Mechanisms of glucocorticoid action in bone cells

Glucocorticoids play an important role in the normal regulation of bore remodeling; however continued exposure of bone to glucocorticoid excess results in osteoporosis. In vivo, glucocorticoids stimulate bone resorption and decreasae bone formation, and in vitro studies have shown that while glucocorticoids stimulateosteoblastic differentiation, they have important inhibitory actions on bone formation. Glucocorticoids have manyeffects on osteoblast gene expression, including down-regulation of type 1 collagen and osteocalcin, and up-regulation of interstitial collagenase. The synthesis and activity of osteoblast growth factors can be modulated by glucocorticoids as well. For example, insulin-like growth factor 1 (IGF-1) is an important stimulator of osteoblast function, and expression of IGF-1 is decreased by glucocorticoids. The activity of IGF 1 can be modified by IGF binding proteins (IGFBPs), and theirsynthesis is also regulated by glucocorticoids. Thus, glucocorticoid action on osteoblasts can be direct, by activating or repressing osteoblast gene expression, or indirect by altering the expression or activity of osteoblast growth factors. Further investigation of the mechanisms by which glucocorticoids mnodulate gene expression in bore cells will contribute to our understanding or steroid hormone biology and will provide a basis for the design of effective treatments for glucocorticoid-induced osteoporosis.     

Murine FGF-4 gene expression is spatially restricted within embryonic skeletal muscle and other tissues

Fibroblast growth factors are believed to play many distinct roles in vertebrate development, owing to their ability to stimulate cell growth, prevent cell death, determine cell fate, and inhibit terminal differentiation in a variety of in vitro culture systems. We have used in situ hybridization to localize fibroblast growth factor-4 (FGF-4, also termed HST and K-FGF) gene expression in 7.5 to 16.5 day gestation mouse embryos. Seven discrete sites of gene expression were detected: (1) primitive streak (E7.5–8.5); (2) paraxial presomitic mesoderm in the trunk (E7.5–11.5); (3) primitive neuroectoderm (E8.0–8.5); (4) pharyngeal pouch endoderm (E8.5–9.5); (5) branchial arch ectoderm (E8.5–9.5); (6) limb apical ectoderm (E10.5–12.5), and (7) skeletal myoblast groups (E9.5–13.5). FGF-4 gene expression is spatially restricted within many of these sites. The profile of FGF-4 gene expression among skeletal muscle groups is overlapping, but distinct, from that of FGF-5, thereby revealing myoblast heterogeneity at the molecular level and suggesting distinct roles for multiple FGFs in muscle development.     

The RYR1 g.1843C>T mutation is associated with the effect of the IGF2 intron3-g.3072G>A mutation on muscle hypertrophy

Muscle growth is a complex phenomenon regulated by many factors, whereby net growth results from the combined action of synthesis and turnover. In pigs, two quantitative trait nucleotides (QTN) are known to have an important influence on muscle growth and fat deposition: one QTN is located in the ryanodine receptor 1 (RYR1) gene (RYR1 g.1843C>T) and the other, a paternally expressed QTN, is in the insulin-like growth factor 2 (IGF2) gene (IGF2 intron3-g.3072G>A). The mutation in IGF2 abrogates in vitro interaction with a repressor, which leads to a threefold increase of IGF2 expression in post-natal muscle. The family of the calpains, a family of Ca(2+)-sensitive muscle endopeptidases, and their specific inhibitor calpastatin play an important role in post-natal protein degradation, also influencing muscle and carcass traits. This study investigated the possible interactions between the genotypes of the RYR1 and IGF2 QTN on IGF2 expression. Samples were taken from several muscles and from pigs at several ages, and messenger RNA expression levels were measured using a real-time quantification assay. IGF2 expression in m. longissimus dorsi of animals with mutations in both IGF2 and RYR1 was significantly lower than in animals that inherited the IGF2 mutation but were homozygous wildtype for RYR1.     

Defined medium for normal adult human prostatic stromal cells

Summary Stromal-epithelial interactions are pivotal in many aspects of prostatic biology. A defined culture system is critical for the investigation of factors that regulate the growth and differentiation of human prostatic stromal cells. We have identified conditions which promote stromal cell attachment and proliferation in serum-free medium. MCDB 201, originally developed for the clonal growth of chick embryo fibroblasts, proved to be a superior basal medium of those that we tested. Supplementation of MCDB 201 with basic fibroblast growth factor (FGF), insulin-like growth factor (IGF), and platelet-derived growth factor (PDGF) permitted attachment and exponential growth of cells throughout a 7-d period with an initial inoculum as low as 10³ cells per well of a 96-well microtiter dish. Using these assay conditions, we subsequently verified that basic FGF and IGF, but not PDGF, were required for optimal growth. No activity was found for heparin, transferrin, or the androgen R1881. Epidermal growth factor (EGF) didn’t stimulate growth when added to medium containing basic FGF and IGF, but was moderately stimulatory when added to basal medium alone. Cholera toxin inhibited growth. This simple and efficient culture medium provides a suitable assay system for more extensive studies of growth regulation and differentiation of human prostatic stromal cells, and will provide the basis for future development of a defined medium that supports clonal growth. Characterization of stromal-epithelial interactions will be facilitated by the use of this defined culture system for stromal cells in conjunction with the serum-free culture systems previously developed for human prostatic epithelial cells.     

甲状旁腺素和胰岛素样生长因子促成骨样细胞ROS 17/2.8增殖分化中的协同作用

 间歇性小剂量地给予甲状旁腺素 (parathyroid hormone,PTH)可促进成骨 .胰岛素样生长因子 - I(insulin- like growth factor- I,IGF- I)由成骨细胞所产生并贮存于骨基质中 ,可促进成骨细胞的增殖分化 .为进一步了解向钙性激素和骨源性生长因子对骨生长的影响 ,利用成骨样细胞 ROS1 7/ 2 .8进行体外实验 ,观察了 PTH和 IGF- I这两种在骨生长和代谢中有重要作用的激素和因子相互作用的效果 ,并对其相互作用机制作出初步探讨 .结果显示 :联合使用 IGF- I及 PTH(间歇性给药 )时 ,(1 ) SRB(sodium rhodamine B,SRB)染色显示经 PTH(1 0 -9mol/ L,间歇给药 )和 IGF- I(1 0 -9mol/ L)联合处理的细胞 ,其数目明显增加 ,且明显高于单独处理组 ;(2 ) 3H- Td R参入增加 ,也明显高于单独处理组 ;(3)与增殖相关的原癌基因 (c- fos,c- jun,c- ki- ras)的表达增强 ,明显高于单独处理组 ;(4)骨钙素 (osteocalcin)基因 m RNA表达增强 ,明显高于单独处理组 ;(5) IGF- I(1 0 -8mol/L,1 0 -9mol/ L)可使 PTH受体基因 m RNA表达增强 .这些结果提示 PTH和 IGF- I在成骨样细胞ROS 1 7/ 2 .8增殖分化中具有协同作用 ,原癌基因的表达增强可能是其作用的一个环节 .此外 ,IGF- I可能通过增强 PTH受体表达 ,使细胞对 PTH的反应性增强     

Insulin-like growth factor binding protein 5 and type-1 insulin-like growth factor receptor are differentially regulated during apoptosis in cerebellar granule cells

Neuronal apoptosis is considered to play a significant role in several neuropathological conditions. However, the molecular mechanisms underlying neuronal apoptosis are poorly understood. Insulin-like growth factor (IGF) signalling is considered to be an important regulator of neuronal differentiation, survival and apoptosis. We have examined the expression of two members of the IGF system, insulin-like growth factor binding protein 5 (IGFBP-5) and the type-1 IGF receptor (IGF1R), during apoptosis of rat cerebellar granule cells (CGCs) in vitro. We describe a prominent downregulation of IGFBP-5 mRNA and protein expression. We also show that IGF-I increases IGFBP-5 expression in CGCs and that the downregulation of IGFBP-5 mRNA can be suppressed by inhibiting mRNA synthesis with actinomycin D. The expression of IGF1R mRNA showed a transient upregulation during potassium chloride (KCl) deprivation induced apoptosis, in contrast to the IGF1R protein level, which was downregulated during KCl deprivation. Our results provide insight into the expression of IGF-related genes during neuronal apoptosis, and indicate that they mediate a protective response to the withdrawal of trophic stimulation. It seems that the expression of IGFBP-5 and IGF1R is regulated to maximize the availability of IGF and the activity of IGF-triggered survival signalling.     

EGR1促进前列腺增生上皮细胞系 BPH-1的增殖

早期生长反应基因1（early growth response gene 1, EGR1）属于锌指结构的转录因子,表达受多种因素调节,其蛋白至少参与对30种以上靶基因的调控. EGR1在前列腺癌中作为癌基因其表达量与肿瘤的恶性程度成正比,而在良性前列腺增生（benign prostatic hyperplasia, BPH）中其机制和功能尚不明确. EGR1在大鼠和人BPH组织中表达升高, 提示EGR1在BPH进程中发挥重要作用. 通过构建EGR1表达载体,以及EGR1稳定转染的良性前列腺增生上皮细胞系BPH-1,可见过表达EGR1的BPH-1细胞增殖能力升高. 通过转染siRNA将EGR1表达抑制,BPH 1细胞的增殖水平下降. 雌激素在BPH疾病进程中发挥重要作用, 在BPH 1细胞中,雌二醇 (estradiol, E2) 能促进EGR1的核迁移,从而激活其转录活性. 在EGR1稳定转染的BPH 1细胞系中胰岛素样生长因子2 (insulin like growth factor 2, IGF2) 的表达上调,表明EGR1可以调控IGF2的表达. 同时发现,E2可上调BPH-1细胞中 IGF2的表达,而将EGR1敲除后上调效果消失, 说明E2通过EGR1来调节IGF2的表达. E2对EGR1及其靶基因的调节可能是E2参与影响BPH的重要环节. 本文为进一步研究E2和EGR1在BPH中作用奠定了基础.     

Insulin-like Growth Factor (IGF) I Down-Regulates Type 1 IGF Receptor (IGF 1R) and Reduces the IGF I Response in A549 Non-Small-Cell Lung Cancer and Saos-2/B-10 Osteoblastic Osteosarcoma Cells

The insulin-like growth factor type 1 receptor (IGF 1R) mediates the acute metabolic effects of IGF I as well as IGF I-stimulated cell proliferation and protection from apoptosis. IGF binding proteins (IGFBPs) can modulate these responses. We, therefore, investigated whether intrinsic IGFBPs interfere with IGF I-induced regulation of IGF 1R expression and with the biological response to IGF I in two human tumor cell lines, the non-small-cell lung cancer cell line A549 and the osteoblastic osteosarcoma cell line Saos-2/B-10. We compared the growth rates, IGFBP production, IGF I binding characteristics, IGF 1R protein and mRNA levels, and the acute IGF I response (stimulation of glycogen synthesis) after pretreatment of the cells in serum-free medium with or without added IGF I or medium supplemented with 5% fetal calf serum (FCS). In contrast to A549 cells, which produce IGF I and significant amounts of IGFBPs, survival and proliferation of Saos-2/B-10 cells, which do not produce IGF I or significant amounts of IGFBPs, depended on the addition of exogenous IGF I. IGF I increased the concentration of IGFBP-2 and -3 and decreased the concentration of IGFBP-4 in the medium of A549 cells. As compared to FCS, IGF I pretreatment in both cell lines decreased the number of specific IGF I binding sites, down-regulated total and membrane IGF 1R protein, and largely reduced or abolished the acute IGF I response without affecting IGF 1R mRNA levels. The data suggest that the IGF 1R protein of the two cell lines is translationally and/or posttranslationally down-regulated by its ligand in the presence and in the absence of locally produced IGFBPs and that the cell lines have retained this negative feedback to counteract IGF I stimulation.     

PKC alpha-dependent regulation of the IGF1 receptor in adult and embryonic rat cardiomyocytes

In both, the adult rat ventricular cardiomyocytes and the embryonic rat heart cell line, H9c2, acute exposure to IGF1 resulted in activation of the IGF1 receptor’s internal tyrosine kinase, and this was completely blocked by the PKC alpha inhibitor, Gö6976. In addition, RNA interference using siRNA mediated gene silencing of PKC alpha–inhibited IGF1 receptor activity and blocked PKC alpha expression in H9c2 cells. Biochemical experiments demonstrate that PKC alpha is associated with the IGF1R (beta subunit) only after acute IGF1 exposure, and this may suggest that there is a direct interaction and possibly a PKC alpha phosphorylation site within the internal IGF1 receptor domain. The downstream effects of blocking PKC alpha activity by exposure to Gö6976 include inhibition of IGF1-stimuated PI3 kinase activity and reduced IGF1-stimulated c-fos expression in the adult cardiomyocytes. Previously, the laboratory has reported that IGF1 activates PKC alpha in adult rat cardiomyocytes, and that PKC alpha activity is required for IGF1-dependent Erk/Erk2 activity and protein synthesis. Here, it is shown that IGF1-dependent protein synthesis is completely blocked by PD98059, indicating that the Raf-Mek-Erk cascade is required for IGF1’s anabolic activity. Pretreatment with LY294002, a specific inhibitor of PI3 kinase, blocked IGF1-stimulated Erk1/Erk2 activity; therefore, PI3 kinase may also be required for IGF1-dependent protein synthesis. In H9c2 cells, coincubation with PMA lead to an increase in the rate of the IGF1 receptor activation, and this may further implicate a role for PKC in regulating the IGF1R. In conclusion, PKC alpha plays an essential role in the IGF1-signaling cascade, including the regulation of key signaling proteins involved in cell signaling and gene expression, and this may primarily be due to PKC alpha directly regulating the IGF1R.Both contributed equally to the experiments.     

Expression of mRNAs encoding insulin-like growth factor (IGF) ligands, IGF receptors and IGF binding proteins during follicular growth and atresia in the ovine ovary throughout the oestrous cycle

The components of the insulin-like growth factor (IGF) system appear to be involved in the regulation of ovarian follicular growth and atresia in sheep. However, previous studies have only investigated a select few components of the system. The aim of the present study was to investigate the expression of mRNA encoding all of the components of the sheep IGF system among follicles of varying size and health status throughout the oestrous cycle using sheep-specific ribonucleotide probes and in situ hybridisation. For all IGF components, gene expression was unaffected by stage of oestrous cycle. IGF-I mRNA expression in all classes of follicle was generally low throughout the oestrous cycle, while IGFBP-1 mRNA expression could not be demonstrated at all. In contrast, there was relatively intense follicular expression of mRNAs encoding all remaining IGF system components. For IGF-II, both IGF receptors and IGFBP-2, -3, -4, -5, and -6, gene expression decreased as follicles increased in diameter (P < 0.01). IGF-II, type I IGF-R and IGFBP-2, -3, -4, and -6 mRNA expression significantly decreased as follicles progressed from healthy to atretic status (P < 0.01), whereas gene expression for type II IGF-R and IGFBP-5 was greater in atretic follicles (P < 0.01). This study demonstrates the spatial patterns of follicular gene expression for all of the IGF system components in cycling sheep for the first time. These results further highlight the potential functional role of IGF-II, in contrast to IGF-I, in the autocrine and/or paracrine regulation of follicle growth in sheep.     

Insulin-like growth factor 2 regulates the proliferation and differentiation of rat adipose-derived stromal cells via IGF-1R and IR

BackgroundInsulin-like growth factor 2 (IGF2), an essential component of the stem cell niche, has been reported to modulate the proliferation and differentiation of stem cells. Previously, a continuous expression of IGF2 in tissues was reported to maintain the self-renewal ability of several types of stem cells. Therefore, in this study, we investigated the expression of IGF2 in adipose tissues and explored the effects of IGF2 on adipose-derived stromal cells (ADSCs) in vitro.MethodsThe expression pattern of IGF2 in rat adipose tissues was determined by gene expression and protein analyses. The effect of IGF2 on proliferation, stemness-related marker expression and adipogenic and osteogenic differentiation was systematically investigated. Furthermore, antagonists of IGF2-specific receptors—namely, BMS-754807 and picropodophyllin—were added to explore the underlying signal transduction mechanisms.ResultsIGF2 levels displayed a tendency to decrease with age in rat adipose tissues. After the addition of IGF2, isolated ADSCs displayed higher proliferation and expression of the stemness-related markers NANOG, OCT4 and SOX2 and greater differentiation potential to adipocytes and osteoblasts. Additionally, both type 1 insulin-like growth factor receptor (IGF-1R) and insulin receptor (IR) participated in the IGF2-mediated promotion of stemness in ADSCs.ConclusionsOur findings indicate that IGF2 could enhance the stemness of rat ADSCs via IGF-1R and IR and may highlight an effective method for the expansion of ADSCs for clinical application.     

In vivo and in vitro studies on sex steroid binding protein (SBP) regulation in rainbow trout (oncorhynchus mykiss): Influence of sex steroid hormones and of factors linked to growth and metabolism

The respective roles of sex steroids and hormones related to growth and metabolism, on SBP regulation have been studied in rainbow trout. In vivo, oestradiol (E2) supplementation induces a slow but significant increase of plasma SBP concentration. Testosterone or cortisol injections have no effect. In vitro, the steroid binding protein that accumulates in incubation medium of hepatic cell primary cultures has been characterized and found to be similar to blood SBP. Its production is increased by addition of E2 (maximum: + 300%). This effect develops slowly over several days of culture and is dose dependent; as little as 1–10 nM E2 is effective.

Recombinant rainbow trout GH (rtGH)—0.01 to 1 μg/ml—also increases SBB accumulation as compared to control cells and seems to maintain SBP production over culture duration. In preliminary experiments, (1) insulin-like growth factor (IGF) and SBP concentrations were found to change inversely after a 4 days stimulation with increasing concentrations of GH; (2) recombinant human IGF₁ (250 ng/ml) tended to be inhibitory when SBP production was expressed per mg of total cellular protein, and a micromolar concentration of bovine insulin was clearly inhibitory.

Other hormones tested in vitro: triiodothyronine (10–1000 nM), thyroxine (100 nM), 17,20β-dihydroprogesterone (10–2000 nM), and testosterone (1–1000 nM) did not influence SBP concentration in hepatic cells culture media.