Johannes Pfeilschifter

Smoking and endocrine ophthalmopathy: impact of smoking severity and current vs lifetime cigarette consumption

OBJECTIVE Smoking has been associated with an increased incidence of endocrine ophthalmopathy (EO). In this study we examined the relation between smoking severity and the incidence of EO symptoms in patients with Graves’ hyperthyroidism.

Effects of angiotensin II on bone cells in vitro.

Other than its known effects on the cardiovascular system, angiotensin II (Ang II) stimulates cell growth in several cell types. In this study, we examined whether it also might affect bone cell metabolism. Ang II stimulated DNA and collagen synthesis and decreased alkaline phosphatase (AP) activity in bone cell populations derived from the periosteum of fetal rat calvariae. Similar effects of Ang II were observed on human adult bone cells obtained by collagenase digestion from trabecular bone. Clonal cell analysis, autoradiographic studies, and receptor subtype analysis suggested the presence of specific Ang II receptor subtype 1 (AT1) binding sites on AP+ osteoblastic precursor cells. Ang II had no direct effects on osteoblastic cells with a mature phenotype, but paracrine effects of Ang II on mature osteoblasts could be observed upon coculture with Ang II‐responsive bone cell populations. Because Ang II is known to be locally generated by endothelial cells, Ang II might play an important role in coordinating capillary cell growth and osteoblastic bone formation during bone remodeling. J. Cell. Physiol. 175:89–98, 1998.

Performance evaluation of automated assays for β-CrossLaps, N-MID-Osteocalcin and intact parathyroidhormone (BIOROSE Multicenter Study)

Abstract Introduction: Biochemical markers of bone metabolism have been mainly determined manually until now and the precision and accuracy of these methods have not always been satisfactory. This has been shown in several external quality assessment schemes (EQAS). Objective and study design: A study named BIOROSE was undertaken to evaluate new automated assays for serum markers of bone metabolism. The main focus was to evaluate the assay performance in a multicenter setting with 20 laboratories participating in Germany. The evaluation consists of a familiarization phase to determine precision and accuracy and an EQAS to evaluate the comparability between laboratories. Materials: The parameters β-CrossLaps (CTX), N-MID-Osteocalcin (OC) and intact parathyroid hormone (PTH) were measured with reagents including calibrators and control sera obtained from Roche Diagnostics, Mannheim, Germany, with electrochemiluminescence immunoassays (ECLIA) on the automated analyzer Elecsys 2010. Results: We calculated for the control samples, PCB 1-3, the mean and median values from the measured values of all participating laboratories and used these as target values. From these target values, a recovery range for the participating laboratories was calculated for β-CrossLaps, OC and intact PTH of better than 80–126% for PCB 2 and PCB 3, and for PCB 1 (low concentration range) for β-CrossLaps 79–129%, OC 90–120% and intact PTH 78–126%. The between-day imprecision was 2.4–7.2% for β-CrossLaps, 1.1–5.9% for OC and 1.7–5.5% for intact PTH in the elevated range (sample PCB 2). In the EQAS, the inter-laboratory imprecision for β-CrossLaps in the sample with a value of 0.8 ng/ml (above the upper limit of normal, which is 0.6 ng/ml) was 9.8% on day 1 and 9.7% on day 2. Conclusion: The performance evaluation of automated assays for β-CrossLaps, N-MID-Osteocalcin and intact parathyroid hormone in the BIOROSE multicenter study showed that the participating laboratories had no problems in setting up these methods and they yielded results for precision and accuracy that are superior to results achieved in external quality assessment schemes for manually performed methods. In addition, at the clinically important decision level of the upper limit of the normal range, all three tested analytes gave precise results that improved medical decisions.

Transforming growth factor β (TGF-β) levels in the conditioned media of human bone cells: relationship to donor age, bone volume, and concentration of TGF-β in human bone matrix in vivo

Transforming growth factor-beta (TGF-beta) is thought to play an important role in human bone remodeling. In the present study, we examined constitutive differences in TGF-beta levels in primary bone cell cultures from the iliac crest of 112 women, aged 28-79 years. TGF-beta1 was the major TGF-beta isoform in the conditioned media, as determined by neutralizing TGF-beta activity with specific antibodies against TGF-beta1-3 in the mink lung cell bioassay, and by enzyme-linked immunoassay (ELISA). TGF-beta1 levels in the conditioned media did not change with donor age. There was a lack of association between TGF-beta levels in vitro and the concentration of matrix-associated TGF-beta in vivo. TGF-beta1 levels failed to be associated with the local trabecular bone volume in the complete study population (r = +0.15, p = 0.16, n = 89). A significant association between TGF-beta1 levels and bone volume was present in premenopausal women (r = +0.39, p = 0.02, n = 33), but was largely accounted for by the two samples with the highest TGF-beta concentrations. In conclusion, our data suggest that TGF-beta1 is the major TGF-beta isoform produced by human bone cells in vitro, and that the constitutive secretion of TGF-beta by bone cells does not change with age. Whether constitutive differences in TGF-beta secretion may be a determinant of human bone mass remains to be clarified in further studies.

Age-associated changes in the stimulatory effect of transforming growth factor beta on human osteogenic colony formation

Previous studies have indicated that the mitogenic responsiveness of human bone cells may change with age. In the present study, we examined whether aging affects the capacity of transforming growth factor beta (TGF-beta) to stimulate the colony formation of human osteoprogenitor cells. Outgrowths of bone cells from 98 iliac crest biopsies were plated at a density of 25 cells/cm2 and cultured for 3 weeks in the presence of 10% fetal calf serum. Approximately 5% of the plated cells gave rise to clonal colonies. TGF-beta (10(-11) M) significantly increased the estimated number of cells per colony. However, the stimulatory effect of TGF-beta significantly declined with donor age (r = -0.26, P = 0.01). Whereas TGF-beta raised the average number of cells per colony in cultures from donors below the age of 50 years by 136+/-50%, the average increase was only 43+/-16% in donors older than 60 years. These data raise the possibility that aging may be associated with a declining capacity of TGF-beta to enlarge the pool of bone cells that can be generated from a single human osteoblast progenitor cell.

Age-related changes in insulin-like growth factor I and II in human femoral cortical bone: lack of correlation with bone mass.

The concentration of insulin-like growth factor-I (IGF-I) in human cortical bone declines with age, but the relevance of this decline for cortical bone turnover and bone mass is unknown. In the present study, we simultaneously assessed the concentration of IGF-I and -II in cortical bone matrix and histomorphometric parameters of bone mass and bone turnover in 125 samples from the proximal human femur shaft. Bone width decreased by 27% and porosity increased by 100% in female cortical bone between the fourth and the ninth decade. Similar, but weaker, changes tended to occur in male cortical bone. The concentrations of both IGF species were correlated with the percentage of osteons undergoing bone remodeling. However, despite age-related decreases in both IGF species in men and in IGF-I in women, neither of the IGFs accounted for age-related or age-independent variability in cortical porosity or bone width. In conclusion, these data suggest that the local concentrations of IGF-I and -II are related to cortical bone turnover. In contrast, our study provides no evidence for a major role of bone matrix IGF-I and -II as determinants of cortical bone mass in elderly individuals. Whether other components of the IGF system may be stronger determinants of cortical bone loss remains to be determined.

Effects of triiodothyronine on the insulin-like growth factor system in primary human osteoblastic cells in vitro

Thyroid hormone plays a major role in the regulation of bone metabolism but the mechanism by which this is accomplished is not clear. Interactions of thyroid hormone with the growth hormone/insulin-like growth factors (IGFs) axis suggest an alternate pathway of action for triiodothyronine (T(3)) on bone formation, besides direct effects. The present study investigates the influence of T(3) on IGF-1, IGF-2, IGF-1 receptor (IGF-1R), and IGF binding protein (IGFBP) transcripts, and on IGF-1 action in human osteoblastic cells (hOB) under serum-free culture conditions. No influence of T(3) on IGF-1, IGF-2, IGFBP-3, or IGFBP-4 mRNA levels in hOB was observed. However, T(3) at concentrations of 10(-8) mol/L and 10(-7) mol/L increased IGF-1R mRNA levels in a dose-dependent manner (p < 0.01) and enhanced IGFBP-5 mRNA levels at a concentration of 10(-7) mol/L (p < 0.05), as assessed by reverse transcriptase-polymerase chain reaction. Correspondingly, Scatchard analysis of [(125)I]-IGF-1 binding revealed that T(3) at 10(-7) mol/L increased the number of IGF-1 binding sites in hOB, with small changes in receptor affinity. In addition, a synergistic effect of T(3) and IGF-1 on hOB proliferation was found (p < 0.05). We conclude that IGF-1R and IGFBP-5 are thyroid hormone target genes in human osteoblasts, whereas IGF-1 mRNA expression itself appears not to be regulated by T(3) in hOB. However, T(3) stimulates IGF-1R mRNA expression as well as IGF-1 binding and IGF-1 induced cell proliferation in osteoblasts, thus suggesting thyroid hormone may potentiate the effect of IGF-1 at the receptor level. This may contribute to the positive effects of thyroid hormone on bone formation, which, in addition, may be modulated by increased IGFBP-5 expression.

Positive association between circulating free thyroxine and insulin-like growth factor I concentrations in euthyroid elderly individuals

Previous studies have shown marked changes in circulating insulin‐like growth factor‐I (IGF‐I) levels in hypo‐ and hyperthyroid patients. In this study we examined whether the circulating concentration of IGF‐I may also be affected by normal thyroid hormone levels.

Changes in the Concentration of Insulin-Like Growth Factor I and Transforming Growth Factor β1 in Rat Femoral Bone during Growth

Abstract. Our knowledge of the concentration of growth factors in growing bone is limited. In the present study, we examined the developmental changes in the concentrations of insulin-like growth factor I (IGF-I) and transforming growth factor beta (TGF-β) in the rat femur between weanling and maturity. We show that during the rapid growth phase there is a continuous rise in bone matrix IGF-I and TGF-β in all compartments of the femoral bone. The association between IGF-I and TGF-β is not only temporal, but with few exceptions is also observed within the animals of each age class. These data support the hypothesis that IGF-I and TGF-β play an important role in the growth-associated accumulation of bone mass.

Tumor necrosis factor α inhibits the stimulatory effect of the parathyroid hormone-related protein on cyclic AMP formation in osteoblast-like cells via protein kinase C+

Tumor necrosis factor α (TNF α) and parathyroid hormone-related protein (PTHrP) are both factors that have been implicated in the mechanism of hypercalcemia of malignancy. In this study we investigated the effect of TNF α on the PTHrP-stimulated accumulation of intracellular cyclic AMP in osteoblast-like cells. In the clonal cell line Saos-2 and in primary cell cultures from fetal rat calvaria, PTHrP-stimulated accumulation of cAMP was time- and dose-dependently inhibited by exposure to TNF α. Significant inhibition occurred at concentrations as low as 2 × 10−12 M and was maximal at 1 × 10−9 M. Inhibition was observed after 6 h and was maximal after 18 h. Inhibition by TNF α was probably mediated by protein kinase C , since the phorbol ester PMA mimicked the effect of TNF α, and the protein kinase C inhibitor H-7 completely abolished the effect of TNF α. In conclusion, these observations suggest a possible mechanism by which TNF α may modulate the effect of PTHrP on osteoblast function in the syndrome of humoral hypercalcemia of malignancy.