Associations among types of impulsivity, substance use problems and neurexin-3 polymorphisms

Background

Some of the genetic vulnerability for addiction may be mediated by impulsivity. This study investigated relationships among impulsivity, substance use problems and six neurexin-3 (NRXN3) polymorphisms. Neurexins (NRXNs) are presynaptic transmembrane proteins that play a role in the development and function of synapses.

Methods

Impulsivity was assessed with the Barratt Impulsiveness Scale Version 11 (BIS-11), the Boredom Proneness Scale (BPS) and the TIME paradigm; alcohol problems with the Michigan Alcoholism Screening Test (MAST); drug problems with the Drug Abuse Screening Test (DAST-20); and regular tobacco use with a single question. Participants (n = 439 Caucasians, 64.7% female) donated buccal cells for genotyping. Six NRXN3 polymorphisms were genotyped: rs983795, rs11624704, rs917906, rs1004212, rs10146997 and rs8019381. A dual luciferase assay was conducted to determine whether allelic variation at rs917906 regulated gene expression.

Results

In general, impulsivity was significantly higher in those who regularly used tobacco and/or had alcohol or drug problems. In men, there were modest associations between rs11624704 and attentional impulsivity (p = 0.005) and between rs1004212 and alcohol problems (p = 0.009). In women, there were weak associations between rs10146997 and TIME estimation (p = 0.03); and between rs1004212 and drug problems (p = 0.03). The dual luciferase assay indicated that C and T alleles of rs917906 did not differentially regulate gene expression in vitro.

Conclusions

Associations between impulsivity, substance use problems and polymorphisms in NRXN3 may be gender specific. Impulsivity is associated with substance use problems and may provide a useful intermediate phenotype for addiction.     

Interaction of hepatocyte nuclear factors in transcriptional regulation of tissue specific hormonal expression of human multidrug resistance-associated protein 2 (abcc2)

Multidrug resistance-associated protein 2 (MRP2) (ABCC2) is an ATP-binding cassette membrane protein located primarily on apical surface of hepatocytes that mediates transport of conjugated xenobiotics and endogenous compounds into bile. MRP2 is highly expressed in hepatocytes, and at lower levels in small intestines, stomach and kidney. Previous reports have characterized mammalian MRP2 promoters, but none have established the molecular mechanism(s) involved in liver enriched expression. This study aims to investigate the mechanism of hepatic MRP2 regulation.A 2130 bp of MRP2 promoter was cloned from PAC-1 clone P108G1-7, to identify putative liver specific/hormone responsive functional DNA binding sites. Using deletion analysis, site specific mutagenesis and co-transfection studies, liver specific expression was determined.MRP2 promoter-LUC constructs were highly expressed in liver cell lines compared to non-liver cells. The region extending from − 3 to+ 458 bp of MRP2 promoter starting from AUG contained the potential binding sites for CAAATT box enhancer binding protein (C/EBP), hepatocytes nuclear factor 1, 3 and 4 (HNF1, HNF3, and HNF4. Only HNF1 and HNF4 co-transfection with MRP2 luciferase increased expression. Site specific mutational analysis of HNF1 binding site indicated an important role for HNF1α. HNF4α induction of MRP2 was independent of HNF1 binding site. C/EBP, HNF3, and HNF6 inhibited HNF1α while HNF4α induced MRP2 luciferase expression and glucocorticoids stimulated MRP2 expression.This study emphasizes the complex regulation of MRP2 with HNF1α and HNF4α playing a central role. The coordinated regulation of xenobiotic transporters and oxidative conjugation may determine the adaptive responses to cellular detoxification processes.     

Cepharanthine is a potent reversal agent for MRP7(ABCC10)-mediated multidrug resistance

Multidrug resistance protein 7 (MRP7; ABCC10) is an ABC transporter that confers resistance to anticancer agents such as the taxanes. We previously reported that several inhibitors of P-gp and MRP1 were able to inhibit the in vitro transport of E₂17βG by MRP7 in membrane vesicles transport assays. However, compounds that are able to reverse MRP7-mediated cellular resistance have not been identified. In this study, we examined the effects of cepharanthine (6′,12′-dimethoxy-2,2′-dimethyl-6,7-[methylenebis(oxy)]oxyacanthan), an herbal extract isolated from Stephania cepharantha Hayata, to reverse paclitaxel resistance in MRP7-transfected HEK293 cells. Cepharanthine, at 2 μM, completely reversed paclitaxel resistance in MRP7-transfected cells. In contrast, the effect of cepharanthine on the parental transfected cells was significantly less than that on the MRP7-transfected cells. In addition, cepharanthine significantly increased the accumulation of paclitaxel in MRP7-transfected cells almost to the level of control cells in the absence of cepharanthine. The efflux of paclitaxel from MRP7-transfected cells was also significantly inhibited by cepharanthine. The ability of cepharanthine to inhibit MRP7 was analyzed in membrane vesicle assays using E₂17βG, an established substrate of MRP7, as a probe. E₂17βG transport was competitively inhibited by cepharanthine with a K_i value of 4.86 μM. These findings indicate that cepharanthine reverses MRP7-mediated resistance to paclitaxel in a competitive manner.     

miR-3940-5p associated with genetic damage in workers exposed to hexavalent chromium

To understand the regulation of genetic damage by epigenetics at the early stage of carcinogenesis after hexavalent chromium (Cr(VI)) and assessed genetic damage to explore their association with DNA repair genes mediated by differently expressed miRNA. Genetic damages were evaluated using cytokinesis-block micronucleus assay (CBMN) and serum 8-hydroxyguanine (8-OHdG) ELISA assay. Blood Cr level showed significant association with plasma miR-3940-5p level (r = −0.33, P = 0.001) and non-linear relationship with micronuclei frequency in CBMN and serum 8-OHdG level (β_std = 0.29, P = 0.039; β_std = 0.35, P = 0.001), with micronuclei frequency not increasing apparently under high Cr exposure. In contrast, no significant association was found between plasma miR-3940-5p level and the two genetic indicators. However, plasma miR-3940-5p level was linked to micronuclei frequency under high blood Cr level (β_std = 0.18, P = 0.015). To explore the effect of miR-3940-5p on genetic damage under high Cr exposure, the protein expression levels of miR-3940-5p-mediated DNA repair genes in leukocytes were quantified using enzyme-linked immunosorbent assay for subjects with high blood Cr level. The results showed that XRCC2 and BRCC3 protein levels were statistically associated with miR-3940-5p level respectively (β_std = −0.31, P = 0.010; β_std = −0.24, P = 0.037). Meanwhile, a weak but statistically negative association between XRCC2 level and micronuclei frequency was found (β_std = −0.15, P = 0.027). These data suggests that high Cr(VI) does not always aggravate genetic damage after reaching a high Cr(VI) exposure in real situation, which may be due to the regulation of miRNA on DNA repair genes responsive to high Cr(VI) exposure.     

Post-transcriptional regulation of OATP2B1 transporter by a microRNA,miR-24

Human OATP2B1, a member of organic anion transporting polypeptide family, is expressed in several tissues, including small intestine and liver, and contributes to cellular uptake of endogenous compounds and various drugs. Altered expression of OATP2B1 affects pharmacokinetics of substrate drugs; however, limited information is available on the regulation of OATP2B1 expression. This study aimed to explore microRNAs (miRNAs) that regulate OATP2B1 expression using HEK293 cells transfected with an expression plasmid of OATP2B1 including 3′-UTR (HEK/OATP2B1) and Caco-2 as a model of human intestine. Computational analysis predicted that three miRNAs, miR-143, miR-125b and miR-24, may bind to the 3′-UTR of OATP2B1 mRNA. A luciferase assay using a plasmid containing the 3′-UTR of OATP2B1 gene demonstrated that only miR-24 significantly reduced its expression. The overexpression of miR-24 decreased the expression of OATP2B1 mRNA and protein in HEK/OATP2B1 and Caco-2 cells and uptake of [³H]estrone-3-sulfate by HEK/OATP2B1 cells. However, a statistically significant increase of endogenous OATP2B1 expression was not observed by miR-24 inhibitor in Caco-2 cells. In conclusion, it was found that miR-24 negatively regulates OATP2B1 expression, resulting in suppression of OATP2B1 activity, while its contribution to regulation of apparent expression of OATP2B1 is considered to depend on tissues and cell types.     

MiR-183 family regulates chloride intracellular channel 5 expression in inner ear hair cells

The roles of miRNAs in the onset of hearing and deafness are beginning to be revealed. Although there has been no reported link between chloride intracellular channel 5 (CLIC5) and the miR-183 family to date, we here present evidence that they are co-expressed in the inner ear and have functions that are related to stereocilia. Moreover, CLIC5 contains a single predicted and highly conserved miR-96/-182 binding site within its 3′-UTR. Our current results further show that miR-96/-182 and CLIC5 are co-expressed in HEI-OC1 cells, in which two isoforms of the CLIC5 protein exist. Furthermore, miR-96 and miR-182 were found to be specifically overexpressed in HEI-OC1 cells into which mimics of these molecules had been transfected by liposomes causing the downregulation of CLIC5 at both the mRNA and protein levels. Finally, miR-96/-182 specifically downregulate the expression of the luciferase reporter gene which was cloned into a mouse CLIC5 3′-UTR fragment containing the wild-type miR-96/-182 target sequence. Our findings thus suggest that CLIC5 is directly regulated by miR-96 and miR-182 and that the target sequence in this regard is located between nucleotides 760–766 within the CLIC5 3′-UTR.     

Polymorphisms in microRNA target sites influence susceptibility to schizophrenia by altering the binding of miRNAs to their targets

Single nucleotide polymorphisms (SNPs) in 3′ untranslated regions (3′ UTRs) of genes may affect miRNA binding to messenger RNA and contribute to the risk of disease. Whether the SNPs that modify miRNA binding in the 3′ UTR are involved in schizophrenia-related genes remains unclear. We selected 803 SNPs from the 3′ UTRs of 425 candidate genes for schizophrenia. The potential target SNPs were recognized by Gibbs free energy of miRNA binding. Some SNPs were associated in the literature with schizophrenia or other related neurological diseases. A case-control study of nine SNPs not previously reported as significant in any disease was carried out in a Chinese-Han cohort. We found that rs3219151 (C>T, GABRA6) showed significant decreased risk for schizophrenia (OR=0.8121, p=0.008, p_adjust=0.03). Further, two putative target SNPs, rs165599 (COMT) and rs10759 (RGS4) reported in several references previously, were selected for analysis by luciferase assay to determine their modification to miRNA binding. We found that miR-124 showed significantly repressed 3′ UTR binding to RGS4 mRNA from the rs10759-C allele (p<0.05). Our results suggest that rs3219151 of GABRA6 was associated significantly to decrease the risk of schizophrenia, rs10759 (RGS4) was possible to increase the risk of schizophrenia by miRNA altering the binding of miRNAs to their targets influencing susceptibility to schizophrenia.     

Glutathione enzyme and selenoprotein polymorphisms associate with mercury biomarker levels in Michigan dental professionals

Mercury is a potent toxicant of concern to both the general public and occupationally exposed workers (e.g., dentists). Recent studies suggest that several genes mediating the toxicokinetics of mercury are polymorphic in humans and may influence inter-individual variability in mercury accumulation. This work hypothesizes that polymorphisms in key glutathione synthesizing enzyme, glutathione s-transferase, and selenoprotein genes underlie inter-individual differences in mercury body burden as assessed by analytical mercury measurement in urine and hair, biomarkers of elemental mercury and methylmercury, respectively. Urine and hair samples were collected from a population of dental professionals (n = 515), and total mercury content was measured. Average urine (1.06 ± 1.24 ug/L) and hair mercury levels (0.49 ± 0.63 ug/g) were similar to national U.S. population averages. Taqman assays were used to genotype DNA from buccal swab samples at 15 polymorphic sites in genes implicated in mercury metabolism. Linear regression modeling assessed the ability of polymorphisms to modify the relationship between mercury biomarker levels and exposure sources (e.g., amalgams, fish consumption). Five polymorphisms were significantly associated with urine mercury levels (GSTT1 deletion), hair mercury levels (GSTP1-105, GSTP1-114, GSS 5′), or both (SEPP1 3′UTR). Overall, this study suggests that polymorphisms in selenoproteins and glutathione-related genes may influence elimination of mercury in the urine and hair or mercury retention following exposures to elemental mercury (via dental amalgams) and methylmercury (via fish consumption).     

Relationship between miRNAs polymorphisms and peripheral blood leukocyte DNA telomere length in coke oven workers: A cross-sectional study

ObjectiveThe purpose of this study was to investigate the factors affecting telomere length (TL) in coke oven workers by analyzing the interaction between miRNAs polymorphisms and coke oven emissions (COEs) exposure.MethodsA total of 544 coke oven workers and 238 healthy controls were recruited. Peripheral blood was collected from the subjects, genomic DNA was extracted, leukocyte TL was detected by real-time quantitative polymerase chain reaction, and fifteen polymorphisms of eight miRNAs were genotyped by flight mass spectrometry.ResultsStatistical analysis showed that the peripheral blood DNA TL in the exposure group was shorter than that in the control group (P < 0.001). Generalized linear model found that COEs-exposure [β (95%CI) = -0.427 (−0.556, −0.299), P < 0.001], genotype CC+CT for miR-612 rs1144925 [β (95%CI) = −0.367 (−0.630, −0.104), P = 0.006], and the interaction of miR-181B1 rs12039395 TT genotype and COEs-exposure [β (95% CI) = 0.564 (0.108, 1.020), P = 0.015] were associated with the shortened TL.ConclusionCOEs-exposure and miR-612 rs1144925 TT could promote telomere shortening in coke oven workers. The interaction of miR-181B1 rs12039395 TT genotype and COEs-exposure could protect telomere. This provides clues for further mechanistic studies between miRNA and telomere damage.     

A Caco-2 cell based screening method for compounds interacting with MRP2 efflux protein

The aim of this work was to develop a screening method for MRP2 efflux substrates using the well-characterized, human-based intestinal Caco-2 cell model as a platform. MRP2 has a significant role in drug absorption and disposition and is known to co-operate with phase II metabolic enzymes. Caco-2 cells grown in a 96-well plate were loaded with non-fluorescent CDCFDA (diacetate ester of 5(6)-carboxy-2′,7′-dichlorofluorescein), which is hydrolyzed to fluorescent CDCF by intracellular esterases. De-esterification in Caco-2 was comparable to that in porcine liver esterases. CDCFDA enters the cells passively, while CDCF is effluxed out of the cells by the apically localized MRP2 and/or basolateral MRPs. The method was optimized with regard to several factors. In the concluding protocol, Caco-2 cells are grown on clear 96-well plates for 8 days. The loading conditions were optimized to 10 min incubation with 5 μM CDCFDA. The highest responses were obtained for samples taken at t = 30 min. The samples were analyzed in black 96-well plates with a fluorescence plate reader. The Caco-2 based method utilizing the probe pair CDCFDA/CDCF provides a fast screening tool for MRP2 substrates and/or inhibitors, along with compounds having metabolites formed in Caco-2 that interact with MRP2.     

ABCG2/BCRP decreases the transfer of a food-born chemical carcinogen, 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) in perfused term human placenta

We have studied the role of ATP binding cassette (ABC) transporters in fetal exposure to carcinogens using 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) a known substrate for ABC transporters as a model compound. In perfusion of human term placenta, transfer of ¹⁴C-PhIP (2 μM) through the placenta resulted in fetal-to-maternal concentration ratio (FM ratio) of 0.72 ± 0.09 at 6 h. The specific ABCG2 inhibitor KO143 increased the transfer of ¹⁴C-PhIP from maternal to fetal circulation (FM ratio 0.90 ± 0.08 at 6 h, p < 0.05) while the ABCC1/ABCC2 inhibitor probenecid had no effect (FM ratio at 6 h 0.75 ± 0.10, p = 0.84). There was a negative correlation between the expression of ABCG2 protein in perfused tissue and the FM ratio of ¹⁴C-PhIP (R = − 0.81, p < 0.01) at the end of the perfusion. The expression of ABCC2 protein did not correlate with FM ratio of PhIP (R: − 0.11, p = 0.76). In addition, PhIP induced the expression of ABC transporters in BeWo cells at mRNA level. In conclusion, our data indicates that ABCG2 decreases placental transfer of ¹⁴C-PhIP in perfused human placenta. Also, PhIP may modify ABC transporter expression in choriocarinoma cells.     

Public injecting and HIV risk behaviour among street-involved youth

Background

Although street-involved youth who inject illicit drugs are known to be at an increased risk of HIV and other adverse health outcomes, little is known about public injecting among this population and how injecting in public environments may impact HIV risk behaviour.

Methods

We used data derived from a study of 560 street-involved youth in Vancouver, Canada to examine the factors associated with injecting in public environments among youth who reported injecting drugs in the past 6 months.

Results

At baseline, 162 (28.9%) reported injecting drugs in the past 6 months. Among injectors, the 124 (76.5%) participants who reported injecting in public were more likely to be homeless (odds ratio [OR] = 6.39, p < 0.001), engage in unprotected intercourse (OR = 3.09, p = 0.004), deal drugs (OR = 2.26, p = 0.032), smoke crack cocaine (OR = 3.00, p = 0.005), inject heroin (OR = 3.48, p = 0.001), drop used syringes outdoors (OR = 8.44, p < 0.001), share syringes (OR = 4.43, p = 0.004), and were less likely to clean injection sites >75% of the time (OR = 0.36, p = 0.008). The majority (62.1%) reported feeling rushed while injecting in public.

Conclusions

Youth who inject in public are significantly more likely to engage in sexual and injection-related risk behaviour. Given the known elevated rates of HIV infection and other harms among this population, youth-focused interventions that target both sexual and drug-related risks associated with public drug-using environments are in urgent need of evaluation.