Jin Tokunaga

The citrus flavonoids hesperetin and naringenin block the lipolytic actions of TNF-α in mouse adipocytes

Obese adipose tissue is characterized by an excessive production of inflammatory adipokines including tumor necrosis factor-alpha (TNF-alpha). TNF-alpha stimulates free fatty acid (FFA) secretion through adipocyte lipolysis, and increased plasma levels of FFA promote insulin resistance. In this report, we show that hesperetin and naringenin, two citrus flavonoids, inhibit TNF-alpha-stimulated FFA secretion from mouse adipocytes. These flavonoids block the TNF-alpha-induced activation of the NF-kappaB and ERK pathways. Moreover, hesperetin and naringenin prevent TNF-alpha from downregulating the transcription of two antilipolytic genes, perilipin and PDE3B. These effects are mediated through the inhibition of the ERK pathway. In contrast, the inhibition of the NF-kappaB pathway by hesperetin and naringenin suppresses the transcription of IL-6, which induces FFA secretion in an autocrine manner. Our results provide novel evidence that hesperetin and naringenin directly inhibit TNF-alpha-stimulated FFA secretion. These findings may be useful for ameliorating FFA-induced insulin resistance.

Influences of haemodialysis on the binding sites of human serum albumin: possibility of an efficacious administration plan using binding inhibition

BACKGROUNDnWe have studied the possibility that low-dose treatment utilizing the inhibition that may occur between two drugs at the same site of human serum albumin (HSA) improves the pharmacological effects. The purpose is to elucidate the differences in the binding capacities of sites I and II of HSA between pre-haemodialysis (HD) and post-HD in patients with end-stage renal disease.nnnMETHODSnWe evaluated free fractions of site probes, (14)C-warfarin (site I) and (14)C-diazepam (site II), by ultrafiltration in serum between pre-HD and post-HD. To investigate effects on the binding capacities of HSA sites, free fractions of site probes were calculated from the radioactivities measured with a liquid scintillation counter. Endogenous uraemic toxins, 3-carboxy-4-methyl-5-propyl-2-furanpropionate (CMPF), indoxyl sulphate (IS) and hippurate (HA), were determined by HPLC. Free fatty acid (FFA) as an endogenous substance was determined with an automatic multi-item simultaneous analyser.nnnRESULTSnThe concentrations of HSA and FFA increased significantly (post-HD/pre-HD ratio: 1.18 +/- 0.10, 5.46 +/- 4.91), the concentrations of IS and HA decreased significantly (post-HD/pre-HD ratio: 0.69 +/- 0.10, 0.33 +/- 0.15) and CMPF concentrations did not alter significantly (post-HD/pre-HD ratio: 0.97 +/- 0.12, P = 0.471). The free fractions of (14)C-warfarin decreased in all 14 patients at site I at post-HD compared to pre-HD (post-HD/pre-HD ratio: 0.59 +/- 0.13). The free fractions of (14)C-diazepam at site II remarkably decreased in 10 of 14 patients (post-HD/pre-HD ratio: 0.61 +/- 0.17) and unexpectedly increased in 4 (post-HD/pre-HD ratio: 1.08 +/- 0.06) post-HD compared to pre-HD. In these four patients, when we investigated the influences of these variation factors on the reduction of the binding capacities of site II, [FFA]/[HSA] increased significantly post-HD, compared to pre-HD (post-HD/pre-HD ratio: 6.91 +/- 6.58). ([FFA]/[HSA] ratios of the 4 patients were from 1.22 to 3.55, the highest for the 14 patients post-HD, but the ratios of the other 10 were below 1.2 post-HD.)nnnCONCLUSIONnThe binding capacity of site II was unexpectedly decremented by the effects of the remarkable elevation of FFA. Therefore, monitoring the binding capacity of site II in HD is important for patients with end-stage renal disease in the efficacious administration plan using the binding inhibition of HSA.

A diclofenac suppository–nabumetone combination therapy for arthritic pain relief and a monitoring method for the diclofenac binding capacity of HSA site II in rheumatoid arthritis

Diclofenac suppository, a non‐steroidal anti‐inflammatory drug (NSAID), is used widely in rheumatoid arthritis (RA) patients with severe arthritic pain. As the binding percentage of diclofenac to serum proteins is high, its free (unbound) concentration after rectal administration is low. To increase temporarily the free concentration of diclofenac and to enhance its analgesic effect by inhibiting the protein binding of diclofenac, the analgesic effect of diclofenac was examined before and after the start of an inhibitor administration to RA patients with insufficient control of arthritic pain, and the protein binding capacity of diclofenac was evaluated. Binding experiments were performed by ultrafiltration, and arthritic pain was recorded by the face scale. Free fractions of diazepam and diclofenac were augmented by increasing 6‐methoxy‐2‐naphthylacetic acid (6‐MNA; the active metabolite of the NSAID nabumetone) concentrations. The free fraction of diazepam increased after the start of nabumetone administration to RA patients, and arthritic pain relief was observed. These results suggest that 6‐MNA has an inhibitory effect on the protein binding of diclofenac and the free fraction of diazepam can be used to evaluate the binding capacity of diclofenac. It is considered that diclofenac suppository–nabumetone combination therapy and the method for protein binding monitoring by diazepam can positively benefit RA patients with insufficient control of arthritic pain. Copyright

Dosage plan of a flurbiprofen injection product using inhibition of protein binding by lipid emulsion in rats

Flurbiprofen‐axetil (FP‐ax), a bolus injection product of a non‐steroidal anti‐inflammatory drug (NSAID), is a prodrug of flurbiprofen, an NSAID. As flurbiprofen strongly binds to site II of human serum albumin (HSA), the free (unbound) concentration of flurbiprofen after injection of FP‐ax is low. We have examined the inhibitory effect of free fatty acid (FFA), a binding inhibitor for site II of HSA, on the binding of flurbiprofen in‐vitro and in‐vivo by ultrafiltration, to establish an effective dosage of FP‐ax. In‐vitro, fatty acid mixtures (FAs) inhibited the binding of flurbiprofen to rat serum albumin. The free fraction of flurbiprofen was remarkably increased by FAs in rat serum. In‐vivo, FP‐ax was injected into a control group (low FFA concentration in serum) and a lipid emulsion group (high FFA concentration in serum). The area under the curve of the free concentration of flurbiprofen during the alpha phase and the distribution volume of the central compartment of flurbiprofen were significantly higher in the lipid emulsion group than the control group (5.0‐ and 1.2‐times, respectively). When FP‐ax was administered at high FFA concentration, the free concentration of flurbiprofen and distribution of flurbiprofen to tissues increased transiently. This administration method may be useful for patients with cancer pain, having a potent analgesic effect.

Albumin-binding of diclofenac and the effect of a site II inhibitor in the aqueous humor of cataract patients with the instillation of diclofenac.

Diclofenac instillation has been used widely in cataract surgery to prevent postoperative inflammation. Since diclofenac binds strongly to albumin in the circulation, it does not have a sufficient effect on patients in whom diclofenac binds strongly to albumin in the aqueous humor. A decrease in diclofenac binding and an increase in free diclofenac levels are necessary in these patients. The binding of diclofenac to albumin was investigated in the aqueous humor. In a diclofenac binding assay with albumin in the aqueous humor of individual patients, diclofenac was extracted from aliquots of the aqueous humor, and its total levels were measured using ultra high performance liquid chromatography (UHPLC). Free diclofenac levels were measured using ultrafiltration and UHPLC. The albumin‐binding fraction of diclofenac was 0.8 or higher in the aqueous humor of some patients. Ibuprofen significantly inhibited diclofenac binding to site II of albumin in mimic aqueous humor, but not in pooled aqueous humor. This difference may have been due to the weak binding of diclofenac to site II in the pooled aqueous humor. Flurbiprofen was used instead of diclofenac. Flurbiprofen has been shown to bind more strongly than diclofenac to the same site of albumin. Thus, the inhibitory effect of ibuprofen on the binding of flurbiprofen to albumin was investigated in pooled aqueous humor. The results indicated that ibuprofen significantly inhibited the flurbiprofen binding. An effective diclofenac administration method may be established for clinical application by the instillation of an appropriate inhibitor of binding to the albumin site II. Copyright

Influences of artificial heart-lung machine operation on the binding sites of albumin: Possibility of an effective administration plan

Purpose The purpose of this study is to investigate the influence of changes in the human serum albumin (HSA) and free fatty acid (FFA) on alteration of the binding abilities of sites I and II after the operation of an artificial heart-lung machine. Methods The binding abilities of phenytoin (site I) and diazepam (site II) to patients’ sera collected before and after the operation of an artificial heart-lung machine and pseudopatient serum samples were examined by ultra-filtration. Results The binding ability of site I markedly decreased after the operation of an artificial heart-lung machine in all patients, and the binding ability of site II unexpectedly increased in some patients. The variation in pseudopatient serum was similar to that in the patient sera. Conclusions The difference in the binding ability between sites I and II was due to that the fact that the binding ability of site I is more strongly influenced by HSA level reduction than by [FFA]/[HSA] reduction, whereas the binding ability of site II is more strongly influenced by [FFA]/[HSA] reduction than by HSA level reduction in some patients. Therefore, it may be possible to predict the binding ability of site I by monitoring the HSA level without directly monitoring the free phenytoin fraction (%).

Anti-human very late antigen-α4 (CD49d) monoclonal antibody (BU49) cross-reacts with the canine B-cell leukemia cell line GL-1, resulting in the induction of homotypic cell aggregation

We have found that the anti-human very late antigen-alpha4 (VLA-alpha4) (CD49d) monoclonal antibody (mAb) BU49 cross-reacts with the canine B-cell leukemia cell line GL-1. Interestingly, the BU49 mAb specifically induced the homotypic cell aggregation of GL-1 cells accompanied by morphological changes. Homotypic cell aggregates induced by BU49 mAb were blocked by the presence of a protein kinase C inhibitor, a protein kinase A inhibitor, an actin filament formation inhibitor, and an EDTA. On the other hand, a protein tyrosine kinase inhibitor, a DNA-synthesis inhibitor, and an anti-canine CD45 mAb did not affect the GL-1 homotypic cell aggregation induced by BU49 mAb. The BU49 mAb immunoprecipitated at a molecular weight of about 150kDa in the GL-1 cells, similar to the results in the human monocyte-like cell line U937. Taken together, our results provide the first evidence that human CD49d recognized by BU49 mAb has unique immunological functions against canine cells.

Establishment of a new initial dose plan for vancomycin using the generalized linear mixed model

BackgroundWhen administering vancomycin hydrochloride (VCM), the initial dose is adjusted to ensure that the steady-state trough value (Css-trough) remains within the effective concentration range. However, the Css-trough (population mean method predicted value [PMMPV]) calculated using the population mean method (PMM) often deviate from the effective concentration range. In this study, we used the generalized linear mixed model (GLMM) for initial dose planning to create a model that accurately predicts Css-trough, and subsequently assessed its prediction accuracy.MethodsThe study included 46 subjects whose trough values were measured after receiving VCM. We calculated the Css-trough (Bayesian estimate predicted value [BEPV]) from the Bayesian estimates of trough values. Using the patients’ medical data, we created models that predict the BEPV and selected the model with minimum information criterion (GLMM best model). We then calculated the Css-trough (GLMMPV) from the GLMM best model and compared the BEPV correlation with GLMMPV and with PMMPV.ResultsThe GLMM best model was {[0.977u2009+u2009(males: 0.029 or females: -0.081)]u2009×u2009PMMPVu2009+u20090.101u2009×u2009BUN/adjusted SCr – 12.899u2009×u2009SCr adjusted amount}. The coefficients of determination for BEPV/GLMMPV and BEPV/PMMPV were 0.623 and 0.513, respectively.ConclusionWe demonstrated that the GLMM best model was more accurate in predicting the Css-trough than the PMM.

A novel injection strategy of flurbiprofen axetil by inhibiting protein binding with 6-methoxy-2-naphthylacetic acid

Flurbiprofen axetil (FPA) is an injection product and a prodrug of a non-steroidal anti-inflammatory drug (NSAID). After injection, it is rapidly hydrolyzed to the active form, flurbiprofen (FP). Since frequent injections of FPA can lead to abnormal physiology, an administration strategy is necessary to ensure there is enhancement of the analgesic efficiency of FP after a single dose and to reduce the total number of doses. FP strongly binds to site II of albumin, and thus the free (unbound) FP concentration is low. This study focused on 6-methoxy-2-naphthylacetic acid (6-MNA), the active metabolite of nabumetone (a prodrug of NSAID). We performed ultrafiltration experiments and pharmacokinetics analysis in rats to investigate whether the inhibitory effect of 6-MNA on FP binding to albumin increased the free FP concentration in vitro and in vivo. Results indicated that 6-MNA inhibited the binding of FP to albumin competitively. When 6-MNA was injected in rats, there was a significant increase in the free FP concentration and the area under concentration–time curve (AUC) calculated from the free FP concentration, while there was a significant decrease in the total (boundxa0+xa0free) FP concentration and the AUC calculated from the total FP concentration. These findings indicate that 6-MNA inhibits the protein binding of FP in vivo. This suggests that the frequency of FPA injections can be reduced when administered with nabumetone, as there is increase in the free FP concentration associated with pharmacological effect.