•Determination of d-glucaric acid (GA) and d-glucaro-1,4-lacton (1,4-GL) in apples.•The conversion of GA to 1,4-GL in water and in stomach of rat.•Higher contents of 1,4-GL in Gala apples.•Lower ratio of 1,4-GL to GA in Green Delicious than that in Red Delicious apples.d-Glucaric acid (GA) derivatives exhibit anti-cancerogenic properties in vivo in apples, but quantitative information about these derivatives is limited. Hydrophilic interaction-based HPLC with ultraviolet detection or mass spectrometry was developed to quantify GA and/or d-glucaro-1,4-lacton (1,4-GL) in apples. Although the formation of 1,4-GL from GA could be the prerequisite to exert biological effects in vivo, only a small portion of GA (<5%) was identified and converted to 1,4-GL in the rat stomach. The 1,4-GL content in apples ranged from 0.3 mg/g to 0.9 mg/g, and this amount can substantiate health claims associated with apples. The amount of 1,4-GL was 1.5 times higher in Gala and the ratio of 1,4-GL to GA was lower in Green Delicious apples than those in the other varieties. Our findings suggested that the variety and maturity of apples at harvest are factors that determine 1,4-GL content.

Combination of genistein (GT) and verapamil, a P-glycoprotein (P-gp) inhibitor, can increase GT absorption in situ perfusion technology in rat. To date, little information is yet available about the effect of verapamil on oral absorption of GT in vivo. In this study, a simple and reproducible HPLC–UV method was developed and validated for determination of total GT in rat plasma. Based on this, a pharmacokinetic experiment was designed to characterize biopharmaceutical properties of GT with or without coadministration of verapamil (10.0, 20.0, 30.0 mg/kg) in rats. The coadministration of verapamil (30.0 mg/kg) with GT caused a significant increase of the maximum GT plasma concentration (1.31-fold vs. GT, P < 0.05) and area under the curve (1.39-fold vs. GT, P < 0.05). Our data show that verapamil would increase intestinal absorption of GT in rat, suggesting there is some drug–nutrition interaction between verapamil and GT.

•Little knowledge about relationship between proteinuria and urinary metabolites of purine metabolism.•First report determinating urianry uric acid, xanthine, hypoxanthine and creatinine by HPLC-UV method.•Reduction of urianry uric acid/creatinine ratio in patients with proteinuria.•Reduction of urinary uric acid/hypoxanthine ratio in patients with proteinuria.Serum uric acid (UA) concentration is positively associated with proteinuria. However, the relationship between proteinuria and urinary metabolites of purine metabolism remains unknown. This study developed a hydrophilic interaction chromatography (HILIC)-based HPLC method with ultraviolet detection (UV) to quantify creatinine (Cr), UA, xanthine, and hypoxanthine in human urine simultaneously. The urinary concentrations of UA and Cr obtained by our method are consistent with those measured by an autoanalyzer. The HPLC-HILIC-UV method was validated as selective and robust with simple sample preparation for measuring UA, xanthine, hypoxanthine and Cr, which is suitable for large clinical studies. The UA/Cr ratios in random urine samples were 5.5 times lower in proteinuria patients (0.077 ± 0.008) than in healthy individuals (0.424 ± 0.037). Moreover, the UA/hypoxanthine ratio in proteinuria patients was approximately 10 times lower than that in healthy individuals. Our findings revealed a reduced urinary UA excretion, which is one of the factors leading to increased serum UA in proteinuria patients.

d-Glucaro-1,4-lactone (1,4-GL) has been shown to have a hypocholesterolemic effect in rats and human subjects. However, little information is known concerning the alteration of metabolome associated with the effect. Here, we show that 1,4-GL delays the development of hypercholesterolemia with the coadministration of a high-fat, high-cholesterol diet (HFHC) in rats. Metabonomic results based on proton nuclear magnetic resonance indicate that urinary trimethylamine N-oxide, trimethylamine, lactate, acetate, formate, and creatinine are significantly altered after 1,4-GL and HFHC treatments. Colonic flora test results reveal that the quantity of Bifidobacterium and Lactobacillus in the intestines respectively increase by about 1.7- and 4.2-fold in rats treated with 1,4-GL compared with those in the control group. Rats that were coadministered with HFHC and 1,4-GL exhibit normal levels of lactate and acetate in serum and display urinary excretions of lactate and acetate that are 2 to 3 times higher compared with those treated with HFHC alone. The results imply that the increased probiotic quantities and urinary excretion of breakdown products of fat/cholesterol after 1,4-GL treatment contribute to the prevention of hypercholesterolemia. Our study offers insights into the model of action for 1,4-GL in preventing hypercholesterolemia.

•Development and validation of 1H NMR method for rapid determination of alendronate sodium in tablets.•The contents of alendronate sodium in tablets from five manufacturers were measured.•Alendronate tablet dissolution assay was performed based on the 1H NMR method.Determination of alendronate is crucial to routine quality control of alendronate tablets. However, tedious sample treatment processes such as derivatization were generally required by chromatographic separation of alendronate as its high polarity and no chromophore in the molecular structure. Here, we describe the use of 1H NMR for the quantification of alendronate sodium in tablets. Linearity, recovery, selectivity and sensitivity of the assay were validated to be satisfactory with quick sample preparation and acquisition. The contents of alendronate sodium in tablets from five manufacturers were determined, the results showed that all assayed tablets fell within the range of 90.0–110.0% of the label claim and the relative standard deviation was less than 6.0%. The method was also successfully employed for alendronate tablet dissolution assay in this study.