Cross-national comparisons of increasing suicidal mortality rates for Koreans in the Republic of Korea and Korean Americans in the USA, 2003-2012.

AIMS: Korea has the highest suicide rate of developed countries, two times higher than the USA. Suicide trends among Koreans Americans living in the USA during the same period have not yet been described. We report suicide mortality rates and trends for four groups: (1) Korean Americans, (2) non-Hispanic White (NHW) Americans, (3) selected Asian American subgroups and (4) Koreans living in the Republic of Korea. METHODS: We used US national (n = 18 113 585) and World Health Organization (WHO) (n = 232 919 253) mortality records for Korea from 2003 to 2012 to calculate suicide rates, all expressed per 100 000 persons. We assessed temporal trends and differences in age, gender and race/ethnicity using binomial regression. RESULTS: Suicide rates are highest in Koreans living in the Republic of Korea (32.4 for men and 14.8 for women). Suicide rates in Korean Americans (13.9 for men and 6.5 for women) have nearly doubled from 2003 to 2012 and exceed rates for all other Asian American subgroups (5.4-10.7 for men and 1.6-4.2 for women). Suicide rates among NHWs (21.0 for men and 5.6 for women) remain high. Among elders, suicide in Korean Americans (32.9 for men and 15.4 for women) is the highest of all examined racial/ethnic groups in the USA. CONCLUSIONS: Suicide in Korean Americans is higher than for other Asian Americans and follows temporal patterns more similar to Korea than the USA. Interventions to prevent suicide in Korean American populations, particularly among the elderly, are needed.

Active transport of fluorescent P-glycoprotein substrates: evaluation as markers and interaction with inhibitors.

With P-glycoprotein (P-gp) continuing to have prominence among the ABC transporters for its ability to remove various xenobiotics from many cell types, accurate and robust methods for estimating the exposure of drug, carcinogen, toxicant, pesticide, and even some endobiotics to tissues and cells affected by P-gp are valuable. The inhibition of P-gp active transport of molecules, therefore, has often been quantified by concentration dependence of inhibitor effect on fluorescent substrate marker efflux mediated by this enzyme, with much evidence indicating two asymmetric yet interdependent substrate binding sites on P-gp. A uniqueness in the pair of binding sites could result in distinct effects of an inhibitor on the transport of certain substrates, thus leading to differences in fluorescent substrate responsiveness or sensitivity. Seven different fluorescent substrates of P-gp were quantitatively tested for their responsiveness to inhibition by a wide range of P-gp substrates/inhibitors. Interesting differences were observed in the IC(50) values caused by each of the inhibitors employed, in part exemplified by DNR and LDS being generally more sensitive to inhibition effects than any other fluorescent marker. However, no clear trend emerged to designate any fluorochrome marker as the most or least responsive to inhibition. Furthermore, LDS is more sensitive to some P-gp inhibitors than the substrate marker DNR, generally the most responsive. These results support the assertion of two unequal substrate binding sites that are allosterically dependent on each other. Therefore, an inhibitor that favors binding to the site opposite from that favored by a particular marker may have significant transduced effects through the protein between the two binding sites. Nevertheless, although either DNR or LDS is generally the fluorescent substrate most responsive to inhibition, there may be other substrates yet even more sensitive.

Inhibition of P-glycoprotein transport function by grapefruit juice psoralen.

PURPOSE: The grapefruit juice component bergamottin is known to inactivate cytochrome P450 3A4, with grapefruit juice consumption causing increased absorption and enhanced oral bioavailability of many cytochrome P450 3A4 substrates. Many of these substrates are also recognized by the efflux transporter P-glycoprotein. The gene product of MDR1 (multidrug resistance transporter), P-glycoprotein also confers protection against xenobiotics. METHODS: Using a whole ceil assay in which the retention of a marker substrate is evaluated and quantified, we studied the ability of grapefruit juice components to inhibit the function of this transporter. RESULTS: In a cell line presenting an overexpressed amount of the human transporter, the enzyme exhibited a 40 microM IC50 for inhibition by bergamottin. Additionally, using the ATP-hydrolysis assay, we showed that bergamottin increases P-gp-mediated ATP hydrolysis by approximately 2.3 fold with a Km of 8 microM. The concentration for this interaction is similar to that for CYP3A4 inactivation. CONCLUSIONS: These results suggest that observed grapefruit juice drug pharmacokinetic clinical interactions may be due to P-gp inhibition rather than or in addition to CYP3A4 inhibition. Inhibition of P-gp by citrus psoralens could present ways both to enhance bioavailability of therapies without increasing the dose and to diminish drug resistance in refractory cells.

Evaluation of the interaction of loratadine and desloratadine with P-glycoprotein.

The absorption of many drugs is affected by their interaction with ATP-binding cassette (ABC) transporters. The most extensively studied of these ABC transporters is the proein product of MDR1 (multidrug resistance) that encodes a 170-kDa integral plasma membrane phosphorylated glycoprotein known as P-glycoprotein (P-gp). The purpose of this study was to determine, using two different methods, whether the nonsedating antihistamine loratadine (L) and its active metabolite desloratadine (DL) interact with P-gp. MDR cells presenting human P-gp were incubated with the fluorescent P-gp substrate daunorubicin with or without L, DL, and several positive controls. The IC(50) of loratadine (approximately 11 microM) was approximately 160 times the maximum observed plasma concentration (C(max)) following a dose of 10 mg. The IC(50) of desloratadine (approximately 43 microM) was approximately 880 times the C(max) following a dose of 5 mg. The positive control, cyclosporin A, had an IC(50) of approximately 1 microM. ATP hydrolysis activity was measured in the membrane fraction prepared from MDR cells presenting P-gp, which were exposed to various concentrations of test compounds. Known substrates of P-gp demonstrated clear, repeatable, concentration-dependent increases in ATP hydrolysis activity. L caused an increase in ATPase activity above basal levels. L had a V(max) about 200% basal activity and K(m) of approximately 3 microM for P-gp. In contrast, DL had no significant effect on baseline ATP hydrolysis. L inhibited human P-gp much less than verapamil or cyclosporin A. DL inhibited human P-gp significantly less than L (4 times). DL therefore is not a significant inhibitor of P-gp and should not cause clinical drug interactions with agents that are P-gp substrates.

Cooperativity in the inhibition of P-glycoprotein-mediated daunorubicin transport: evidence for half-of-the-sites reactivity.

P-Glycoprotein (Pgp) is an important transport enzyme composed of two homologous domains and transports a wide range of structurally diverse xenobiotics from the cell. Recent studies have indicated that allosteric interactions occur between the nucleotide binding domains and between the substrate binding domains of the two halves, but the extent of this interaction as well as the means by which the enzyme can transport such a wide variety of substrates has not been elucidated. Herein, the Pgp-mediated transport of a marker substrate, daunorubicin (DNR), out of viable cells was examined in the presence of a variety of other known substrates of Pgp. For most of the typical Pgp substrates examined, the relationship between inhibition of DNR efflux and competing substrate concentration was sigmoidal and therefore not a simple mutually exclusive competitive inhibition of transport. The Hill coefficient ranged from about 3 to 5 for the inhibition of transport of DNR. This negative cooperativity in combination with recent evidence, including several examples of noncompetitive inhibition between the homologous halves of Pgp, indicates a "half-of-the-sites" reactivity. Our data support the mechanistic proposal that substrate binding at one putative transport binding site precludes activity at another unequal site; many of the substrates examined exert a negative allosteric effect on the other transport site (and vice versa). A half-of-the-sites reactivity model would account for many of these observations and may be critical to the efficiency of Pgp substrate transport of a broad spectrum of compounds.

Two transport binding sites of P-glycoprotein are unequal yet contingent: initial rate kinetic analysis by ATP hydrolysis demonstrates intersite dependence.

The ATP-dependent transport enzyme known as P-glycoprotein (P-gp) confers multidrug resistance (MDR) against many unrelated drugs and xenobiotics. To understand better the broad substrate specificity of the enzyme as well as the mechanism of substrate transport out of the cell, it is critical to characterize the substrate binding sites. Since approximately 1 ATP is hydrolyzed per transport event, phosphate release rate provides a steady-state kinetics assay. Notably, the substrate H33342 causes a decrease in the baseline hydrolysis of ATP (probably due to competition for transport with an endogenous membrane lipid substrate) providing an excellent tool for a comprehensive graphical kinetic analysis of the interaction of substrate pairs at the transport site(s) allowing the determination of inhibition type and hence characterization of transport binding sites. The substrate H33342 interacted with quinidine, progesterone, and propranolol in a non-competitive manner, indicating that binding of H33342 precludes active transport of these other substrates at a distinct site. Compounds such as TPP+ and verapamil, and perhaps also nicardipine, interacted with H33342 as mixed-type inhibitors. This type of interaction results from a reduced affinity at the opposing active site by a factor of alpha and sometimes a partial activity of a fraction beta. Indeed, H33342 binding caused a roughly four-fold reduced affinity for TPP+. Using this definitive approach to inhibition kinetics, we were able to establish traits of a second transport site in P-gp. Therefore, the sites are unequal; however, the performance at one site is contingent on the other being unoccupied, and transport is also sometimes mitigated when the other site is occupied.

Mice transgenic for monocyte-tropic HIV type 1 produce infectious virus and display plasma viremia: a new in vivo system for studying the postintegration phase of HIV replication.

To generate an in vivo system for investigating the postintegration phase of HIV-1 replication, mouse lines transgenic for a full-length infectious proviral clone of a monocyte-tropic HIV-1 isolate, HIV-1JR-CSF, were constructed. Leukocytes from two independent JR-CSF transgenic mouse lines produced HIV-1 that infected human PBMCs. Plasma viremia was detected in these mice at levels (mean, >60,000 HIV RNA copies/ml) comparable to those reported for HIV-1-infected individuals. The levels of HIV RNA in these mice increased several-fold after either treatment with the superantigen Staphylococcus enterotoxin B or infection with Mycobacterium tuberculosis. Thus, a provirus encoding a monocyte-tropic HIV-1 strain under the control of its LTR expressed as a transgene in mice can proceed through the postintegration replication phase and produce infectious virus. In addition, the presence of plasma viremia that can be monitored by measuring plasma HIV-1 RNA levels permits these mice to be used to study the impact of different interventions on modulating in vivo HIV-1 production. Therefore, these mice provide a novel manipulable system to investigate the in vivo regulation of HIV-1 production by factors that activate the immune system. Furthermore, this murine system should be useful in delineating the role of human-specific factors in modulating HIV-1 replication and investigating the in vivo therapeutic efficacy of agents that target the postintegration stages of HIV-1 replication.

In vitro flow cytometry method to quantitatively assess inhibitors of P-glycoprotein.

P-glycoprotein (Pgp)-mediated drug efflux is a major factor contributing to the variance of absorption and distribution of many drugs. A simple and reliable in vitro method to identify inhibitors of Pgp helps to prevent the potential of drug interactions. Using daunorubicin as a fluorescent marker and vanadate as a positive control compound, a functional flow cytometry method for assessing the ability of a drug to inhibit Pgp-mediated drug efflux from CR1R12 multidrug-resistant cells has been evaluated. Quantitation of the relative fluorescence was used to compare potency of individual inhibitors. Known Pgp inhibitors, such as cyclosporin A, nicardipine, verapamil, quinidine, terfenadine, tamoxifen, and vinblastine were demonstrated to inhibit the Pgp-mediated efflux of daunorubicin. Cyclosporin A and terfenadine were the most potent inhibitors among the compounds tested. Tetraphenylphosphonium and alpha-tocopherol had little inhibitory effect. Progesterone produced significant inhibition at relatively high concentrations. This study demonstrated that this in vitro flow cytometry method is a simple, sensitive, and quantitative tool to assess the capacity of a drug to inhibit Pgp transporters, and is useful for screening or identifying inhibitors of Pgp as well as evaluation of potential for drug interactions.

Ethanol down-regulates the transcription of microsomal triglyceride transfer protein gene.

Microsomal triglyceride transfer protein (MTP) plays a central role in the assembly and secretion of apoB-containing lipoproteins. In this study, we investigated the effect of ethanol on the expression of the large subunit of MTP in a human liver hepatoma cell line, the HepG2 cells. Exposure of HepG2 cells to low concentrations of ethanol reduced MTP mRNA levels in a concentration- and time-dependent manner. The level of MTP mRNA decreased significantly (P<0.05, -26% relative to pretreatment control) when the concentration of ethanol in the culture medium was 50 ppm (0.005%, v/v). Maximal suppression (-50%) was observed at 100 ppm ethanol; the MTP mRNA levels remained at 50% of control when the ethanol concentration was raised to 10,000 ppm. Furthermore, a 10-day ethanol treatment caused a significant 50% decrease in the MTP activity and apoB secretion rate in HepG2 cells. To investigate the molecular mechanisms underlying this phenomenon, we examined the effect of ethanol on the promoter activity of the MTP gene. Transient transfection analysis of human MTP promoter-driven luciferase gene expression showed that ethanol down-regulates MTP promoter activity in a manner parallel to that observed for mRNA levels. Deletion analysis suggested that the MTP promoter sequence contains a negative ethanol response element -612 to -142 bp upstream of the transcription start site. To evaluate the in vivo relevance of the effect of ethanol on MTP mRNA levels, rats were given a single oral dose of ethanol, with hepatic and intestinal MTP mRNA measured 3 h after dosing. Rats receiving 1 or 3 g/kg of ethanol exhibited substantially lower hepatic and intestinal MTP mRNA levels. Taken together, these results strongly suggest that ethanol can modulate the secretion of apoB-containing lipoproteins by down-regulating the expression of MTP large subunit, primarily through inhibiting the transcription of the MTP gene.

Effects of phenethyl isothiocyanate on acetaminophen metabolism and hepatotoxicity in mice.

Phenethyl isothiocyanate (PEITC), a compound derived from cruciferous and other vegetables, is a potent inhibitor of cytochrome P450 2E1. This enzyme catalyzes the bioactivation of acetaminophen (APAP) and many other xenobiotics. The present study investigated the effects of PEITC on APAP metabolism and associated hepatotoxicity in Swiss-Webster mice. When PEITC (19-150 micromol/kg) was given to mice intragastrically 1 hr before or immediately prior to a toxic dose of APAP, the APAP-induced hepatotoxicity was significantly decreased or was completely prevented. The extent of toxicity was evaluated by mortality, serum levels of glutamic-pyruvic transaminase, lactate dehydrogenase, and liver histopathology. Pretreatment of mice with ethanol enhanced APAP hepatotoxicity; this enhanced toxicity could also be prevented by the administration of PEITC. PEITC treatment prevented the depletion of hepatic glutathione levels caused by oxidized APAP metabolites. PEITC treatment also significantly decreased the plasma levels of oxidized APAP metabolites (analyzed as APAP-glutathione, APAP-cysteine, and APAP-N-acetylcysteine) and reduced the urinary excretion of APAP-cysteine. In microsomal incubations, PEITC effectively inhibited the rate of APAP-glutathione formation from APAP as well as the P450 2E1-dependent N-nitrosodimethylamine demethylase and the P450 1A2-dependent ethoxyresorufin O-deethylase activities. The protective action of PEITC against APAP toxicity is attributed to the blocking of APAP activation through inhibition of P450 enzymes.

Protective effects of diallyl sulfide on acetaminophen-induced toxicities.

Diallyl sulfide (DAS), a major flavour component of garlic, is known to modulate drug metabolism and may protect animals from chemically induced toxicity and carcinogenesis. In this study the effects of DAS on the oxidative metabolism and hepatotoxicity induced by acetaminophen (APAP) in rats were investigated. In the hepatotoxicity evaluation of Fischer 344 rats there was a dose-dependent increase in the odds of mortality rate by APAP (P = 0.009); DAS treatment significantly protected rats from APAP-related mortality (P = 0.026). Liver toxicity determined by lactate dehydrogenase activity was significantly increased by APAP treatment (0.75 g/kg). Pretreatment with DAS protected animals from APAP-induced liver toxicity in a time- and dose-dependent fashion. Treatment of DAS (50 mg/kg) 3 hr after APAP dosing significantly (P < 0.05) protected rats from APAP-induced liver toxicity. The metabolism of APAP (50 microM) in vitro was significantly inhibited by DAS (0.3-1 mM) in liver microsomes isolated from F344 rats. As the effect of DAS on APAP-induced hepatotoxicity in vivo was observed only when DAS was administered before or shortly after (< 3 hr) APAP dosing, data suggested that the protective effect of DAS is mainly at the metabolic activation step of APAP. However, the possibility that DAS may also have effects on other drug metabolism systems, such as glutathione (GSH) and glutathione S-transferases, cannot be ruled out.

Protective effect of diallyl sulfone against acetaminophen-induced hepatotoxicity in mice.

Diallyl sulfone (DASO2) is a metabolite of diallyl sulfide, a compound derived from garlic. The present study investigated the effect of DASO2 as a protective agent against acetaminophen (APAP)-induced hepatotoxicity in mice. Oral administration of DASO2 protected mice against the APAP-induced hepatotoxicity in a dose- and time-dependent manner. When administered 1 hour prior to, immediately after, or 20 minutes after a toxic dose of APAP, DASO2 at a dose of 25 mg/kg completely protected mice from development of hepatotoxicity, as indicated by liver histopathology and serum lactate dehydrogenase levels. Protective effect was observed when DASO2 at a dose as low as 5 mg/kg was given to mice 1 hour prior to APAP administration. Oral administration of DASO2 to mice 1 hour prior to a toxic dose of APAP significantly inhibited the APAP-induced glutathione depletion in the liver. DASO2 treatment also decreased the levels of oxidative APAP metabolites in the plasma without affecting the concentrations of nonoxidative APAP metabolites. In liver microsomes, 0.1 mM of DASO2 caused a 60% decrease in the rate of APAP oxidation to N-acetyl-p-benzoquinone imine, which was determined as glutathione conjugate. This inhibitory effect is mainly due to its inhibition of cytochrome P450 2E1 activity; with an IC50 value equal to 0.11 mM. DASO2 also slightly inhibited the activities of P450s 3A and 1A, with IC50 values > 5 mM. Furthermore, a single oral dose of DASO2 inactivated P450 2E1- and P450 1A-dependent activities in liver microsomes. The results suggest that the protective effect of DASO2 against APAP-induced hepatotoxicity is due to its ability to block acetaminophen bioactivation mainly by the inactivation and inhibition of P450 2E1.

Protective effects of garlic and related organosulfur compounds on acetaminophen-induced hepatotoxicity in mice.

In previous studies, we have demonstrated that diallyl sulfide, a flavor component of garlic, protects against chemically induced hepatotoxicity. The present study examined the activities of fresh garlic homogenates (FGH) and related organosulfur compounds in the protection against acetaminophen (APAP)-induced hepatotoxicity and the possible mechanisms involved in this protection. When FGH (5 g/kg) was administered to Swiss-Webster mice 2 hr prior to, or immediately after, an APAP treatment (0.2 g/kg), APAP-induced hepatotoxicity was essentially prevented as indicated by serum levels of alanine aminotransferase and lactate dehydrogenase and by liver histopathology. Partial protection was observed with a lower dose of FGH (0.5 g/kg). FGH also prevented APAP-induced hepatic glutathione depletion in a dose-dependent manner. FGH significantly inhibited the formation of APAP-oxidized metabolites, as indicated by decreased plasma levels of oxidized APAP metabolites. The amount of APAP excreted as oxidized metabolites in the 24 hr urine samples was also significantly lower in the mice pretreated with FGH. FGH supernatant inhibited cytochrome P450-dependent APAP oxidation in microsomal incubations. The results suggest that the protection against APAP-induced hepatotoxicity by FGH is mainly due to its inhibition of P450-mediated APAP bioactivation. Several garlic-derived organosulfur compounds and structurally related compounds were examined for their abilities to protect against APAP-induced hepatotoxicity. An S-allyl structure appears to be a common feature for most sulfides to inhibit P450 2E1-dependent activity and to display good protective activities.

[The observation of therapy of anemia in chronic renal failure with recombinant human erythropoietin].

Anemia is one of the serious complications of chronic renal failure, therapy with recombinant human erythropoietin (r-HuEPO) can correct such anemia officiently. For most patients, the initial dose of r-HuEPO is 100U/kg, by intravenously or subcutaneous, three times a week. After 6 weeks of treatment, Hb could increase to 100g/L, and Hct to above 0.33-0.35. Then 500/kg 3 time a week can be used as maintaining dose. 4 patients need maintaining dose of 150U/kg, for pulmonary infection, poor nutrition, and poor iron supply. Therefore, during the treatment, iron folie acid and Vit B12 should be applied sufficiently and treat the infection effectively with the increasing of Hb and Hct, 2/3 of the patients have hypertension which can be controlled with medication. If there is thrombosis in the dialyzer, the dose of heparin should be increased. The patients on r-HuEPO should be dialysised sufficiently to prevent hyperkalemia.

[Monitoring of gentamicin blood level].

A prospective randomized comparison of blood concentration as well as manifestations of ototoxicity and nephrotoxicity in groups with conventional and individualized administration of gentamicin was carried out in a total of 106 hospitalized patients. Therapeutic serum concentrations (peak 4-9 mg/L, though less than 1 mg/L) were achieved in 50% of the patients of conventional group and in all the patients of individualized group. Incidence of auditory and renal toxic reactions was high in the conventional group, being 27% and 30% respectively, while in the individualized group, the corresponding figures were 2.8% and 0%. Therefore, individualized administration of gentamicin based on data from therapeutic drug monitoring can markedly decrease the toxic effect and increase the therapeutic efficacy. It is worthwhile to use this kind of administration clinically.