NO-dependent proliferation and migration induced by Vitamin D in HUVEC.

Recently, Vitamin D (Vit. D) has gained importance in cellular functions of a wide range of extraskeletal organs and target tissues, other than bone. In particular, Vit. D has displayed important beneficial effects in the cardiovascular system. Although little is known about the mechanism by which this response is exerted, a Vit. D-induced eNOS-dependent nitric oxide (NO) production in endothelial cells (EC) has been reported. The aim of this study was to evaluate whether Vit. D administration could affect human EC proliferation and/or migration through NO production. For this purpose, HUVEC (human umbilical vein endothelial cells) were used to evaluate Vit. D effects on cell proliferation and migration in a 3D matrix. Experiments were also performed in the presence of the specific VDR ligand ZK159222 and eNOS inhibitor L-NAME. This study demonstrated that Vit. D can promote both HUVEC proliferation and migration in a 3D matrix. These effects were NO dependent, since HUVEC proliferation and migration were abrogated along with Vit. D induced MMP-2 expression by inhibiting eNOS activity by L-NAME. These findings support the role of Vit. D in the angiogenic process, suggesting new applications for Vit. D in tissue repair and wound healing.

Laser-induced osteoblast proliferation is mediated by ROS production.

Low-level laser therapy (LLLT) is widely used in regenerative medicine and in dental therapy by virtue of its beneficial effects in a plethora of pathological conditions. In this study, the effect of a 980 nm diode laser on pre-osteoblasts proliferation has been evaluated, along with reactive oxygen species (ROS) production. We hypothesized that ROS were a key factor in LLLT-induced pre-osteoblasts proliferation, as it is known that ROS can induce the activation of many biological pathways, leading to cell proliferation, differentiation or apoptosis. Murine pre-osteoblasts MC3T3 cells were irradiated with different energy outputs (1-50 J) in the absence or presence of the antioxidant N-Acetyl-L-cysteine (NAC). Laser treatment, in the absence of NAC, was able to induce a fluence-dependent statistically significant increase in ROS generation, while the presence of NAC strongly inhibited it. Cell proliferation, measured after laser stimulation, was significantly increased both at low and higher energy, with a peak at 10 J in the absence of the antioxidant. On the contrary, in the presence of NAC, laser irradiation was not able to induce any cell proliferation, suggesting a crucial role of ROS in this laser-induced cell effect. These results suggest that LLLT may be a useful tool for bone regeneration therapy and an effective range of fluences to be used is indicated.

1α,25-Dihydroxycholecalciferol (Vitamin D3) induces NO-dependent endothelial cell proliferation and migration in a three-dimensional matrix.

BACKGROUND/AIMS: The 1α,25-dihydroxycholecalciferol (Vit. D) induces eNOS dependent nitric oxide (NO) production in human umbilical vein endothelial cells (HUVEC). To our knowledge, there are no reports directly relating Vit. D induced NO production to proliferation and/or migration in endothelial cells (EC). The aim of this study was to evaluate whether Vit. D addition to porcine EC could affect their proliferation and/or migration in a three-dimensional matrix via NO production. MATERIALS AND METHODS: Porcine aortic endothelial cells (PAE) were used to evaluate Vit. D effects on cell proliferation and migration in a three-dimensional matrix. RESULTS: Vit. D induced NO production in PAE cells. Moreover, it induced a significant increase in cellular proliferation and migration in a three-dimensional matrix. These effects were NO dependent, as inhibiting eNOS activity by L-NAME PAE migration was abrogated. This effect was strictly related to MMP-2 expression and apparently dependent on Vit. D and NO production. CONCLUSIONS: Vit. D can promote both endothelial cells proliferation and migration in a three-dimensional matrix via NO-dependent mechanisms. These findings cast new light on the role of Vit. D in the angiogenic process, suggesting new applications for Vit. D in such fields as tissue repair and wound healing.

Epiregulin induces human SK-N-BE cell differentiation through ERK1/2 signaling pathway.

Epidermal growth factor (EGF) and other EGF-related growth factors, such as transforming growth factor-α, are able to stimulate neuroblastoma (NB) cell proliferation. Epiregulin (Epi) is a growth factor belonging to the EGF family known to be more potent than EGF in mediating mitogenic signals. In this study, we tested the ability of Epi to stimulate a human NB cell line (SK-N-BE) proliferation. Surprisingly, Epi (50-1000 ng/ml) induced a reduction in SK-N-BE proliferation along with a morphological differentiation, associated with an increase in MMP-9 expression. Moreover, Epi-induced differentiation was inhibited by ERK1/2 phosphorilation inhibition. In conclusion, Epi could represent a novel and useful tool to oppose NB cell proliferation.

Flow cytometry evidence of human granulocytes interaction with polyhedral oligomeric silsesquioxanes: effect of nanoparticle charge.

Nanoparticles (NPs) entering the human body are immediately confronted with the innate part of human immune system. In particular, monocyte and neutrophil granulocytes readily clear particles by phagocytosis, even if in the case of NPs the uptake mechanism may be classified as macropinocytosis. Among engineered nanoparticles, in the last years, siliceous materials have emerged as promising materials for several applications ranging from catalysis to biomedical. The polyhedral oligomeric silsesquioxanes (POSS) are nanodimensional, easily synthesizable molecular compounds and POSS-based systems are promising carriers for biological molecules. In this work, the ability of human granulocytes to uptake positively and negatively charged POSS was measured using a simple flow cytometry analysis based on cell size modifications. The data obtained showed that after a 30 min exposure only positive NPs were uptaken by human granulocyte using both macropinocytosis and clathrin-mediated mechanisms as demonstrated by uptake inhibition mediated by amiloride and chlorpromazine.

Low zoledronate concentrations stimulate human keratinocyte proliferation.

AIM: To evaluate, in an in vitro wound healing model, the effect of zoledronate on keratinocyte cellular behavior. MATERIALS AND METHODS: Human spontaneously immortalized keratinocytes (HaCaT) were treated with low zoledronate concentrations (10 nmol/l to 10 µmol/l) and its effect on cell proliferation was evaluated by means of a fluorescent assay (Tox-8), along with the analysis of cytokeratin 5 and filaggrin gene expression. Moreover, zoledronate effects on cell migration were evaluated by in vitro wound healing, and matrix metalloproteinase (MMP) activity was investigated by gelatin zymography. RESULTS: At the tested concentrations, zoledronate stimulated keratinocyte proliferation, upregulating cytokeratin 5 while downregulating filaggrin expression and wound healing ability, without any significant effect on MMP-9 activity. The lack of zoledronate effects on MMP-9 activity indicates that, in our experimental model, wound closure is mainly due to an increase in cell proliferation rather than an increase in cell migration. Moreover, the observed increase in cell proliferation could be ascribed to a zoledronate-mediated reduction of farnesyl pyrophosphate endogenous levels. CONCLUSIONS: These results could foster new clinical applications for this 'old' drug in the field of epithelial regeneration.