The effects of combination therapy with niceritrol and pravastatin on hyperlipidaemia.

In the present study, we evaluated the effects of combination therapy with niceritrol and pravastatin in patients with hyperlipidaemia. A total of 62 patients with hyperlipidaemia, defined as total cholesterol levels above 220 mg/dl or triglyceride levels above 150 mg/dl, were recruited. Patients were divided into two groups: Group N received initial therapy with niceritrol 750-1500 mg/day, and those in Group P, pravastatin 10 mg/day. After 8 weeks, pravastatin 10 mg/day was added to the Group N treatment regimen for a further 8 weeks, while patients in Group P were given niceritrol 750-1500 mg/day in addition to pravastatin for 8 weeks. After the 8-week combination therapy study period, total cholesterol levels were 209.6 mg/dl in Group N and 220.7 mg/dl in Group P. Decreased triglyceride and lipoprotein(a) levels and increased high-density lipoprotein cholesterol levels, neither of which were achieved by pravastatin administration alone, were achieved with the combination of pravastatin and niceritrol. We conclude that when a single lipid-lowering drug fails to show therapeutic value, attempting combination therapy with a nicotinic acid preparation and a 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor (statin) is worthwhile.

Trehalose sensitivity in Drosophila correlates with mutations in and expression of the gustatory receptor gene Gr5a.

Drosophila taste gene Tre is located on the distal X chromosome and controls gustatory sensitivity to a subset of sugars [1, 2]. Two adjacent, seven-transmembrane domain genes near the Tre locus are candidate genes for Tre. One (CG3171) encodes a rhodopsin family G protein receptor [3, 4], and the other (Gr5a) is a member of a chemosensory gene family encoding a putative gustatory receptor [5-7]. We carried out molecular analyses of mutations in Tre to elucidate their involvement in the gustatory phenotype. Here, we show that Tre mutations induced by P element-mediated genomic deletions disrupt Gr5a gene organization and the expression of Gr5a mRNA, while disruption of the CG3171 gene or its expression was not always associated with mutations in Tre. In flies with the spontaneous mutation Tre(01), both CG3171 and Gr5a mRNAs are transcribed. Coding sequences of these two candidate genes were compared among various strains. A total of three polymorphic sites leading to amino acid changes in CG3171 were not correlated with the gustatory phenotype. Among four nonsynonymous sites in Gr5a, a single nucleotide polymorphism leading to an Ala218Thr substitution in the predicted second intracellular loop cosegregated with Tre(01). Taken together, the mutation analyses support that Gr5a is allelic to Tre.

Doxazosin, an alpha1-adrenergic antihypertensive agent, decreases serum oxidized LDL.

Oxidized low-density lipoprotein (ox-LDL) is well known to play an important role in atherogenesis through the recruitment of monocytes into vessel walls and the deposition of cholesterol ester in the macrophages, which leads to the formation of lipid-rich plaque. It was assumed that only trace amounts of ox-LDL were present in plasma because the half-life of ox-LDL was only a few minutes. Recently, through the use of a monoclonal antibody against ox-LDL, a quantitative method to measure serum ox-LDL concentration has been developed. Metabolites of doxazosin, an alpha1-adrenergic antihypertensive agent, have been reported to inhibit oxidation of LDL in vitro. In this study, we investigated the in vivo effect of doxazosin on LDL oxidation using this new method to measure serum ox-LDL concentration. After the administration of doxazosin for 1 to 2 months, serum concentration of ox-LDL decreased significantly (P < .05). Although the reduction of ox-LDL concentration does not strictly indicate doxazosin's antiatherosclerotic effect, it may constitute one of doxazosin's additional weapons beside lowering blood pressure and serum lipid values in the prevention of atherosclerosis.