SBIR-STTR Award

In this project we propose to exploit the recent successful isolation and reconstitution of the important ATP-dependent drug efflux transporter, ABCG2 (BCRP, Breast Cancer Resistance Protein), and combine it with a newtransport assay system, the Fluorosome platform, to characterize the interaction of ABCG2 with drugs and drugcandidates. The result will provide a useful, novel, highly specific and rapid in vitro transport assay for futuregeneral use. We shall employ this assay together with ATPase studies to characterize a wide variety of ABCG2substrates and modulators. Additionally, by means of this unique construct we shall screen the 89 anticancerdrugs in the NCI Oncology Drug Set Plate series for inhibition of ABCG2-mediated transport. The ABCG2 protein is a ubiquitous high capacity drug transporter with wide substrate specificity. The 'WhitePaper' recently issued by the International Transporter Consortium formed to propose industry and FDAstandards for studies of drug:transporter interactions lists ABCG2 as second in importance to P-glycoprotein(Pgp) among those drug transporters involved in clinical absorption and disposition of drugs. Drug effects are often modified by the highly variable oral uptake of drugs and by limited tissue distribution.Tumors frequently develop resistance against treatment with multiple chemotherapeutic agents. Theconsequence of this is the expectation that systemic chemotherapy of nearly one-half of the one million newcancer cases annually in the United States will fail due to the resistance of tumors to drugs. A major factor in thisresistance is the prevalence of energy-driven efflux transporter proteins which actively pump drugs out of theirtarget tissues. In addition, many side effects and incompatibilities accompanying multidrug use result from theinterference of one drug with another's susceptibility to active efflux. The recent successful production, isolation, and reconstitution of the ABCG2 transporter combined with newtechnology employing the Fluorosome platform will provide an effective in vitro assay to determine thesusceptibility of drug candidates to extrusion from their target tissue by the ABCG2 transporter and to determine ifcompounds interact with this transporter. These studies will employ a novel reagent 'Fluorosome-trans-abcg2'that is unambiguously specific for the ABCG2 transporter, applicable to a wide range of compounds, uses verysmall amounts of test material, and, with respect to instrumentation, requires only a standard injecting multiwellfluorescence plate reader. The assay will be amenable to moderate and high throughput screening.

Thesaurus Terms:
Abcg2 Gene;Absorption;Adverse Effects;Antineoplastic Agents;Aqueous;Atp Phosphohydrolase;Base;Biological Assay;Carrier Proteins;Chemotherapeutic Agent;Chemotherapy;Clinical;Detergents;Development;Drug Candidate;Drug Development;Drug Discovery;Drug Efflux;Drug Industry;Drug Or Chemical Tissue Distribution;Drug Resistance;Drug Transport;Excision;Expectation;Fluorescence;Future;Goals;High Throughput Screening;Housing;Human;Human Abcg2 Protein;In Vitro;In Vitro Assay;Industry;Inhibitor/Antagonist;Instrumentation;International;Legal Patent;Letters;Lipid Bilayers;Lipids;Liposomes;Malignant Neoplasms;Marketing;Materials Testing;Measurement;Mediating;Multi Drug Transporter;Multidrug Transport;New Technology;Novel;Oncology;Oral;P-Glycoprotein;Paper;Pharmaceutical Preparations;Predisposition;Prevalence;Production;Programs;Proteins;Protocols Documentation;Public Health Relevance;Pump;Reader;Reagent;Reconstitution;Research Study;Resistance;Resistance Development;Robotics;Scale Up;Sensor;Series;Services;Staging;Substrate Specificity;System;Techniques;Testing;Time;Tissues;Tool;Tumor;United States;Uptake;

In Phase I, as proposed, we successfully demonstrated proof of principle for the Flurosome-trans-abcg2 assay. This innovative assay characterizes how compounds interact with the important ATP-dependent drug efflux transporter, ABCG2 (BCRP, Breast Cancer Resistance Protein), i.e. the susceptibility of drug candidates to be extruded from their target tissue. A successful Phase I forms the basis for this Phase II proposal. The goal of Phase II is to bring the Fluorosome-trans-abcg2 assay to commercialization, providing a fully validated high-throughput solution for ABCG2 transporter studies to drug development groups worldwide. Our ultimate goal is to commercialize a complete suite of assay reagents for all FDA and EMA mandated transporters, enabling the pharmaceutical industry to efficiently evaluate the suitability of drug candidates for continued development. The "Fluorosome-trans-abcg2" reagent will be one of this suite of reagents. We were able to successfully accomplish all the proof-of-principle goals of our Phase I proposal. In brief, we were able to: 1) produce purified human ABCG2; 2) reconstitute the ABCG2 transporter in a functional form into lipid bilayers; 3) test and confirm the reconstituted ABCG2's ATPase activity; 4) use the reconstituted ABCG2 to construct lipid vesicles containing encapsulated drug sensor, "Fluorosome-trans-abcg2"; 5) demonstrate that ABCG2 is functional in the resulting Fluorosome-trans-abcg2 construct; 6) demonstrate the ability of Fluorosome-trans-abcg2 to detect the active transport of test substrates; and 7) demonstrate that the assay is sensitive to known inhibitors of ABCG2. In addition to succeeding in these initial goals, we have made a significant advance over what was proposed in Phase I, in that instead of relying on an external vendor for the purification and reconstitution of the ABCG2 protein, we have both improved these procedures and brought them entirely in house. For Phase II, we will bring the Fluorosome-trans-abcg2 assay to a commercial stage. When successful, this assay will be the first off-the-shelf high throughput assay available to drug developers that is unambiguously specific for the ABCG2 transporter. The assay uses small amounts of test material and is simple to use. With respect to instrumentation, it requires only a standard injecting multiwell fluorescence plate reader, which generates real time data in under a minute. To bring this assay to commercialization, we propose: 1) the development of various in-house processes/technologies that enable the large scale production of purified ABCG2 protein and its incorporation into our Flurosome-trans-abcg2 reagent; 2) the necessary extensive validation of the assay using drugs known to interact with ABCG2; 3) establishment of rigorous quality control methods required for reagent manufacture and storage; and 4) finally, the implementation of an extensive plan which includes an Early Adopter Program followed by product launch and revenue generation. Accomplishing these goals will result in a unique, easy to use, rapid, cost-effective and highly specific assay for characterizing the interaction of drugs and drug candidates with the ABCG2 transporter. The Fluorosome-trans-abcg2 assay will be poised to enter the market as a highly competitive and useful product. This will greatly facilitate us in bringing our other two current Fluorosome assays, those for the human pgp and BSEP, into the marketplace.

Public Health Relevance Statement:


Public Health Relevance:
This project will result in a commercial level technique to determine if drugs will be expelled from their target tissue by the Breast Cancer Resistance Protein "ABCG2". The test will allow the pharmaceutical industry to evaluate, at an early stage, the suitability of drug candidates for continued development. The test will be highly specific, reliable, simple, rapid, inexpensive and amenable to robotics.

Project Terms:
ABCG2 gene; absorption; Active Biological Transport; Adverse effects; Antineoplastic Agents; ATP phosphohydrolase; base; Biological Assay; Bioreactors; Carrier Proteins; Cells; chemotherapy; Clinical; commercialization; cost effective; Data; Detergents; Development; Documentation; drug candidate; drug development; drug discovery; Drug Efflux; Drug Industry; Drug Interactions; Drug resistance; Drug usage; Encapsulated; Equipment and supply inventories; Excision; expectation; Fluorescence; Future; Generations; Goals; high throughput screening; Housing; Human; improved; In Vitro; in vitro Assay; Industry; Infection; inhibitor/antagonist; innovation; instrumentation; International; large scale production; Legal patent; Letters; Lipid Bilayers; Lipids; Liposomes; Literature; Longevity; Malignant Neoplasms; Marketing; Materials Testing; Methods; multi drug transporter; multidrug transport; new technology; novel; oncology; Oral; P-Glycoprotein; Paper; Pharmaceutical Preparations; Phase; Predisposition; Preparation; Prevalence; Procedures; Process; Production; programs; Proteins; Protocols documentation; public health relevance; Pump; Quality Control; Reader; Reagent; reconstitution; research study; Resistance; Resistance development; Robotics; sensor; Series; Services; Staging; System; Techniques; Technology; Testing; Time; Tissues; tool; tumor; United States; uptake; Validation; Vendor; Vesicle