Proof of Concept on Functionality Improvement of Mesenchymal Stem-Cells, in Postmenopausal Osteoporotic Women Treated with Teriparatide (PTH1-34), After Suffering Atypical Fractures.

Osteoporosis long-term treatment with nitrogen-containing bisphosphonates, has been associated with uncommon adverse effects, as atypical femoral fractures (AFF). Thus, treatment with teriparatide (TPTD; fragment of human parathyroid hormone; PTH1-34) has been proposed for such patients. Besides its anabolizing effect on bone, TPTD may affect stem-cell mobilization and expansion. Bone marrow mononuclear cells (BMMNC) were isolated from five women that had suffered AFF associated to bisphosphonate treatment, before and after 6 months of TPTD therapy. The presence of mesenchymal stromal cells (CD73, CD90 and CD105 positive cells), gene expression of NANOG, SOX2 and OCT4, proliferation, senescence and capacity to differentiate into osteoblasts and adipocytes were analyzed. After TPTD treatment, BMMNC positive cells for CD73, CD90 and CD105 increased from 6.5 to 37.5% (p < 0.05); NANOG, SOX2 and OCT4 were upregulated, being statistically significant for NANOG (p < 0.05), and cells increased proliferative capacity more than 50% at day 7 (p < 0.05). Senescence was reduced 2.5-fold (p < 0.05), increasing differentiation capacity into osteoblasts and adipocytes, with more than twice mineralization capacity of extracellular matrix or fat-droplet formation (p < 0.05), respectively. Results show that TPTD treatment caused BMMNC "rejuvenation", increasing the number of cells in a more undifferentiated stage, with higher differentiation potency. This effect may favor TPTD anabolic action on bone in such patients with AFF, increasing osteoblast precursor cells. Such response could also arise in other osteoporotic patients treated with TPTD, without previous AFF. Furthermore, our data suggest that TPTD effect on stromal cells may have clinical implications for bone-regenerative medicine. Further studies may deepen on this potential.

Serum from postmenopausal women treated with a by-product of olive-oil extraction process stimulates osteoblastogenesis and inhibits adipogenesis in human mesenchymal stem-cells (MSC).

Aging may enhance both oxidative stress and bone-marrow mesenchymal stem-cell (MSC) differentiation into adipocytes. That reduces osteoblastogenesis, thus favoring bone-mass loss and fracture, representing an important worldwide health-issue, mainly in countries with aging populations. Intake of antioxidant products may help to retain bone-mass density. Interestingly, a novel olive-pomace physical treatment to generate olive oil also yields by-products rich in functional antioxidants. Thus, diet of postmenopausal women was supplemented for two months with one of such by-products (distillate 6; D6), being rich in squalene. After treatment, serum from such women showed reduced both lipidic peroxidation and oxidized low-density lipoprotein (LDL). Besides, vitamin E and coenzyme Q10 levels increased. Furthermore, culture medium containing 10% of such serum both increased osteoblastogenesis and reduced adipogenesis in human MSC from bone marrow. Therefore, highly antioxidant by-products like D6 may represent a relevant source for development of functional products, for both prevention and treatment of degenerative pathologies associated with aging, like osteoporosis.

[Vitamin D, determinant of bone and extrabone health. Importance of vitamin D supplementation in milk and dairy products]. / Vitamina D, determinante de la salud ósea y extra ósea; importancia de su suplementación en la leche y derivados.

Vitamin D is obtained mainly from ultraviolet irradiation of 7-dehydrocholesterol in the skin to form cholecalciferol (vitamin D3), and minimally from diet, unless vitamin D fortified food is taken, mainly enriched milk. In some countries, vitamin D is added to diet as ergocalciferol (vitamin D2). In the liver, vitamin D3 is hydroxylated to form 25-hydroxyvitamin D3 (marker of body nutritional status of vitamin D). Subsequently, in the kidney, 25OHD3 is hydroxylated to form 1,25-dihydroxyvitamin D3 (1,25(OH)2D3). By VDR stimulation, (1,25)OH)2D3 controls calcium homeostasis and bone health and, what is more, many other cells and tissues including skin, muscle, cardiovascular and immune systems as well as glucose homeostasis. Thus, about 3% of the human genome is regulated by this hormone. Association and recent intervention studies describe beneficial effects on bone, cardiovascular disease, hypertension, diabetes mellitus type 2,colorectal cancer, breast cancer, multiple sclerosis, immune function inflammation etc. A minimum target for public health should be to achieve serum 25OHD levels above 20 ng/ml to ensure optimum status for bone health. However, levels above 30 ng/ml should be reached to achieve other health goals. Paradoxically, inadequacy (or even deficiency) in vitamin D levels is highly prevalent in children and youth in Spain. This deficit persists in adults, as well as in postmenopausal women (osteoporotic or not) and the elderly (especially amongst those institutionalized). Seasonal variation barely normalizes serum 25OHD levels after summer-autumn. Treated postmenopausal osteoporotic women also show high prevalence of inadequate levels of vitamin D, a major contributor to antiresortive treatments failure. A normalization of serum vitamin D enables diet to provide the calcium necessary to achieve a good bone health and an adequate response to antiresortive drugs. Given the difficulty to get adequate levels of vitamin D by UV irradiation and diet, a proper supplementation of milk with vitamin D is an attractive chance and a challenge for Public Health of Spain and the European Union. It has provided excellent results in the US, Canada, Northern Europe Countries, etc.

La vitamina D se obtiene fundamentalmente a partir de la irradiación ultravioleta en la piel del 7-dehidrocolesterol para formar colecalciferol (vitamina D3) y mínimamente por la dieta, salvo que se tomen alimentos fortificados en vitamina D, fundamentalmente leche; en algunos países se emplea ergocalciferol (vitamina D2). En el hígado la vitamina D3 se hidroxila para formar 25-hidroxivitamina D3 (marcador del estatus nutricional corporal en vitamina D). La 25OHD3, se hidroxila para formar 1,25-dihidroxivitamina D3 (1,25OH)2D3 en el riñón, para controlar la homeostasis del calcio y la salud del hueso y en otras células o tejidos, mediante el estímulo del VDR, incluyendo piel, músculo, los sistemas cardiovascular e inmune, homeostasis de la glucosa, y proliferación celular en general; de tal manera, que alrededor del 3% del genoma humano está regulado por la hormona 1,25(OH)2 vitamina D3. Estudios de asociación describen acciones beneficiosas a nivel cardiovascular, hipertensión arterial, cáncer colorectal, de mama, esclerosis múltiple, función inmune e inflamación etc. Un objetivo mínimo irrenunciable, para la salud pública, debe ser conseguir niveles séricos de 25OHD superiores a 20 ng/ml, para asegurar un estatus óptimo para la salud ósea y preferiblemente mayor de 30 ng/ml, si nos proponemos alcanzar otros objetivos. "Paradójicamente" en España se da una elevada prevalencia de insuficiencia o incluso franca deficiencia de vitamina D en niños y jóvenes, persiste en adultos, en mujeres postmenopáusicas (osteoporóticas o no), o ancianos que viven en sus casas, y que es mayor si viven en residencias, con una variación estacional que apenas llega a normalizar los niveles séricos de 25OHD después del verano-otoño. También se ha demostrado una elevada prevalencia de niveles inadecuados de vitamina D en mujeres posmenopáusicas en tratamiento por osteoporosis con niveles de 25-hidroxivitamina D menores de 30 ng/ml y 20 ng/ml en el 63 y 30% respectivamente, lo que constituye un importante factor contribuyente a falta respuesta ósea al tratamiento. Una adecuación de niveles séricos de vitamina D, permitiría que la dieta proporcionara el calcio necesario para conseguir una buena salud ósea. Dada la dificultad para conseguir niveles adecuados de vitamina D por irradiación UV y por dieta, la suplementación adecuada de leche y derivados con vitamina D supone una atractiva posibilidad y un reto, para la Salud Pública de España y la Unión Europea, que ha dado excelentes resultados en EEUU, Canadá, Países de Norte de Europa, etc.

Stimulation of in-vitro angiogenesis by low concentrations of risedronate is mitigated by 1,25-dihydroxyvitamin D3 or 24,25-dihydroxyvitamin D3.

The nitrogen-containing or nitrogenous bisphosphonates (N-BF) are currently the main class of drugs used for the treatment of diseases characterized by an increased bone resorption. Preliminary data suggest that N-BF have also direct or indirect anti-tumoral effects, and recent evidence suggests that part of the anti-tumoral activity of N-BF may be attributed to their anti-angiogenic capacity when they are used at high concentrations. On the other hand, an optimal vitamin-D status seems to be necessary to maximize the bone response to N-BF. Our aim has been to evaluate the effect of risedronate, alone or in combination with either 1,25(OH)2D3 or 24,25(OH)2D3 (two main vitamin-D metabolites) on parameters related to the angiogenic capacity of human umbilical-vein endothelial cells (HUVEC). The studies of tube formation through in-vitro angiogenesis assays with Matrigel, chemotaxis and migration in a scratch assay showed that low concentrations of risedronate (0.01 to 1µM) stimulated angiogenesis and cellular migration in vitro. The presence of 1,25(OH)2D3 in the medium inhibited tubular-structure formation and cellular migration. In addition, the presence of 1,25 or 24,25(OH)2D3 in the culture medium also decreased the pro-angiogenic effects of low-concentrations of risedronate. These data show the differential effects of different concentrations of vitamin-D metabolites and risedronate on angiogenesis, thus stressing the importance of an adequate vitamin D status during medical treatment with risedronate. This article is part of a Special Issue entitled '17th Vitamin D Workshop'.