The effect of strontium chloride on human periodontal ligament stem cells.

The complete repair of periodontal structures remains an exciting challenge that prompts researchers to develop new treatments to restore the periodontium. Recent research has suggested strontium ion to be an attractive candidate to improve osteogenic activity. In this study, we have isolated a clonal finite cell line derived from human periodontal ligament (PDL) in order to assess whether and in which way different doses of SrCl2 (from 0.5 to 500 µg/ml) can influence both the proliferation and the mineralization process, for future application in oral diseases. PDL cells were cloned by dilution plating technique and characterized by FACS. Cell proliferation analysis and mineralization were performed by [3H]-thymidine incorporation and spectrofluorometric assay. Results have evidenced that the higher SrCl2 concentrations tested, from 25 to 500 µg/ml, have increased the proliferation activity after only 24 h of treatment. Interestingly, the same higher concentrations have decreased the mineralization, which was conversely increased by the lower ones, from 0.5 to 10 µg/ml. Our findings suggest the possible use of SrCl2 in appropriate delivery systems that release, at different time points, the specific dose, depending on the biological response that we want to induce on periodontal ligament stem cells, providing a more efficient periodontal regeneration.

In vitro effects of extracts of extra virgin olive oil on human colon cancer cells.

The Mediterranean diet is associated with a lower incidence of atherosclerosis, cardiovascular diseases, and some types of cancer. Recent interest has been focused on the biological activity of phenolic compounds present in extra virgin olive oils (EVOOs). Both in vivo and in vitro studies have shown that EVOO components have positive effects on metabolic parameters, such as plasma lipoproteins, oxidative damage, inflammatory markers, platelet function, and antimicrobial activity. We have investigated the possible interactions between 2 extracts of extra virgin olive oil and estrogen receptor ß (ERß) in an in vitro model of colon cancer. The qualification and quantification of the components of the 2 samples tested showed that phenolic compounds-hydroxytyrosol, secoiridoids, and lignans-are the major represented compounds. EVOO extracts were tested on a colon cancer cell line engineered to overexpress ERß (HCT8-ß8). By using custom made Oligo microarray, gene expression profiles of colon cancer cells challenged with EVOO-T extracts when compared with those of cells exposed to 17ß-estradiol (17ß-E2). This study demonstrated that the EVOO extracts tested showed an antiproliferative effect on colon cancer cells through the interaction with estrogen-dependent signals involved in tumor cell growth. Specifically, the ability of EVOO extracts to inhibit cell proliferation was superimposable to the activation of the ERß receptor, similar to what was observed after 17ß-E2 challenge.

CYP19 and ESR1 gene polymorphisms: response of the bone mineral density in post-menopausal women to hormonal replacement therapy.

OBJECTIVES: Sex steroids are important regulators of bone physiology and play an essential role in the maintenance of bone health throughout the life. Hormonal replacement therapy (HRT) is a treatment commonly used to relieve symptoms and some undesirable consequences of menopause such as osteoporosis. Osteoporosis, characterized by the loss of bone mass and deterioration of microarchitecture with a consequent higher risk of fragility fractures, is under genetic influence. A tetranucleotide (TTTA)n microsatellite repeat polymorphism, at intron 4 of the CYP19 (aromatase) gene, has been previously associated with higher lumbar spine bone mineral density (LS-BMD) and lower risk of spine fracture in postmenopausal women. Moreover, the ERα encoded by the ESR1 gene is another important candidate for the regulation of bone mass of menopause. Moreover prospective analysis from >18.000 subjects at the GENOMOS study indicated that XX homozygotes genotype had a reduced risk of fracture independently from BMD. In the present study, we investigated in postmenopausal Italian women, at baseline and after 1 year of HRT, whether ESR1 and CYP19 gene polymorphisms could affect BMD through different statistical models. METHODS: This study has been performed on 100 post-menopausal Italian women, from a larger group of 250. The study group was administred HRT and LS-BMD was measured at baseline and after 1 year of therapy. Genetic analysis evaluating ESR1 and CYP19 gene polymorphisms was performed. RESULTS: Generalized Linear Models (GLMs) test showed that women with normal LS-BMD at the baseline had a major statistically significant BMD increase of 0.1426 gr/cm(2) (p= 0.0001) with respect to the osteoporotic patients. In addition, subjects with genotype 1 and 2 of CYP19 gene had a lower modification in LS-BMD after 1 year of HRT (0.0837 gr/cm(2) and 0,076 g/cm(2); p=0.0470 and 0,0547 respectively) when compared to genotype 3. No influences of the aromatase genotypes were observed in the variable difference using both Anova and GLMs test. Regarding the ESR1 gene polymorphism, the LS-BMD after 1 year of HRT was influenced by the diagnosis at the baseline and height and ERα genotypes were able to influence difference with statistical significant results with both test. CONCLUSIONS: In the present study, we have demonstrated that CYP19 gene polymorphism is able to influence the effect of 1 year HRT on LS-BMD with no influence on pre-/ and post-/HRT LS-BMD differences. Although ESR1 gene polymorphism is not able to influence the LS-BMD after 1 year HRT, it influences the observed modifications during the year of therapy. These data underlie the complexity of the genetics of the bone mass and its importance in influencing the response to HRT.

Absorption and bioeffects of an isoflavone-based supplementation in postmenopausal women.

Epidemiological studies suggest that consumption of isoflavones rich diets can improve several postmenopausal complications. The aim of this study was to investigate the absorption and the efficacy of isoflavonic supplementation in the treatment of menopausal symptoms.36 postmenopausal women received 75 mg/day of isoflavones in the form of tablets, for six months. 21 subjects concluded the treatment. Plasmatic and urinary samples were collected before and after the treatment, along with a dietary interview. Isoflavones were determined in biological samples and in commercial administered supplements by a HPLC/DAD system.Results showed the presence of genistein (from 0.043 to 1.820 micromol/L) in plasma samples, and of genistein (from 2.486 to 20.363 micromol/24h) and daidzein (from 11.106 to 98.091 micromol/24h) in the urines of the treated women. In the 21 completers the Greene Climateric scale value for hot flushes changed from 3 to 1 or 0. No changes of the endometrial thickness and of the breast tissue were detected. The analysis of the supplement content in the tablets was in agreement with what declared by the producer.Administration of isoflavone supplements produced a decrease of symptoms in this cohort of postmenopausal women monitored for isoflavone absorption.

In vitro differentiation of human mesenchymal stem cells on Ti6Al4V surfaces.

Long-term stability of arthroplasty prosthesis depends on the integration between the bone tissue and the implanted biomaterials, which requires the contribution of osteoblastic precursors and their continuous differentiation into the osteoblastic phenotype. Classically, these interactions are tested in vitro using mesenchymal stem cells (MSCs) isolated and ex vivo expanded from bone marrow aspirates. Human adipose tissue-derived stromal cells (AMSCs) may be a more convenient source of MSCs, according to their abundance and accessibility, but no data are available on their in vitro interactions with hard biomaterials. The aim of this work is to compare the osteogenic potential of human AMSCs and bone marrow-derived MSCs (BMMSCs) and to evaluate their response to Ti6Al4V alloy in terms of adhesion, proliferation and differentiation features, using the human osteosarcoma cell line SaOS-2 for comparison. The overall results showed that AMSCs have the same ability to produce bone matrix as BMMSCs and that Ti6Al4V surfaces exhibit an osteoinductive action on AMSCs, promoting their differentiation into functional osteoblasts and increasing bone formation. In conclusion, adipose tissue is a promising autologous source of osteoblastic cells with important clinical implications for bone tissue engineering.

A novel polymorphism at the GNAS1 gene associated with low circulating calcium levels.

The concentration of calcium in the extracellular fluid is crucial for several physiological functions in humans and in normal conditions its circulating levels are maintained between 8.5-10.5 mg/dl. Among the regulators of calcium homeostasis parathyroid hormone (PTH) acts though the G-protein coupled PTH receptor and a hormone-sensitive adenylate cyclase, with Gsα subunit (stimulatory guanine nucleotide-binding protein alpha-subunit) being responsible for the stimulation of the catalytic complex. Mutations of the Gsα encoding gene, GNAS1, are causal for some forms of congenital hypocalcemia. In the present study genetic variability in the GNAS1 gene was analyzed in a group of hypocalcemic patients collected through the Italian Register of Primary Hypoparathyroidism (RIIP). We identified a new intronic variant of the GNAS1 gene, consisting of a T>C polymorphism. This polymorphism was studied in a group of unrelated healthy subjects for a possible association with bone turnover biomarkers and bone mineral density. The T>C polymorphism was found in 18% of the studied populations, with 15% heterozygous TC and 3% homozygous CC (Pearson χ(2)analysis: p=0.04). A significant association with low serum calcium levels was found in healthy subjects carrying the T > C polymorphism (ANCOVA analysis: p=0.04). These results support segregation of a novel GNAS1 gene intronic variant with low calcium levels in primary hypoparathyroidism, pseudo-hypoparathyroidism and in the general population.

Clodronate acts on human osteoclastic cell proliferation, differentiation and function in a bioreversible manner.

Background. Clodronate is used in high bone resorption diseases. Its action was defined as "cytotoxic" based on the induced cellular ATP loss, without any experimental verification of reversibility. In the present report the reversibility of clodronate action was tested on cultured human osteoclastic cell cultures. As "in vitro" bioeffects of clodronate are reversible, this compound should not be defined as "cytotoxic".Introduction. Bisphosphonates are pyrophosphate analogs able to inhibit osteoclast-mediated bone resorption widely used in the treatment of diseases with high bone turnover. Several evidences have shown that bisphosphonates can be divided into two groups with distinct molecular mechanisms of action depending on the nature of the R(2)side chain. The nitrogen-containing bisphosphonates act on osteoclasts by preventing protein prenylation, while non-nitrogen-containing bisphosphonates, like clodronate, are metabolized intracellularly to a ß-γ-methylene analog of ATP that induces inhibition of the ADP/ATP translocase.Materials and Methods. In order to evaluate clodronate effects on osteoclastic cells and the bioreversibility of its action, we have used a human preosteoclastic (FLG 29.1) cell line and primary cultures of human osteoclast-like (HOC) cells. Functional and differentiative modifications were evaluated with immunocytochemical tartrate-resistant acid phosphatase activity (TRAcP) assay and with rapid quantitative detection of the complex "matrix metalloproteinase 9/tissue inhibitor of metalloproteinase" (MMP9/TIMP1) by RT-PCR analysis based on "TaqMan" technology. The apoptosis phenomenon were detected by DNA ladder analysis and quantified by counting apoptotic cells with Transmission Electron Microscopy (TEM) analysis. Adenosine-5'-[ ß - γ -dichloromethylene] triphosphate (AppCCl(2)p) was detected and identified in cell extract by HPLC-ESI-MS-MS Mass Spectrometry. Intracellular ATP modulation in the presence of clodronate was evaluated by luciferin-luciferase assay. The Mann-Whitney "U" test was conducted for statistical analysis.Results. We found that clodronate inhibited both proliferation and differentiative features of cells of the osteoclastic lineage. Furthermore, treatment of both cell types with clodronate caused apoptosis, generation of measurable levels of AppCCl(2)p, and reduction of intracellular ATP levels. Addition of ATP to the culture medium caused an inhibition of the biological actions of clodronate on the human osteoclastic cell lineage.Conclusions. These data indicate that intracellular accumulation of the metabolite AppCCl(2)p is the likely route by which clodronate inhibits osteoclastic function and this effect is reversed by ATP.

Lipophilization of Hydroxytyrosol-Enriched Fractions from Olea europaea L. Byproducts and Evaluation of the in Vitro Effects on a Model of Colorectal Cancer Cells.

A hydroxytyrosol (HTyr)-enriched fraction containing HTyr 6% w/w, derived from Olea europaea L. byproducts and obtained using an environmentally and economically sustainable technology, was lipophilized under green chemistry conditions. The effects of three fractions containing hydroxytyrosyl butanoate, octanoate, and oleate, named, respectively, lipophilic fractions 5, 6, and 7, and unreacted HTyr on the human colon cancer cell line HCT8-ß8 engineered to overexpress estrogen receptor ß (ERß) were evaluated and compared to those of pure HTyr. The experimental data demonstrated that HTyr and all fractions showed an antiproliferative effect, as had been observed by the evaluation of the cellular doubling time under these different conditions (mean control, 32 ± 4 h; HTyr 1, 65 ± 9 h; fraction 5, 64 ± 11 h; fraction 6, 62 ± 14 h; fraction 7, 133 ± 30 h). As evidenced, fraction 7 containing hydroxytyrosyl oleate showed the highest activity. These results were related to the link with ER-ß, which was assessed through simultaneous treatment with an inhibitor of ERß.

Establishment of Cancer Stem Cell Cultures from Human Conventional Osteosarcoma.

The current improvements in therapy against osteosarcoma (OS) have prolonged the lives of cancer patients, but the survival rate of five years remains poor when metastasis has occurred. The Cancer Stem Cell (CSC) theory holds that there is a subset of tumor cells within the tumor that have stem-like characteristics, including the capacity to maintain the tumor and to resist multidrug chemotherapy. Therefore, a better understanding of OS biology and pathogenesis is needed in order to advance the development of targeted therapies to eradicate this particular subset and to reduce morbidity and mortality among patients. Isolating CSCs, establishing cell cultures of CSCs, and studying their biology are important steps to improving our understanding of OS biology and pathogenesis. The establishment of human-derived OS-CSCs from biopsies of OS has been made possible using several methods, including the capacity to create 3-dimensional stem cell cultures under nonadherent conditions. Under these conditions, CSCs are able to create spherical floating colonies formed by daughter stem cells; these colonies are termed "cellular spheres". Here, we describe a method to establish CSC cultures from primary cell cultures of conventional OS obtained from OS biopsies. We clearly describe the several passages required to isolate and characterize CSCs.

Azidothymidine induces apoptosis and inhibits cell growth and telomerase activity of human parathyroid cancer cells in culture.

UNLABELLED: Telomerase activity has been correlated to parathyroid carcinoma. Because its role in acquisition of a malignant phenotype by parathyroid cells is unclear, we treated telomerase-positive cultured human parathyroid cancer cells with the telomerase inhibitor AZT, evaluating cell telomerase activity, cytotoxic effects, growth, and morphological changes. In vitro exposure of these cells to AZT correlated with inhibition of cell proliferation. INTRODUCTION: Parathyroid carcinoma represents an uncommon cause of primary hyperparathyroidism, whose spectrum of clinical presentation, degree of malignancy, and prognosis are difficult to be properly identified. Neck surgery, specifically an en bloc resection of primary tumor, is the only curative treatment. Alternatively, affected patients could undergo repetitive palliative surgical exeresis of metastatic nodules. It has been previously shown that telomerase activity is specifically present in parathyroid carcinoma cells, being absent in hyperplastic and adenomatous tissues. Thus, determination of telomerase activity could represent either a useful diagnostic molecular marker for human parathyroid carcinoma or a potential target for pharmacological intervention in a malignant neoplasia usually resistant to chemo- and radiotherapeutic interventions. MATERIALS AND METHODS: To further investigate the role of telomerase activity in acquisition of a malignant phenotype by parathyroid cells, we treated telomeric repeat amplification protocol-positive cultured human parathyroid cells with the telomerase inhibitor zidovudine, 3'-azido-3'deoxythymidine (AZT), evaluating cell telomerase activity, growth characteristics, potential cytotoxic effects, and morphological changes. RESULTS: Our findings indicate that in vitro exposure of human parathyroid cancer cells to AZT resulted in intracellular accumulation of AZT-monophosphate (AZT-MP) and inhibition of telomerase, which correlate with inhibition of human parathyroid cancer cell proliferation. Moreover, we also found that AZT induced an apoptotic rather than a necrotic type of cellular death. None of these effects were observed in human adenomatous parathyroid cells in culture. CONCLUSIONS: Altogether these results indicate that AZT may be a highly effective agent against cancer parathyroid cells proliferation, which is an extremely important observation for a neoplasia which shows lack of response to classical pharmacological and physical antiblastic treatments.

ERbeta is a potent inhibitor of cell proliferation in the HCT8 human colon cancer cell line through regulation of cell cycle components.

Several strands of evidence indicate that oestrogens exert a protective role against the development of colon cancer through indirect and direct effects on colonic epithelium. Oestrogen receptor beta (ERbeta), the predominant ER subtype in human colon, is significantly decreased in colonic tumours compared with normal mucosa suggesting a potential role in the regulation of colon tumour growth. To investigate this hypothesis we engineered human colon cancer ERalpha-negative HCT8 cells in order to obtain ERbeta protein over-expression. Stably transfected cells were cloned and ERbeta expression and functionality were monitored by RT-PCR, Western blotting and transactivation in an assay using oestrogen-responsive reporter constructs. Over-expression of ERbeta inhibited cell proliferation and increased cell adhesion in a ligand-independent manner. Its constitutive activation is possibly due to cross-talk with intracellular signalling pathways, as epidermal growth factor and IGF-I were able to induce ERbeta transactivation. A possible mechanism by which ERbeta over-expression inhibits proliferation in HCT8 cells is by modulation of some key regulators of the cell cycle; there is a decrease in cyclin E and an increase in the cdk inhibitor p21CIP1. In fact, flow cytometry analysis provided evidence for blocking of the G1-S phase progression induced by ERbeta over-expression. The magnitude of this effect was affected by the level of ERbeta expression. These results provide the first direct evidence that ERbeta plays an important role in colon cancer as a regulator of cell proliferation through the control of key cell cycle modulators and arrest in G1-S phase transition. These findings are compatible with the hypothesis that the loss of ERbeta expression could be one of the events involved in the development or progression of colon cancer.

Growing Strong and Healthy with Mister Bone: An Educational Program to Have Strong Bones Later in Life.

Optimal peak bone mass and bone health later in life are favored by a sufficient calcium intake in infancy, childhood and adolescence. The purpose of this study was to test a new educational program created to monitor and to improve calcium and vitamin D intake in children. Nutritional habits in children were evaluated through a food frequency questionnaire (FFQ) to assess the intake of calcium, vitamin D, dairy products, and total caloric energy at baseline and after seven months of exposure to a unique educational program applied between November 2013 and May 2014 in 176 schoolchildren (48% male, 52% female) attending the fourth and fifth grades of two selected primary schools in Florence, Italy. A significant increase of calcium (from 870 ± 190 to 1100 ± 200 mg/day, p < 0.05), and vitamin D (from 3.6 ± 1.53 to 4.1 ± 2 µg/day) intake in children was documented after the educational program. The amount of specific foods important for bone health consumed, such as milk and vegetables, increased significantly, both in male and female children (p < 0.05). The proposed educational program appears to be effective in modifying calcium intake in children, with a significant increase in the consumption of dairy products and vegetables, but without a significant change in the total caloric intake.

In Vitro Behavior of Human Adipose Tissue-Derived Stem Cells on Poly(ε-caprolactone) Film for Bone Tissue Engineering Applications.

Bone tissue engineering is an emerging field, representing one of the most exciting challenges for scientists and clinicians. The possibility of combining mesenchymal stem cells and scaffolds to create engineered tissues has brought attention to a large variety of biomaterials in combination with osteoprogenitor cells able to promote and regenerate bone tissue. Human adipose tissue is officially recognized as an easily accessible source of mesenchymal stem cells (AMSCs), a significant factor for use in tissue regenerative medicine. In this study, we analyze the behavior of a clonal finite cell line derived from human adipose tissue seeded on poly(ε-caprolactone) (PCL) film, prepared by solvent casting. PCL polymer is chosen for its good biocompatibility, biodegradability, and mechanical properties. We observe that AMSCs are able to adhere to the biomaterial and remain viable for the entire experimental period. Moreover, we show that the proliferation process and osteogenic activity of AMSCs are maintained on the biofilm, demonstrating that the selected biomaterial ensures cell colonization and the development of an extracellular mineralized matrix. The results of this study highlight that AMSCs and PCL film can be used as a suitable model to support regeneration of new bone for future tissue engineering strategies.

A polymorphic CYP19 TTTA repeat influences aromatase activity and estrogen levels in elderly men: effects on bone metabolism.

Current evidence suggests that estrogen plays a dominant role in determining bone mineral density (BMD) in men, and inactivating mutations in the aromatase CYP19 gene have been associated with low bone mass in young males. We previously reported an association between a TTTA repeat polymorphism in intron 4 of the CYP19 gene and osteoporotic risk in postmenopausal females. Here we explore the role of this polymorphism as a genetic determinant of BMD in a sample of elderly males who were recruited by direct mailing and followed longitudinally for 2 (n = 300) and 4 (n = 200) yr. Six different allelic variants, containing seven, eight, nine, 10, 11, and 12 TTTA repeats, were detected. There was a bimodal distribution of alleles, with two major peaks at seven and 11 repeats and a very low distribution of the nine-repeat allele. Men with a high-repeat genotype (>nine repeats) showed higher lumbar BMD values, lower bone turnover markers, higher estradiol levels, and a lower rate of BMD change than men with a low-repeat genotype (25), suggesting that the effect of CYP19 genotypes on bone may be masked by the increase in fat mass. Moreover, the high-repeat genotype was less represented, although not significantly, in the vertebral fracture group with respect to the nonvertebral fracture group. Functional in vitro analysis after incubation with [3H]-androstenedione showed a higher aromatase activity in fibroblasts from subjects with a high-repeat genotype than in fibroblasts from subjects with a low-repeat genotype. In conclusion, differences in estrogen levels due to polymorphism at the aromatase CYP19 gene may predispose men to increased age-related bone loss and fracture risk.

In vitro effects of polyphenols on colorectal cancer cells.

AIM: To investigate the effects of quercetin and genistein on colon cancer cell proliferation and their estrogen receptor ß (ERß) expression. METHODS: Colon cancer cells were stably transfected with a mammalian expression vector to overexpress ERß (HCT8-ß8-expressing cells) or a control vector (HCT8-pSV2neo-expressing cells). The proliferation of these cells was examined after treatment with quercetin or genistein (5-100 µmol/L), or 10 nmol/L 17ß-estradiol (17ß-E2). Cell viability was examined by acridine orange staining following treatments for 48 or 144 h. Effects of quercetin and genistein on ERß transcriptional transactivation were examined by luciferase activity in HCT8-ß8-expressing cells transiently transfected with a pEREtkLUC reporter vector. In addition, the regulation of ERß transcription by phytoestrogens and 17ß-E2 was examined by quantitative polymerase chain reaction. RESULTS: Proliferation of HCT8-ß8-expressing cells was not reduced low doses (5 µmol/L) of quercetin and genistein, while it was reduced at 25-50 µmol/L with an effect similar to 10 nmol/L 17ß-E2. Treatment with doses of phytoestrogens ≥ 75 µmol/L completely blocked cell growth and reduced overall cell counts, however no effects at any dose were observed in HCT8-pSV2neo-expressing cells. These results were supported by viability staining that revealed acridine orange-stained lysosomes with high doses or extended treatment periods. Genistein and quercetin (50 µmol/L) significantly increased ER-responsive luciferase activity similar to 10 nmol/L 17ß-E2 (P < 0.05). Furthermore, genistein and quercetin (50 µmol/L), as well as 10 nmol/L 17ß-E2 significantly increased ERß mRNA levels in HCT8-ß8-expressing cells (P < 0.05). In addition, treatment of HCT8-pSV2neo-expressing cells with 50 µmol/L quercetin or 10 nmol/L 17ß-E2 significantly increased ERß mRNA levels compared to untreated controls (P < 0.05), though the absolute levels were much lower than in HCT8-ß8-expressing cells. CONCLUSION: The antitumorigenic effects of the phytoestrogenic compounds quercetin and genistein on colon cancers cells occur through ERß activity and expression.

PTH-C1: a rat continuous cell line expressing the parathyroid phenotype.

The lack of a continuous cell line of epithelial parathyroid cells able to produce parathyroid hormone (PTH) has hampered the studies on in vitro evaluation of the mechanisms involved in the control of parathyroid cell function and proliferation. The PT-r cell line was first established from rat parathyroid tissue in 1987, but these cells were known to express the parathyroid hormone-related peptide (Pthrp) gene, but not the Pth gene. In an attempt to subclone the PT-r cell line, a rat parathyroid cell strain was isolated and named PTH-C1. During 3 years, in culture, PTH-C1 cells maintained an epithelioid morphology, displaying a diploid chromosome number, a doubling time around 15 h during the exponential phase of growth, and parathyroid functional features. PTH-C1 cell line produces PTH and expresses the calcium sensing receptor (Casr) gene and other genes known to be involved in parathyroid function. Most importantly, the PTH-C1 cells also exhibit an in vitro secretory response to calcium. Altogether these findings indicate the uniqueness of the PTH-C1 cell line as an in vitro model for cellular and molecular studies on parathyroid physiopathology.

Role of GSH/GSSG redox couple in osteogenic activity and osteoclastogenic markers of human osteoblast-like SaOS-2 cells.

This study comprised a comprehensive analysis of the glutathione (GSH) redox system during osteogenic differentiation in human osteoblast-like SaOS-2 cells. For the first time, a clear relationship between expression of specific factors involved in bone remodeling and the changes in the GSH/oxidized GSH (GSSG) redox couple induced during the early phases of the differentiation and mineralization process is shown. The findings show that the time course of differentiation is characterized by a decrease in the GSH/GSSG ratio, and this behavior is also related to the expression of osteoclastogenic markers. Maintenance of a high GSH/GSSG ratio due to GSH exposure in the early phase of this process increases mRNA levels of osteogenic differentiation markers and mineralization. Conversely, these events are decreased by a low GSH/GSSG ratio in a reversible manner. Redox regulation of runt-related transcription factor-2 (RUNX-2) activation through phosphorylation is shown. An inverse relationship between RUNX-2 activation and extracellular signal-regulated kinases related to GSH redox potential is observed. The GSH/GSSG redox couple also affects osteoclastogenesis, mainly through osteoprotegerin down-regulation with an increase in the ratio of receptor activator of NF-κB ligand to osteoprotegerin and vice versa. No redox regulation of receptor activator of NF-κB ligand expression was found. These results indicate that the GSH/GSSG redox couple may have a pivotal role in bone remodeling and bone redox-dysregulated diseases. They suggest therapeutic use of compounds that are able to modulate not just the GSH level but the intracellular redox system through the GSH/GSSG redox couple.

Subcutaneous adipocytes may become osteoblasts.

Commonly, mesenchymal stem cells derived from bone marrow (BMSCs) are mainly utilized in regenerative medicine field. BMSCs are able to differentiate into several lineages, showing immunosuppressive properties, and they are genetically stable in long-term cultures. In the last years, another mesenchymal stem cells population, obtained from adipose tissue, defined adipose-derived stem/stromal cells (ASCs), it is under assessment of scientific research, as alternative to BMSCs. In fact, ASCs show similar capacity to BMSCs, but unlike BMSCs can be harvested more easily with an higher yield and with less invasive manipulation. In this review the abilities of ASCs to differentiate in osteoblasts cells are shown.

Osteodifferentiation of human preadipocytes induced by strontium released from hydrogels.

In recent years, there has been an increasing interest in interactive application principles of biology and engineering for the development of valid biological systems for tissue regeneration, such as for the treatment of bone fractures or skeletal defects. The application of stem cells together with biomaterials releasing bioactive factors promotes the formation of bone tissue by inducing proliferation and/or cell differentiation. In this study, we used a clonal cell line from human adipose tissue-derived mesenchymal stem cells (hADSCs or preadipocytes), named PA2-E12, to evaluate the effects of strontium (Sr(2+)) released in the culture medium from an amidated carboxymethylcellulose (CMCA) hydrogel enriched with different Sr(2+) concentrations on osteodifferentiation. The osteoinductive effect was evaluated through both the expression of alkaline phophatase (ALP) activity and the hydroxyapatite (HA) production during 42 days of induction. Present data have shown that Sr(2+) released from CMCA promotes the osteodifferentiation induced by an osteogenic medium as shown by the increase of ALP activity at 7 and 14 days and of HA production at 14 days. In conclusion, the use of biomaterials able to release in situ osteoinductive agents, like Sr(2+), could represent a new strategy for future applications in bone tissue engineering.

A novel germline inactivating mutation in the CASR gene in an Italian kindred affected by familial hypocalciuric hypercalcemia.

OBJECTIVE: Familial hypocalciuric hypercalcemia (FHH) syndrome is a rare benign condition, inherited as an autosomal dominant trait, in which inactivating mutations of the calcium-sensing receptor (CASR) gene affects the body's ability to regulate calcium homeostasis. Its outcome is featured by increased levels of serum calcium, moderate hypophosphatemia, and inadequately normal or elevated circulating parathyroid hormone levels. Affected patients are mostly asymptomatic and do not benefit from surgical resection of their mildly enlarged parathyroids. DESIGN: We evaluated for hypercalcemia an Italian family that was identified via a young adult male proband referred to our center for parathyroidectomy. METHODS: The patients and the family members were evaluated both biochemically and genetically as suspected FHH subjects. An in vitro functional study was performed by site-directed mutagenesis, and CASR activity was monitored by measuring intracellular calcium ([Ca(2)(+)](i)). RESULTS: The patient had a novel germline heterozygous CASR mutation (c.361_364GATT; p.D121del/fsX122). The mutation caused a premature stop codon at codon 122, exiting a truncated protein. The biochemical phenotype of all family members carrying the heterozygous deletion was concordant with classic FHH syndrome. CONCLUSIONS: Our findings confirm the role of CASR gene mutational analysis to offer a valuable addition for the recognition of FHH in hypercalcemic patients not yet characterized for a positive familial history of hypercalcemia, the only condition that identifies CASR gene mutations in hypercalcemia.