and receiving risedronate therapy. Fifty-four premenopausal women served as controls. Osteoporosis was diagnosed by lumbal bone mineral density (BMD). Urinary osteocalcin was measured by the U-MidOC assay for midfragments. Bone formation was assessed by S-PINP and S-OC, and resorption by S-CTx-I., Results: At baseline, U-MidOC was significantly correlated only with S-OC. After the 1st month of therapy, a similar decrease was observed in the values of U-MidOC and S-CTx-I, but in formation markers S-P1NP and S-OC only after three months. The rapid decrease in U-MidOC, analogous to S-CTX-I, and the different kinetics for urinary and serum OC suggest that urinary OC midfragments are more associated with resorption than S-OC. An association was also observed between the 1-month change in U-MidOC and 12-month gain in lumbar BMD. The response in U-MidOC after only the 1st month of therapy makes it a potential marker for monitoring the effect of risedronate, presumably reflecting different aspects of bone resorption than S-CTx-I does.

Published

2008

42. Prediction of bone loss using biochemical markers of bone turnover.

Author

Lenora J, Ivaska KK, Obrant KJ, and Gerdhem P

Subjects

Aged, Female, Fractures, Bone metabolism, Humans, Predictive Value of Tests, Prospective Studies, Biomarkers metabolism, Bone Density physiology, Bone Remodeling physiology, Bone Resorption metabolism

Abstract

Unlabelled: The association between baseline levels of eleven bone turnover markers and 5-year rate of bone density change was prospectively studied in a population-based sample of 601 75-year-old women. Several bone formation and resorption markers as well as urinary osteocalcin were modestly correlated to rate of bone density change., Introduction: Prediction of bone loss by bone turnover markers (BTMs) has been investigated with conflicting results. There is limited information in the elderly., Methods: Eleven bone turnover markers were analyzed in 75-year old women in the OPRA study (n = 601) and compared to the 5-year change of areal bone mineral density (aBMD) in seven skeletal regions., Results: Annual aBMD change varied between +0.4% (spine) and -2.0% (femoral neck). Significant associations (p < 0.01) were found for four different serum osteocalcins (S-OCs) (standardized regression coefficient -0.20 to -0.22), urinary deoxypyridinoline (-0.19), serum TRACP5b (-0.19), serum CTX-I (-0.21), two of the three urinary osteocalcins (U-OCs) (-0.16) and aBMD change of the leg region (derived from the total body measurement). After adjustment for baseline aBMD, associations were found for all S-OCs (-0.11 to -0.16), two of the three U-OCs (-0.14 to -0.16) and aBMD change at the total hip, and for three of the four S-OCs (-0.14 to -0.15), S-TRACP5b (-0.11), two of the three U-OCs (-0.14 to -0.15) and aBMD change at the femoral neck. There were no significant results concerning aBMD change at the spine., Conclusion: This study indicates that BTMs are correlated with aBMD loss in some skeletal regions in elderly women.

Published

2007

43. Effect of fracture on bone turnover markers: a longitudinal study comparing marker levels before and after injury in 113 elderly women.

Author

Ivaska KK, Gerdhem P, Akesson K, Garnero P, and Obrant KJ

Subjects

Aged, Biomarkers blood, Biomarkers urine, Case-Control Studies, Female, Fractures, Bone epidemiology, Fractures, Bone pathology, Humans, Longitudinal Studies, Time Factors, Bone and Bones metabolism, Fractures, Bone blood, Fractures, Bone urine

Abstract

Unlabelled: In this longitudinal, prospective, and population-based study (n = 1044), seven BTMs were assessed before and after trauma in 113 elderly women (85 with fractures). Markers were not altered in the immediate postfracture period but were clearly elevated during fracture repair. Recent fracture should thus be taken into account when markers are used in clinical practice., Introduction: Fracture may influence the levels of bone turnover markers (BTM) and have implications for their use in clinical practice. In this longitudinal, prospective, and population-based study, we assessed prefracture levels of BTMs and compared them with postfracture levels of the same individuals immediately after fracture and during fracture repair. This is the first study in which the effect of fracture on bone markers has been evaluated with prefracture samples available., Materials and Methods: Serum and urine were collected at the emergency unit from 85 women (77.9 +/- 1.8 yr) who sustained a fracture after low-energy trauma and 28 controls (77.8 +/- 2.0 yr) with similar trauma but no fracture. All were participants of the Malmö OPRA study (n = 1044), and pretrauma samples were collected 1.05 +/- 0.85 yr before. Bone turnover was assessed by seven different BTMs reflecting different stages of bone metabolism {C-terminal cross-linked telopeptides of type I collagen [S-CTX], S-TRACP5b, N-terminal propeptides of type I collagen [S-PINP], serum osteocalcin (S-OC[1-49] and S-TotalOC), urinary deoxypyridinoline [U-DPD], and urinary osteocalcin [U-OC]}., Results: BTMs sampled within a few hours after fracture were not altered from preinjury levels. Both bone formation and bone resorption markers were, however, significantly increased 4 mo after fracture. The elevation was most pronounced after hip fracture. Bone turnover remained elevated up to 12 mo after fracture., Conclusions: We believe this study extends our knowledge on the skeletal postfracture metabolic processes. In addition, it may provide a basis for future means to monitor pharmacological intervention promoting fracture healing.

Published

2007

44. Associations between homocysteine, bone turnover, BMD, mortality, and fracture risk in elderly women.

Author

Gerdhem P, Ivaska KK, Isaksson A, Pettersson K, Väänänen HK, Obrant KJ, and Akesson K

Subjects

Aged, Biomarkers blood, Female, Follow-Up Studies, Humans, Risk Factors, Surveys and Questionnaires, Survival Analysis, Bone Density, Bone and Bones metabolism, Fractures, Bone epidemiology, Homocysteine blood

Abstract

Unlabelled: Homocysteine has been suggested to be a risk factor for fracture, but the causal relationship is not clear. In 996 women from the OPRA study, high homocysteine level was associated with high bone marker levels and low BMD at baseline. During a mean 7-year follow-up, high homocysteine level was associated with mortality, but no clear association to fracture risk existed., Introduction: Recently, the association between high serum homocysteine (Hcy) levels and an increased risk of fracture has been described., Materials and Methods: Hcy levels were measured at baseline in 996 women, all 75 years old. Vitamin B(12), folate, serum cross-linking telopeptide of type I collagen (CTX), serum TRACP5b, serum osteocalcin, urine deoxypyridinoline, PTH, areal BMD (aBMD), calcaneal quantitative ultrasound (QUS), and physical performance were assessed at baseline. Fractures and mortality were recorded during a mean follow-up of 7.0 years., Results: Bone marker levels were higher in women with Hcy in the highest quartile compared with all other women (p < 0.05). The most evident correlation between Hcy and a bone marker was seen with CTX (r = 0.19, p < 0.001). aBMD (hip) was 4% lower, QUS was up to 2% lower, and gait speed was 11% slower among women with Hcy in the highest quartile compared with the other women (p < 0.05). During the follow-up, 267 women sustained at least one low-energy fracture (including 69 hip fractures). When women in the highest Hcy quartile were compared with all other women, the hazard ratios (HRs) for sustaining any type of fracture was 1.18 (95% CI, 0.89-1.36) and for hip fracture was 1.50 (95% CI, 0.91-1.94). For the same group of women, the mortality risk was 2.16 (95% CI, 1.58-2.55). Adjustments for confounders did not substantially change these associations. Adjustment for PTH increased the HR for hip fracture to 1.67 (95% CI, 1.01-2.17). Low vitamin B(12) or folate was not associated with increased fracture risk or mortality., Conclusions: High Hcy levels were associated with higher bone turnover, poor physical performance, and lower BMD. There was no clear association to fracture risk. The increased mortality among women with high Hcy levels indicates that a high Hcy level may be a marker of frailty.

Published

2007

45. Calcification and cellularity in human aortic heart valve tissue determine the differentiation of bone-marrow-derived cells.

Author

Leskelä HV, Satta J, Oiva J, Eriksen H, Juha R, Korkiamäki P, Ivaska KK, Soini Y, and Lehenkari P

Subjects

Anti-Bacterial Agents pharmacology, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Biomarkers analysis, Cell Cycle Proteins pharmacology, Cell Differentiation, Humans, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Mesenchymal Stem Cells drug effects, Models, Biological, Osteoblasts physiology, Peptide Elongation Factor 1, Aortic Valve physiology, Bone Marrow Cells physiology, Calcinosis physiopathology, Mesenchymal Stem Cells physiology, Osteogenesis

Abstract

Human bone-marrow-derived mesenchymal stem cells (MSC) are responsible the remodeling of human tissue. However, damaged aortic valves are lack the ability to regenerate which is an active cell-mediated process. Diseased aortic valve remodeling has similarities even to bone formation. In this study, the prerequisites for cultured MSCs to undergo osteoblastic differentiation on aortic valves were explored. An ex vivo model using a human aortic valve microenvironment was developed. The expression of type I procollagen, alkaline phosphatase activity, osteocalcin secretion and osteocalcin immunostaining were studied to evaluate the induction of osteogenesis of the MSCs on noncalcified and calcified human aortic valves. Aortic valves were exposed to freeze-thaw injury to devitalize valves in order to separately study the role of valve matrix vs. endothelial cells in the explants. Thus, valves were assigned to 1 of 4 treatment groups: noncalcified uninjured valves, calcified uninjured valves, noncalcified injured and calcified injured. Finally, valves were decalcified to separately explore the effect of a calcified matrix on the osteogenesis. In this co-culture system, the noncalcified uninjured valves inhibited osteogenesis of MSCs, whereas the calcified valves promoted differentiation towards osteoblastic lineage. Devitalization of the valve matrix inflicted a significant increase in the osteogenesis of co-cultured MSCs. Calcified matrix in the valves seemed to have a role in the spontaneous osteogenesis of the MSCs. This spontaneous matrix induced differentiation of MSCs into osteoblast lineage could not be inhibited by pravastatin, indomethacin or tetracycline. In conclusion, these results suggest that interactions between MSCs and aortic valve matrix components and cells modulate MSC phenotype in this environment. Further studies are required to characterize this interesting phenomenon in greater detail.

Published

2006

46. Urinary osteocalcin is a useful marker for monitoring the effect of alendronate therapy.

Author

Ivaska KK, Pettersson K, Nenonen A, Uusi-Rasi K, Heinonen A, Kannus P, and Väänänen HK

Subjects

Biomarkers, Female, Humans, Immunoassay, Middle Aged, Osteoporosis prevention & control, Osteoporosis urine, Time Factors, Alendronate therapeutic use, Drug Monitoring methods, Osteocalcin urine, Osteoporosis drug therapy

Published

2005

47. Effects of calcium, dairy product, and vitamin D supplementation on bone mass accrual and body composition in 10-12-y-old girls: a 2-y randomized trial.

Author

Cheng S, Lyytikäinen A, Kröger H, Lamberg-Allardt C, Alén M, Koistinen A, Wang QJ, Suuriniemi M, Suominen H, Mahonen A, Nicholson PH, Ivaska KK, Korpela R, Ohlsson C, Väänänen KH, and Tylavsky F

Subjects

Absorptiometry, Photon, Analysis of Variance, Body Composition physiology, Bone Density drug effects, Bone Density physiology, Bone Development physiology, Bone Remodeling, Cheese, Child, Dietary Supplements, Double-Blind Method, Female, Humans, Linear Models, Menarche physiology, Patient Compliance, Puberty physiology, Radius diagnostic imaging, Tibia diagnostic imaging, Body Composition drug effects, Bone Density Conservation Agents pharmacology, Bone Development drug effects, Calcium, Dietary pharmacology, Dairy Products, Vitamin D pharmacology

Abstract

Background: Little is known about the relative effectiveness of calcium supplementation from food or pills with or without vitamin D supplementation for bone mass accrual during the rapid growth period., Objective: The purpose was to examine the effects of both food-based and pill supplements of calcium and vitamin D on bone mass and body composition in girls aged 10-12 y., Design: This placebo-controlled intervention trial randomly assigned 195 healthy girls at Tanner stage I-II, aged 10-12 y, with dietary calcium intakes <900 mg/d to 1 of 4 groups: calcium (1000 mg) + vitamin D3 (200 IU), calcium (1000 mg), cheese (1000 mg calcium), and placebo. Primary outcomes were bone indexes of the hip, spine, and whole body by dual-energy X-ray absorptiometry and of the radius and tibia by peripheral quantitative computed tomography., Results: With the use of intention-to-treat or efficacy analysis, calcium supplementation with cheese resulted in a higher percentage change in cortical thickness of the tibia than did placebo, calcium, or calcium + vitamin D treatment (P = 0.01, 0.038, and 0.004, respectively) and in higher whole-body bone mineral density than did placebo treatment (P = 0.044) when compliance was >50%. With the use of a hierarchical linear model with random effects to control for growth velocity, these differences disappeared., Conclusions: Increasing calcium intake by consuming cheese appears to be more beneficial for cortical bone mass accrual than the consumption of tablets containing a similar amount of calcium. Diverse patterns of growth velocity may mask the efficacy of supplementation in a short-term trial of children transiting through puberty.

Published

2005

48. Serum TRACP 5b is a useful marker for monitoring alendronate treatment: comparison with other markers of bone turnover.

Author

Nenonen A, Cheng S, Ivaska KK, Alatalo SL, Lehtimäki T, Schmidt-Gayk H, Uusi-Rasi K, Heinonen A, Kannus P, Sievänen H, Vuori I, Väänänen HK, and Halleen JM

Subjects

Biomarkers blood, Calcium administration & dosage, Double-Blind Method, Female, Humans, Middle Aged, Osteogenesis drug effects, Tartrate-Resistant Acid Phosphatase, Vitamin D administration & dosage, Acid Phosphatase blood, Alendronate administration & dosage, Bone Density Conservation Agents administration & dosage, Drug Monitoring, Isoenzymes blood, Postmenopause blood

Abstract

Unlabelled: We studied clinical performance of serum TRACP 5b and other bone turnover markers, including S-CTX, U-DPD, S-PINP, S-BALP, and S-OC, for monitoring alendronate treatment. TRACP 5b had higher clinical sensitivity, area under the ROC curve, and signal-to-noise ratio than the other markers., Introduction: The purpose of this study was to compare the clinical performance of serum TRACP 5b (S-TRACP5b) with that of other markers of bone turnover in the monitoring of alendronate treatment., Materials and Methods: This double-blinded study included 148 healthy postmenopausal women that were randomly assigned into two groups: one receiving 5 mg alendronate daily (n=75) and the other receiving placebo (n=73) for 12 months. All individuals in both groups received calcium and vitamin D daily. The bone resorption markers S-TRACP5b, serum C-terminal cross-linked telopeptides of type I collagen (S-CTX), and total urinary deoxypyridinoline (U-DPD), and the serum markers of bone formation procollagen I N-terminal propeptide (S-PINP), bone-specific alkaline phosphatase (S-BALP), and total osteocalcin (S-OC) were assessed at baseline and at 3, 6, and 12 months after initiation of treatment. Lumbar spine BMD (LBMD) was measured at baseline and 12 months., Results: Compared with the placebo group, LBMD increased, and all bone markers decreased significantly more in the alendronate group (p<0.001 for each parameter). The decrease of S-TRACP5b after first 3 months of alendronate treatment correlated significantly with the changes of all other markers except S-OC, the best correlation being with S-CTX (r=0.60, p<0.0001). The changes of LBMD at 12 months only correlated significantly with the changes of S-TRACP5b (r=-0.32, p=0.005) and S-CTX (r=-0.24, p=0.037) at 3 months. Based on clinical sensitivity, receiver operating characteristic (ROC) curves, and signal-to-noise ratio, S-TRACP5b, S-CTX, and S-PINP were the best markers for monitoring alendronate treatment. Clinical sensitivity, area under the ROC curve, and signal-to-noise ratio were higher for S-TRACP5b than for the other markers., Conclusion: These results show that S-TRACP5b, S-CTX, and S-PINP are useful markers for monitoring alendronate treatment.

Published

2005

49. Biochemical markers of bone turnover are influenced by recently sustained fracture.

Author

Obrant KJ, Ivaska KK, Gerdhem P, Alatalo SL, Pettersson K, and Väänänen HK

Subjects

Female, Humans, Biomarkers blood, Biomarkers urine, Bone Regeneration, Fractures, Bone metabolism

Abstract

In striving to refine the clinical utility of different markers of bone metabolism, we should take into account numerous confounders, many of which are well known, such as sampling time, fasting status, and bone density. One further confounder may be ongoing fracture healing and/or post-fracture immobilization, which at least theoretically should impose an increased bone formation and resorption. Since both recent fracture and high bone turnover are independent predictors for new fracture, we thought it of importance to define the potential influence of such fracture on markers of bone turnover. From a population-based cohort of 1604 women, all 75 years old (the OPRA-study), 1024 women attended a clinical examination. The bone metabolism was assessed in serum, by three markers of bone formation [bone-specific alkaline phosphatase (S-Bone ALP), intact and N-Mid osteocalcin (S-Total OC), and total carboxylated osteocalcin (S-cOC)], two markers of bone resorption [C-terminal cross-linked telopeptides of type I collagen (S-CTX) and tartrate-resistant acid phosphatase type 5b (S-TRACP5b)], and in urine by one marker of bone resorption [deoxypyridinoline/creatinine (U-DPD/crea)] and two putative markers of bone resorption [urinary osteocalcins (U-OC/crea)]. Current physical activity and retrospective fracture data were recorded by questionnaires. The fracture data, for the entire cohort of 1604 women, were validated with radiographic referrals and reports, saved since the beginning of the last century. All data provided, except date of occurrence of retrospectively sustained fracture, were thus obtained cross-sectionally and in all women at the age of 75. Fracture had ever been sustained by 727 of the entire cohort (n = 1604), and by 523 of the attending women (n = 1024). All markers were marginally higher (significant only for U-DPD/crea, P = 0.027) in women who had ever sustained fracture, compared to women without fracture. In women with recent retrospective fracture (since 2 years) (n = 100), the levels of all markers, except the two S-OCs, were significantly higher (r = 0.20-0.33, P = 0.049-0.001) the more recently the fracture had been sustained. Women with low current physical activity had elevated levels of U-DPD/crea (P < 0.001) and one U-OC (P = 0.014), while the other markers were unaffected.

Published

2005

50. Urinary osteocalcin as a marker of bone metabolism.

Author

Ivaska KK, Käkönen SM, Gerdhem P, Obrant KJ, Pettersson K, and Väänänen HK

Subjects

Aged, Biomarkers urine, Bone Density, Circadian Rhythm, Female, Humans, Immunoassay, Reference Values, Seasons, Sensitivity and Specificity, Specimen Handling, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Temperature, Bone and Bones metabolism, Osteocalcin urine

Abstract

Background: Osteocalcin (OC) is produced by osteoblasts during bone formation, and circulating OC has been used in clinical investigations as a marker of bone metabolism. OC is excreted into urine by glomerular filtration and can be found in urine as midmolecule fragments., Methods: We developed and evaluated three immunoassays (U-MidOC, U-LongOC, and U-TotalOC) for the detection of various molecular forms of urine OC (U-OC). We evaluated the association of U-OC with other markers of bone turnover and with bone mass in 1044 elderly women and studied seasonal and circadian variation of U-OC., Results: U-OC correlated with other bone turnover markers [Spearman correlation (r), 0.30-0.57; P <0.0001], demonstrating the association between U-OC and skeletal metabolism. There was also a significant association between bone metabolism assessed by U-OC quartiles and bone mass assessed by total body bone mineral content (P <0.0001). The seasonal effects appeared to be rather small, but we observed a significant circadian rhythm similar to the one reported for serum OC with high values in the morning and low values in the afternoon., Conclusions: The three immunoassays had unique specificities toward different naturally occurring U-OC fragments. U-OC concentrations measured with any of these assays correlated with bone turnover rates assessed by conventional serum markers of bone metabolism. The measurement of OC in urine samples could be used as an index of bone turnover in monitoring bone metabolism.

Published

2005