Association of AHSG gene polymorphisms with serum Fetuin-A levels in individuals with cardiovascular calcification in west of Iran

Molecular Biology Reports - Fetuin-A (AHSG) is a multifunctional secretory protein and acts as an ectopic valve and artery calcification inhibitor. We assessed the correlation between serum levels...     

Mechanism of desensitization of the Ca2(+)-mobilizing system to bombesin by Ha-ras. Independence from down-modulation of agonist-stimulated inositol phosphate production.

Expression of a transforming Ha-ras gene in NIH 3T3 cells transfected with an inducible Ha-ras construct leads to a rapid desensitization of the intracellular Ca2(+)-mobilizing system to bombesin and serum growth factors. Half-maximal depression of the Ca2+ response is observed 2 h after induction of p21ras. A maximum is obtained after 6 h. Bombesin-induced elevation of inositol 1,4,5-trisphosphate formation is also depressed in cells expressing Ha-ras. This, however, is a relatively late phenomenon and not yet detectable when maximal depression of the Ca2+ signal is observed. We conclude that the rapid densensitization of the Ca2(+)-releasing system to bombesin by Ha-ras is not caused by down-modulation or uncoupling of phospholipase C-coupled bombesin receptors. The inositol 1,4,5-trisphosphate-mediated release of intracellular Ca2+ is reduced in permeabilized cells expressing the Ha-ras oncogene. A depletion of intracellular Ca2+ stores by Ha-ras is unlikely since (i) the Ha-ras-induced growth factor-independent stimulation of inositol phosphate formation occurs several hours after reduction of the Ca2+ response and (ii) the Ca2+ load of intracellular nonmitochondrial Ca2+ stores was found to be unaffected by Ha-ras. We conclude that the desensitization of the Ca2(+)-mobilizing system is caused either by partial inhibition of inositol 1,4,5-trisphosphate-regulated Ca2+ channels or by interference of Ha-ras with Ca2+ translocation between intracellular Ca2+ compartments.     

Novel method to obtain highly enriched cultures of adult rat Schwann cells

Schwann cells (SCs) can be used to repair both the peripheral and central nervous systems. Therefore, establishment of a procedure to obtain activated, highly proliferative SCs, in an appropriate time for clinical applications, is a prerequisite. Purification is complicated by contamination with fibroblasts which often become the predominant cell type in an in vitro SC culture. This study describes a novel and efficient method to enrich SCs by utilizing the differential detachment properties of the two cell types. In culture, cells were treated with two different media and the chelator, EGTA, which detached SCs faster than fibroblasts and allowed for easy isolation of SCs. Within seven days, high yields of SCs with a purity of greater than 99% were achieved. This was confirmed by immunostaining characterization and flow-cytometric analyses using an antibody against the p75 low affinity nerve growth factor receptor (p75LNGFR). The entire procedure was completed in approximately 21 days. This method has the advantage of being technically easier, faster, and more efficient than other previously described methods. An SC culture that was about 99% homogenous was achieved.     

A semi-empirical model of apparent blood viscosity as a function of vessel diameter and discharge hematocrit

A semi-empirical model is developed to describe the dependence of apparent viscosity of blood on vessel diameter (2.7 to 500 microns) and vessel discharge hematocrit (5% to 60%). The blood flow is modeled as a cell-rich core and a cell-free marginal layer in the larger vessels and an axial-train in the smaller vessels. Laminar (Poiseuille) flow is assumed in all cases. An equation is derived in which apparent viscosity is a function of vessel diameter, core viscosity, and width of marginal layer. This is then complemented by empirical equations in which core viscosity varies exponentially with discharge hematocrit while the width of marginal layer varies linearly with discharge hematocrit. The model correlates well with several sets of experimental data and behaves according to the Fahraeus-Lindqvist effect. Predicted apparent viscosity tends to the expected finite value for large vessel diameters. Dependence of apparent viscosity on vessel diameter is realistically smooth in the whole diameter range.     

Oxidative Stress Parameters,Trace Elements,and Lipid Profile in Iranian Patients with Gaucher Disease

Biological Trace Element Research - Gaucher disease (GD) is most frequent disorder of glycolipid storage. The glucosylceramide accumulation might lead to oxidative stress and changes in lipid...