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Vijayaraj PS Muthukumar K Sabarirajan J Nachiappan V 《Indian journal of biochemistry & biophysics》2011,48(1):54-58
Hyperlipidemia is a major risk factor for development of coronary artery disease. Cassia auriculata is traditionally used in India for medicinal purposes. In this study, effect of ethanolic extract of Cassia auriculata flowers (Et-CAF) was investigated in Triton WR1339-induced hyperlipidemic rats. Treatment with the Et-CAF (450 mg/kg b.wt) significantly reduced the total cholesterol (TC), triglycerides (TG) and low-density lipoprotein-cholesterol (LDL) levels and significantly increased the high-density lipoprotein (HDL) level associated with reduction of atherogenic index in hyperlipidemic rats. However, there was no change in the serum lipid profile of normal rats treated with Et-CAF alone. The results suggest that Et-CAF has a beneficial effect in treating hyperlipidemia and may serve as a potential drug for prevention of hyperlipidemic atherosclerosis. 相似文献
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Bulbule Sarojini R. Aravind P. Hemalatha N. Devaraju K. S. 《International journal of peptide research and therapeutics》2019,25(4):1251-1258
International Journal of Peptide Research and Therapeutics - Calcineurin (CaN) plays an important role in many pathological conditions like cancer, metabolic aberrations and neurodegenerative... 相似文献
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Dinesh Goswami A Suresh PS Thirunavukkarasu C Weiergräber OH Kumar MS 《Bioinformation》2011,7(1):21-28
The neutral sphingomyelinase (N-SMase) is considered a major candidate for mediating the stress-induced production of ceramide, and it plays an important role in cell-cycle arrest, apoptosis, inflammation, and eukaryotic stress responses. Recent studies have identified a small region at the very N-terminus of the 55 kDa tumour necrosis factor receptor (TNF-R55), designated the neutral sphingomyelinase activating domain (NSD) that is responsible for the TNF-induced activation of N-SMase. There is no direct association between TNF-R55 NSD and N-SMase; instead, a protein named factor associated with N-SMase activation (FAN) has been reported to couple the TNF-R55 NSD to N-SMase. Since the three-dimensional fold of N-SMase is still unknown, we have modeled the structure using the protein fold recognition and threading method. Moreover, we propose models for the TNF-R55 NSD as well as the FAN protein in order to study the structural basis of N-SMase activation and regulation. Protein-protein interaction studies suggest that FAN is crucially involved in mediating TNF-induced activation of the N-SMase pathway, which in turn regulates mitogenic and proinflammatory responses. Inhibition of N-SMase may lead to reduction of ceramide levels and hence may provide a novel therapeutic strategy for inflammation and autoimmune diseases. Molecular dynamics (MD) simulations were performed to check the stability of the predicted model and protein-protein complex; indeed, stable RMS deviations were obtained throughout the simulation. Furthermore, in silico docking of low molecular mass ligands into the active site of N-SMase suggests that His135, Glu48, Asp177, and Asn179 residues play crucial roles in this interaction. Based on our results, these ligands are proposed to be potent and selective N-SMase inhibitors, which may ultimately prove useful as lead compounds for drug development. 相似文献
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Min-Yu Sun Prakash Devaraju Alison Xiaoqiao Xie Isabelle Holman Emmelyn Samones Thomas R. Murphy Todd A. Fiacco 《Cell calcium》2014
Astrocyte Gq GPCR and IP3 receptor-dependent Ca2+ elevations occur spontaneously in situ and in vivo. These events vary considerably in size, often remaining confined to small territories of astrocyte processes called “microdomains” and sometimes propagating over longer distances that can include the soma. It has remained unclear whether these events are driven by constitutive (basal) GPCR signaling activity, neuronal action potential-dependent or quantal vesicular release, or some combination of these mechanisms. Here, we applied manipulations to increase or inhibit neuronal vesicular neurotransmitter release together with low-level stimulation of Schaffer collaterals in acute mouse hippocampal slices in an effort to determine the mechanisms underlying spontaneous astrocyte Ca2+ events. We found no significant change in spontaneous microdomain astrocyte Ca2+ elevations when neuronal action potentials were significantly enhanced or blocked. The astrocyte Ca2+ activity was also not affected by inhibitors of group I mGluRs. However, blockade of miniature neurotransmitter release using Bafilomycin A1 significantly reduced the frequency of microdomain astrocyte Ca2+ elevations. We then tested whether astrocyte Ca2+ microdomains can be evoked by low intensity SC stimulation. Importantly, microdomains could not be reproduced even using single, low intensity pulses to the SCs at a minimum distance from the astrocyte. Evoked astrocyte Ca2+ responses most often included the cell soma, were reduced by group I mGluR antagonists, and were larger in size compared to spontaneous Ca2+ microdomains. Overall, our findings suggest that spontaneous microdomain astrocyte Ca2+ elevations are not driven by neuronal action potentials but require quantal release of neurotransmitter which cannot be replicated by stimulation of Schaffer collaterals. 相似文献