Juan Ignacio Felice scite author profile

Patients with long-standing Diabetes mellitus can develop osteopenia and osteoporosis. We have previously shown that advanced glycation endproducts reduce the bone-forming activity of osteoblasts. Bisphosphonates are used for the treatment of various bone disorders, since they reduce osteoclastic function and survival, and stimulate osteoblastic bone-forming capacity. In this work we have investigated whether bisphosphonates are able to revert advanced glycation endproducts-induced deleterious effects in osteoblasts. MC3T3E1 and UMR106 osteoblastic cells were incubated with control or advanced glycation endproducts-modified bovine serum albumin, in the presence or absence of different doses of the bisphosphonates Alendronate, Pamidronate or Zoledronate. After 24-72 h of culture, we evaluated their effects on cell proliferation and apoptosis, type-1 collagen production, alkaline and neutral phosphatase activity, and intracellular reactive oxygen species production. Advanced glycation endproducts significantly decreased osteoblast proliferation, alkaline phosphatase activity and type 1 collagen production, while increasing osteoblastic apoptosis and reactive oxygen species production. These effects were completely reverted by low doses (10 − 8 M) of bisphosphonates. High doses of bisphosphonates (10-10 − 5 M) were toxic for osteoblasts. Nifedipine (L-type calcium channel blocker) did not affect the advanced glycation endproducts-induced decrease in osteoblastic proliferation, although it blocked the reversion of this effect by 10 − 8 M Alendronate. Both advanced glycation endproducts and Alendronate inhibited the activity of intracellular neutral phosphatases. In conclusion, we show that bisphosphonates revert the deleterious actions of advanced glycation endproducts on osteoblastic cells, and that these effects of bisphosphonates depend on: (a) Ca 2+ influx through L-type voltage-sensitive channels, and (b) blockage of advanced glycation endproducts-induced reactive oxygen species generation.

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Effects of a metabolic syndrome induced by a fructose-rich diet on bone metabolism in rats

Felice

Gangoiti

Molinuevo

et al. 2014

Metabolism

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Phospholamban ablation rescues the enhanced propensity to arrhythmias of mice with CaMKII‐constitutive phosphorylation of RyR2 at site S2814

Mazzocchi

Sommese

Palomeque

et al. 2016

The Journal of Physiology

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Key pointsr Mice with Ca 2+ -calmodulin-dependent protein kinase (CaMKII) constitutive pseudo-phosphorylation of the ryanodine receptor RyR2 at Ser2814 (S2814D +/+ mice) exhibit a higher open probability of RyR2, higher sarcoplasmic reticulum (SR) Ca 2+ leak in diastole and increased propensity to arrhythmias under stress conditions. r We generated phospholamban (PLN)-deficient S2814D r A mathematical human myocyte model replicates these results and predicts the increase in SR Ca 2+ uptake required to prevent the arrhythmias induced by a CaMKII-dependent leaky RyR2.Abstract Mice with constitutive pseudo-phosphorylation at Ser2814-RyR2 (S2814D +/+ ) have increased propensity to arrhythmias under β-adrenergic stress conditions. Although abnormal Ca 2+ release from the sarcoplasmic reticulum (SR) has been linked to arrhythmogenesis, the role played by SR Ca 2+ uptake remains controversial. We tested the hypothesis that an increase in SR Ca 2+ uptake is able to rescue the increased arrhythmia propensity of S2814D +/+ mice. We generated phospholamban (PLN)-deficient/S2814D +/+ knock-in mice by crossing two colonies, S2814D

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Metformin prevents anti-osteogenic in vivo and ex vivo effects of rosiglitazone in rats

Sedlinsky¹,

Molinuevo²,

Cortizo³

et al. 2011

European Journal of Pharmacology

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