Emma Portnoy scite author profile

The efflux transporter P-glycoprotein (P-gp) affects the pharmacokinetics of many drugs. Currently used methods for characterization of P-gp's functional activity in vivo involve the use of radiolabeled substrates, are costly, and are technically demanding. Our objective was to evaluate whether the FDA-approved near-infrared compound indocyanine green (ICG) can be used as a probe substrate of P-gp. We also characterized the interaction of ICG with another efflux transporter, the breast cancer resistance protein (BCRP). We evaluated ICG accumulation and transport in MDCK cells overexpressing P-gp or BCRP (MDCK-MDR1 and MDCK-BCRP, respectively) compared to control MDCK cells, in the presence or the absence of transporter inhibitors. In vivo imaging of ICG biodistribution in mice was conducted over 3.5 h using valspodar as the P-gp inhibitor. The EC50 values for ICG accumulation in control MDCK and MDCK-MDR1 cells were 9.0 × 10(-6) ± 5.7 × 10(-7) M and 1.5 × 10(-5) ± 1.1 × 10(-6) M, respectively. The efflux ratio for ICG in MDCK-MDR1 cells was 6.8-fold greater than in control cells. P-gp inhibition attenuated ICG efflux from MDR1-MDCK cells, and their effects in those cells were greater than in control MDCK cells. In contrast, BCRP level of expression or pharmacological inhibition did not significantly affect ICG cellular accumulation. In vivo imaging indicated enhanced cerebral ICG distribution with valspodar (brain - foot area under the concentration-time curves of 3.0 × 10(10), 5.6 × 10(10) and 3.7 × 10(10) h·[p/s/sr]/μW in valspodar-treated mice vs 9.0 × 10(9) and 5.3 × 10(9) h·[p/s/sr]/μW in controls). The findings from this pilot study suggest that near-infrared imaging using ICG as the probe substrate should be further characterized as a methodology for in vivo evaluation of P-gp activity.

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Near Infrared Imaging of Indocyanine Green Distribution in Pregnant Mice and Effects of Concomitant Medications

Bishara

Meir

Portnoy

et al. 2015

Mol. Pharmaceutics

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The transfer of indocyanine green (ICG) across the placenta is considered to be very low based on measurements in fetal blood. The goal of this study was to evaluate in mice ICG's distribution within fetuses themselves and effects of concomitant medications on fetal exposure. Mid-gestational (day 12.5) and late-gestational (day 17.5) age mice were imaged after administration of ICG (0.167 mg), in the presence and the absence of the organic anion transporting polypeptide (OATP) inhibitor rifampin (10 mg/kg, n = 11, or 20 mg/kg, n = 1) or the P-glycoprotein inhibitor valspodar (12.5 mg/kg). In vivo ICG emission intensity was followed by ex vivo analysis of blood and tissue emission. Both valspodar and rifampin increased ICG's emission intensity within maternal tissues. In addition, valspodar enhanced the ex vivo signal in mid-pregnancy placentae (2.1-fold; p < 0.01) and fetuses (2.4-fold; p < 0.01), and reduced late-pregnancy placenta:blood and fetus:blood ratios. Rifampin increased placental (1.4-fold, p < 0.05, and 2.3-fold, p < 0.01, in mid- and late-pregnancy, respectively) and fetal (2.2-fold, p < 0.01, and 3.2-fold, p < 0.01, in mid- and late-pregnancy) ICG signal. Similarly to valspodar, late-pregnancy placenta:blood and fetus:blood ratios were reduced by rifampin. Both inhibitors enhanced ICG's emission in fetal leg, liver, and brain. In conclusion, ICG distribution into the mouse fetus can be enhanced when used concomitantly with OATP or P-glycoprotein inhibitors. The greater distribution within individual fetal tissues is likely related to ICG's greater transplacental transfer. Until further data are available on ICG's safety when combined with medications that affect its maternal handling, such combinations should be used with caution.

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Effects of valproic acid on the placental barrier in the pregnant mouse: Optical imaging and transporter expression studies

et al. 2016

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SUMMARYOur aim was to evaluate the effects of valproic acid (VPA) on the function of the placental barrier in vivo, in pregnant mice. Studies were conducted on gestational days 12.5 (mid-gestation) or 17.5 (late gestation), following intraperitoneal treatment with 200 mg/kg VPA or the vehicle. Indocyanine green (ICG; 0.167 mg, i.v.) was used as a marker for the placental barrier permeability. Transporter expression was evaluated by quantitative -PCR. VPA treatment was associated with a 40% increase (p < 0.05) in accumulation of ICG in maternal liver in mid-pregnancy and a decrease by one fifth (p < 0.05) in late pregnancy. Ex vivo, VPA treatment led to a 20% increase (p < 0.05) in fetal ICG emission in mid-pregnancy. Also in mid-pregnancy, the placental expression of the L-type amino acid transporter, the organic anion-transporting polypeptide (Oatp)4a1 (thyroid hormone transporter), and the reduced folate carrier was lower in VPA-treated mice (p < 0.05). In late pregnancy, hepatic Oatp4a1 levels were 40% less than in controls (p > 0.05). The observed changes in placental transporter expression and function support further research into the potential role of the placenta in the adverse pregnancy outcomes of VPA. Near-infrared imaging provides a noninvasive, nonradioactive tool for future studies on the effects of epilepsy and antiepileptic drugs on tissue transport functions.

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Imaging the urinary pathways in mice by liposomal indocyanine green

Portnoy

Nizri

Golenser

et al. 2015

Nanomedicine: Nanotechnology, Biology and Medicine

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Emma Portnoy

Cetuximab-labeled liposomes containing near-infrared probe for in vivo imaging

Evaluation of the Near Infrared Compound Indocyanine Green as a Probe Substrate of P-Glycoprotein

Near Infrared Imaging of Indocyanine Green Distribution in Pregnant Mice and Effects of Concomitant Medications

Effects of valproic acid on the placental barrier in the pregnant mouse: Optical imaging and transporter expression studies

Imaging the urinary pathways in mice by liposomal indocyanine green

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