US20100279314A1 - Composition and method for measuring thallium influx and efflux - Google Patents
Composition and method for measuring thallium influx and efflux Download PDFInfo
- Publication number
- US20100279314A1 US20100279314A1 US12/738,257 US73825708A US2010279314A1 US 20100279314 A1 US20100279314 A1 US 20100279314A1 US 73825708 A US73825708 A US 73825708A US 2010279314 A1 US2010279314 A1 US 2010279314A1
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- United States
- Prior art keywords
- thallium
- indicator
- cell
- stimulus
- ion channel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000000034 method Methods 0.000 title claims abstract description 116
- 230000004941 influx Effects 0.000 title claims abstract description 47
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- VEXZGXHMUGYJMC-UHFFFAOYSA-M Chloride anion Chemical compound [Cl-] VEXZGXHMUGYJMC-UHFFFAOYSA-M 0.000 claims abstract description 71
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- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/435—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
- G01N2333/705—Assays involving receptors, cell surface antigens or cell surface determinants
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/84—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving inorganic compounds or pH
Definitions
- the present invention relates to methods for detecting the activity of an ion channel in a cell.
- the methods comprise providing a loading buffer solution to the cell, with the loading buffer comprises at least one environmentally sensitive thallium indicator (e.g., luminescent dye) and chloride ions, and providing a stimulus buffer to the cell, wherein the stimulus buffer comprises thallium.
- Providing the stimulus buffer causes thallium influx into the cell through the ion channel.
- the luminescence e.g., fluorescence
- the luminescence of the thallium indicator in the cell is detected, where the luminescence of the dye can change in the presence or absence of thallium.
- High throughput screening (HTS) (e.g., HCS) of ion channels is currently limited by the efficiency of automated patch clamp instrumentation.
- HTS High throughput screening
- the use of thallium influx as a surrogate indicator of potassium channel activity in clonal cell lines loaded with the calcium indicator BTC AM ester is now well-established (Weaver et al., Journal of Biomolecular Screening 2004; 9(8): 671-677).
- the assays for monitoring ion channels use thallium (I), which selectively enters open potassium channels (Hille, J. Gen. Physiol. 1973; 61: 669-686) and binds to BTC, giving an optical readout of potassium channel activity.
- I thallium
- This method can be used to study the activation and/or inhibition of ion channels with drugs tested in HTS mode from a compound library.
- the present invention relates to methods for detecting the activity of an ion channel in a cell.
- the methods may be used to measure influx or efflux of thallium through an ion channel.
- the methods comprise providing a loading buffer solution to the cell, with the loading buffer comprises at least one environmentally sensitive thallium indicator (e.g., a luminescent dye, such as a fluorescent dye) and chloride (e.g., chloride ions), and providing a stimulus buffer to the cell, wherein the stimulus buffer comprises thallium.
- the loading buffer can include a physiological concentration of chloride ions.
- Providing the stimulus buffer can cause thallium influx into the cell through the ion channel.
- the luminescence e.g., fluorescence
- the luminescence of the dye in the cell is detected, where the luminescence of the dye can change in the presence or absence of thallium.
- a method for detecting the activity of an ion channel in a cell includes a) providing a cell with an ion channel; b) providing a loading buffer solution to the cell, the loading buffer solution comprising a thallium indicator and a physiological concentration of chloride ions; c) providing a stimulus buffer to the cell, wherein the stimulus buffer comprises thallium, and wherein providing the stimulus buffer causes thallium influx into the cell through the ion channel; and d) detecting the thallium indicator. Certain methods of the invention further include quantifying the level of detected thallium.
- the level of thallium may be determined by measuring at least one optical property of the thallium indicator in response to thallium influx (e.g., intensity, polarity, frequency, or optical density).
- the detection method may be light microscopy, confocal microscopy, fluorescence microscopy or spectrophotometry.
- a method for detecting the activity of an ion channel in a cell includes a) contacting a cell with a loading buffer solution, wherein the cell comprises an ion channel, and wherein the loading buffer solution comprises a thallium indicator and a physiological concentration of chloride ions; b) providing a stimulus buffer to the cell, wherein the stimulus buffer comprises thallium, and wherein providing the stimulus buffer causes thallium influx into the cell through the ion channel; and c) detecting the thallium indicator.
- a method for detecting the activity of an ion channel in a cell includes a) loading a cell with thallium, wherein the cell comprises an ion channel; b) providing a solution to the cell, the solution comprising a thallium indicator and a physiological concentration of chloride ions; c) stimulating the ion channel of the cell, such as to cause efflux of thallium through the ion channel; and d) detecting the thallium indicator.
- the method can further include washing the cells to remove excess thallium.
- the ion channel of the cell used in the method may be impermeable to the thallium indicator.
- the methods of the invention may be used to analyze various types of ion channels, including potassium ion channels, ion channels that are linked to receptors, channel-linked receptors, and ion transporters.
- the ion channel may be a ligand- or voltage-gated ion channel, a stretch-activated cation channel, or a selective or non-selective cation channel.
- the methods of the invention may be used to analyze various types of cells, including bacterial, yeast, plant, and animal cells (e.g., mammalian cells).
- the cell may be a neuron, cardiac cell, cancer cell, a smooth muscle cell, or an immortalized cell.
- the cell may include potassium channel.
- the ion channel may be permeable to thallium ions.
- the invention provides a loading buffer solution that includes a thallium indicator.
- thallium indicators Numerous types may be used in the practice of the invention.
- the thallium indicators may be a hydrophilic or hydrophobic compound that can associate with thallium (e.g., thallium within the cell or buffer to detect extracellular levels of thallium) and can have an optical property that changes in the presence or absence of thallium.
- the thallium indicator can exhibit an increase in fluorescence when associated with a thallium ion, or the thallium indicator can exhibit a change in the optical density inside the cell when associated with a thallium ion.
- the thallium indicator can be an environmentally sensitive fluorescent dye or a non-fluorescent compound (e.g., a compound that associates with thallium to form a precipitate or a colored product, such as iodide, bromide, and chromate).
- the thallium indicator can be a fluorescent compound that exhibits a fluorescence intensity change of 25% or greater in the Thallium Sensitivity Assay.
- Compounds that test positive in the Thallium Sensitivity Assay see, Example 3 and may be utilized in the practice of the invention include fluorescent compounds that are sensitive to monovalent or divalent cations (e.g., Zn 2+ or Ca 2+ indicators).
- Exemplary compounds that test positive in the Thallium Sensitivity Assay may include a xanthene moiety (e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof); a coumarin moiety (e.g., BTC or APTRA-BTC or a derivative or salt thereof); a benzofuran moiety (e.g., Mag-Fura Red or a derivative or salt thereof), a naphthalene moiety; or a crown ether moiety.
- a xanthene moiety e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof
- a coumarin moiety e.g., BTC or APTRA-BTC or
- the thallium indicator can exhibit a decrease in fluorescence intensity in the presence of thallium ions (e.g., ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, APTRA-BTC or Mag-Fura Red or a derivative or salt thereof) or can exhibit an increase in fluorescence in the presence of thallium ions (e.g., Magnesium Green, Fluo-4FF, FluoZin-1 or FluoZin-2, RhodZin-3, or a derivative or salt thereof).
- thallium ions e.g., ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, APTRA-BTC or Mag-Fura Red or a derivative or salt thereof
- Mag-Fura Red a derivative or salt thereof
- the thallium indicator may be ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, Magnesium Green, Mag-Fura Red Fluo-4FF, FluoZin-1 and FluoZin-2, RhodZin-3, or a derivative or salt thereof.
- the thallium indicator may include an acetoxymethyl ester moiety.
- the thallium indicator may be an acetoxymethyl (AM) ester derivative of a compound selected from the group consisting of ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, Magnesium Green, Mag-Fura Red, Fluo-4FF, FluoZin-1, RhodZin-3 and FluoZin-2.
- AM acetoxymethyl
- the provided methods can utilize a loading buffer solution that comprises a physiological concentration of chloride ions (e.g., greater than about 2 mM; or about 5 mM to about 20 mM; or about 20 mM to about 100 mM; or about 50 mM to about 150 mM).
- the source of the chloride may be in the form of a salt, such as NaCl or KCl.
- the provided methods can utilize a stimulus buffer that comprises thallium.
- the thallium may be may be in the form or a salt, which may be soluble in the loading buffer solution.
- the thallium salt may be Tl 2 SO 4 , Tl 2 CO 3 , TlCl, TlOH, TlOAc, or TlNO 3 .
- the stimulus buffer can include thallium at a concentration of less than about 4.5 mM; or less than about 4.0 mM; or less than about 3.0 mM; or the thallium concentration can range from about 0.1 to about 2.0 mM.
- the stimulus buffer can include thallium (e.g., thallium ions) at a concentration of about 0.1 mM to about 2 mM and the loading buffer may include chloride ions at a concentration of about 10 mM to about 150 mM.
- the concentration of thallium may be about 2 mM to about 5 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM.
- thallium is at a concentration of about 5 mM to about 20 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM.
- the cells may, optionally, be washed after the loading buffer solution is provided to the cells (e.g., to remove excess thallium indicator).
- the cells are not washed, and a quencher may be added to the loading buffer solution.
- the quencher may be substantially not cell permeant. Examples of quenchers include tartrazine, amaranth, acid red 37, congo red, trypan blue, brilliant black, or a combination of these quenchers.
- the methods of the invention can include stimulating the ion channel with a stimulus (e.g., a ligand that binds to the ion channel, a channel-linked receptor, or an electrical stimulus).
- a stimulus e.g., a ligand that binds to the ion channel, a channel-linked receptor, or an electrical stimulus.
- the stimulus may be a G-protein coupled receptor agonist capable of activating GIRK potassium ion channels to allow thallium influx.
- the stimulus may be nicotine, acetylcholine, muscarine, carbamyline, or a GIRK potassium ion channel activator.
- the stimulus may be or include a composition that will cause depolarization of the ion channel (e.g., ionophores, valinocmycin, or potassium salts) or a composition that includes channel rhodopsin, halorhodopsin, or quantum dot nanocrystals.
- a composition that will cause depolarization of the ion channel e.g., ionophores, valinocmycin, or potassium salts
- a composition that includes channel rhodopsin, halorhodopsin, or quantum dot nanocrystals e.g., ionophores, valinocmycin, or potassium salts
- kits for detecting the activity (e.g., thallium influx or efflux) of an ion channel in a cell.
- Certain kits can include a loading buffer solution, wherein the loading buffer solution comprises a thallium indicator and a physiological concentration of chloride ions; and a stimulus buffer, wherein the stimulus buffer comprises thallium, and wherein the stimulus buffer causes thallium influx into the cell through the ion channel.
- kits may include a thallium loading solution, wherein the solution comprises thallium; and a solution (e.g., a buffer solution) that comprises a thallium indicator and a physiological concentration of chloride ions.
- a solution e.g., a buffer solution
- solutions for detecting the activity of an ion channel in a cell comprising: a) a thallium indicator; b) a physiological concentration of chloride ions; and c) thallium.
- the thallium concentration of the solution may be ⁇ 4.5 mM or about 0.1 mM to about 4 mM; or about 0.1 mM to about 2 mM.
- the chloride ion concentration of the solution is about 10 mM to about 150 mM or about 50 mM to about 150 mM.
- the present invention solves problems associated with current thallium influx and efflux assays by providing methods of monitoring ion channels where at least some of the buffers comprise a physiological concentration of chloride ions.
- FIG. 1 depicts thallium influx of cells transfected with the hERG potassium ion channel gene under control of the tetracycline inducible promoter.
- Cells that were transfected with the hERG gene and induced with tetracycline to promote expression of the hERG gene demonstrated thallium influx.
- Transfected cells that were not induced did not demonstrate thallium influx (bottom curves).
- FIG. 2 depicts hERG activity measured in a 96 well plate with the FLUXOR Thallium NW Detection Kit (Invitrogen Corporation, Carlsbad, Calif.).
- the present invention relates to methods for detecting the activity of an ion channel in a cell.
- the term “cell” is intended to mean one or more cells.
- the cells can be in any environment, provided that the loading and stimulus buffers can be applied to the cells.
- the cell is in an in vitro environment and the methods are performed using well-known cell culture techniques.
- the cell is in a cell culture suspension.
- the cell is in a cell adhesion culture.
- the methods of the present invention can be practiced on any cell, provided the cell possesses/expresses an ion channel that is permeable to thallium.
- ion channels include but are not limited to potassium ion channels, ion channels that are linked to receptors, e.g., GIRK, and channel-linked receptors, e.g., GPCR, and ion transporters, e.g., glutamate transporters.
- the cells may normally possess or express the ion channels, or the ion channels may be introduced into the cells using well-known transfection and transformation techniques. Methods are provided for assaying cells expressing native levels of ion channel (e.g., non-engineered cells) and for assaying cells that have been modified (e.g., engineered) by the practitioner to include an ion channel.
- the methods are not limited to a particular type of ion channel, provided that the channel is permeable to thallium.
- the types of ion channels that can be used in the methods of the invention include, but are not limited to, ligand- or voltage-gated, stretch-activated cation channels, selective or non-selective cation channels.
- Types of ligand-gated non-selective cation channels include, but are not limited to, acetylcholine receptors, glutamate receptors such as AMPA, kainate, and NMDA receptors, 5-hydroxytryptamine-gated receptor-channels, ATP-gated (P2X) receptor-channels, nicotinic acetylcholine-gated receptor-channels, vanilloid receptors, ryanodine receptor-channels, IP 3 receptor-channels, cation channels activated in situ by intracellular cAMP, and cation channels activated in situ by intracellular cGMP.
- acetylcholine receptors glutamate receptors such as AMPA, kainate, and NMDA receptors
- glutamate receptors such as AMPA, kainate, and NMDA receptors
- glutamate receptors such as AMPA, kainate, and NMDA receptors
- 5-hydroxytryptamine-gated receptor-channels
- Types of voltage-gated ion channels include, but are not limited to, Ca 2+ , K + , and Na + channels.
- the channels can be expressed exogenously or endogenously.
- the channels can be stably or transiently expressed in both native or engineered cell lines.
- K + channels include, but are not limited to, KCNQ1 (KvLOT1), KCNQ2, KCNQ3, KCNQ4, KCNQ5, HERG, KCNE1 (IeK, MinK), Kv1.5, Kir 3.1, Kir 3.2, Kir 3.3, Kir 3.4, Kir 6.2, SUR2A, ROMK1, Kv2.1, Kv1.4, Kv9.9, Kir6, SUR2B, KCNQ2, KCNQ3, GIRK1, GIRK2, GIRK3, GIRK4, h1K1, KCNA1, SUR1, Kv1.3, hERG, intracellular calcium-activated K + channels, rat brain (BK2); mouse brain (BK1) and the like. Additional ion channels are disclosed in Conley, E. C. and Brammer, W. J., The Ion Channel, Factsbook IV, Academic Press, London, UK, (1999), which is incorporated herein by reference.
- Types of Na + channels include, but are not limited to, rat brain I, II and III, human II and the like.
- Types of Ca 2+ channels include, but are not limited to, human calcium channel ⁇ 1 , ⁇ 2 , ⁇ and/or ⁇ subunits, the ryanodine receptor (RyR) and the inositol 1,4,5-triphosphate receptor (IP 3R ), rabbit skeletal muscle ⁇ 1 subunit, rabbit skeletal muscle ⁇ 2 subunit, rabbit skeletal muscle p subunit, rabbit skeletal muscle ⁇ subunit and the like.
- RyR ryanodine receptor
- IP 3R inositol 1,4,5-triphosphate receptor
- Channel activity may be modulated from interactions between receptor subunits with ion channels, e.g., GPCR ⁇ - ⁇ subunits and GPCR-linked K + channels, e.g., GIRKs, or by changes in the concentrations of messenger molecules such as calcium, lipid metabolites, or cyclic nucleotides which, modulate the ion channel activity.
- ion channels e.g., GPCR ⁇ - ⁇ subunits and GPCR-linked K + channels, e.g., GIRKs
- the present invention provides methods for monitoring, detecting and/or measuring the activity of intracellular events that are known to cause changes in ion channel permeability.
- Intracellular activity can include, but is not limited to protein phosphorylation or de-phosphorylation, up-regulation or down-regulation of transcription, internal calcium influx or efflux, cellular division, cellular apoptosis, receptor dimerization and the like.
- the measurement or detection of such intracellular events can also serve as a indirect detection or measure of the ion channels, if so desired.
- G-coupled protein receptors may also be utilized in the present invention.
- G-coupled protein receptors include, but are not limited to, muscarinic acetylcholine receptors (mAChR), adrenergic receptors, serotonin receptors, dopamine receptors, angiotensin receptors, adenosine receptors, bradykinin receptors, metabotropic excitatory amino acid receptors and the like.
- Another type of indirect assay of the invention involves determining the activity of receptors which, when activated, result in a change in the level of intracellular cyclic nucleotides, e.g., cAMP, cGMP.
- cyclic nucleotide-gated ion channels e.g., rod photoreceptor cell channels and olfactory neuron channels are known to be permeable to cations upon activation by binding of cAMP or cGMP.
- a change in cytoplasmic ion levels caused by a change in the amount of cyclic nucleotide activation of photo-receptor or olfactory neuron channels, can be used to determine the function of receptors that cause a change in cAMP or cGMP levels when activated.
- a reagent that increases or decreases intracellular nucleotide levels is added to the cell, e.g., forskolin, prior to the addition of a receptor-activating compound.
- forskolin which is known to increase intracellular levels of nucleotide levels, may be added to the cells prior to adding a receptor-activating compound to the cells in the assay.
- Cells used for this type of assay can be generated by co-transfection of a host cell with DNA encoding an ion channel, such as hERG, and DNA encoding a channel-linked receptor which, when activated, cause a change in cyclic nucleotide levels in the cytoplasm.
- an ion channel such as hERG
- Receptors for use in the invention include, but are not limited to, muscarinic receptors, e.g., human M2, rat M3, human M4, human M5, and the like.
- Other receptors include, but are not limited to, neuronal nicotinic acetylcholine receptors, e.g., the human ⁇ 2 , human ⁇ 3 , and human ⁇ 2 , human ⁇ 5 , subtype rat ⁇ 2 subunit, rat ⁇ 3 subunit, rat ⁇ 4 subunit, rat ⁇ 5 subunit, chicken ⁇ 7 subunit, rat ⁇ 2 subunit, rat ⁇ 3 subunit rat ⁇ 4 subunit, combinations of the rat ⁇ a subunits, rat NMDAR1 receptor, mouse NMDA e1 receptor, rat NMDAR2A, NMDAR2B and NMDAR2C receptors, rat metabotropic mGluR1 receptor, rat metabotropic mGluR2, mGluR
- receptors include, but are not limited to, adrenergic receptors, e.g., human beta 1, human alpha 2, hamster beta 2, and the like.
- Still other receptors include, but are not limited to, dopamine receptors, serotonin receptors and serotonin receptors, e.g., human D2, mammalian dopamine D2 receptor, rat dopamine receptor, human 5HT1a, serotonin 5HT1C receptor, human 5HT1D, rat 5HT2, rat 5HT1c and the like.
- ion channel also includes ion transporters.
- ion transporters include, but are not limited to, neurotransmitter ion transporters, e.g., dopamine ion transporter, glutamate ion transporter or serotonin ion transporter, sodium-potassium ATPase, proton-potassium ATPase, sodium/calcium exchanger, and potassium-chloride ion co-transporter.
- Types of cells that can be used in the methods of the present invention include, but are not limited to, bacterial cells, yeast cells, plant cells and animal cells.
- animal cells that can be used in the present invention include but are not limited to insect cells, avian cells, and mammalian cells.
- Other examples of cells that can be examined using the methods of the invention are neurons, cardiac cells, cancer cells, smooth muscle cells, and the like.
- the cells may be immortalized cells.
- Methods to determine activity of an ion channel in a cell are provided and may be used to detect influx or efflux of thallium (e.g., thallium ions) though an ion channel of a cell.
- a method of determining influx of thallium through an ion channel is provided.
- methods to evaluate thallium influx involve contacting a cell (or a solution of cells) with a loading buffer solution that includes a thallium indicator and a physiological concentration of chloride ions.
- a stimulus buffer that includes thallium then is added to the cell to cause thallium influx into the cell through the ion channel.
- Detection of the thallium indicator upon stimulation of the cell provides information about the activity of the ion channel.
- an optical property of the thallium indicator is detected.
- a loading buffer solution is provided to the cells.
- the loading buffers used in the present invention comprise an environmentally sensitive agent and chloride ions.
- an “environmentally sensitive agent” is a compound, such as a dye, where at least one property (e.g., optical property) of the compound changes in response to one aspect of its immediate environment.
- at least one optical property of the agents used in the present invention should be sensitive to thallium concentrations.
- an environmentally sensitive agent may be a thallium sensitive agent.
- a “thallium sensitive agent” or “thallium indicator,” as used herein, is a compound having at least one optical property, such as a dye, where at least one property (e.g., optical property) of the compound changes in response to the presence or absence of thallium (e.g., thallium ions).
- the loading buffer may also include additional components, such as but not limited to, serum albumin, transferrin, L-glutamine, lipids, antibiotics, ⁇ -mercaptoethanol, vitamins, minerals, ATP and similar components may be present.
- the loading buffer may also include at least one inhibitor of organic ion transport, such as, but not limited to, benzbromarone, probenecid allopurinol, colchicine and sulfinpyrazole.
- vitamins examples include, but are not limited to vitamins A, B 1 , B 2 , B 3 , B 5 , B 6 , B 7 , B 9 , B 12 , C, D 1 , D 2 , D 3 , D 4 , D 5 , E, tocotrienols, K 1 and K 2 .
- Additional components to improve solubilization of the thallium indicator such as surfactants (e.g., polyoxyalkylene ethers, such as PLURONIC F127, P85, and the like, available from BASF Corporation, Mount Olive, N.J.) or POWERLOAD (available from Invitrogen Corporation, Carlsbad, Calif.) may be included in the loading buffer.
- surfactants e.g., polyoxyalkylene ethers, such as PLURONIC F127, P85, and the like, available from BASF Corporation, Mount Olive, N.J.
- POWERLOAD available from Invitrogen Corporation, Carlsbad, Calif.
- concentration of supplements may, for example, be from about 0.001 ⁇ M to about 1 mM or more. Specific examples of concentrations at which the supplements may be provided include, but are not limited to about 0.005 ⁇ M, 0.01 ⁇ M, 0.05 ⁇ M, 0.1 ⁇ M, 0.5 ⁇ M, 1.0 ⁇ M, 2.0 ⁇ M, 2.5 ⁇ M, 3.0 ⁇ M 4.0 ⁇ M, 5.0 ⁇ M, 10 ⁇ M, 20 ⁇ M, 100 ⁇ M, etc.
- Agents used to assist and retain dye loaded into cells may also be used, such as probenecid in a variety of possible formulations, including a water soluble form or a base-soluble form prepared and used at concentrations ranging from 100 micromolar to 10 millimolar.
- Thallium sensitive agents are employed as an indicator of the flux of thallium across the cell membrane and are sufficiently sensitive so as to produce detectable changes in at least one optical property in response to changes in the concentration of the thallium ions in the cell cytoplasm.
- Types of thallium sensitive agents that can produce a detectable signal include, but are not limited to, fluorescent compounds and non-fluorescent compounds.
- Thallium indicators that may be used in the practice of the invention include compounds having sensitivity to monovalent ions or divalent ions.
- a thallium indicator may have sensitivity to monovalent ions, such as Li + , Na + , K + , Rb + , Ag + , Au + , or sensitivity to divalent ions, such as Zn +2 , Ca +2 , Mg 2+ , Hg 2+ , Pb 2+ , Cd 2+ , Fe 2+ , and Ni 2+ .
- the type of assay and/or ion channel being evaluated can be an important factor in determining which thallium indicator is used. For certain applications, a thallium indicator having a high sensitivity to thallium may be required. In other applications, however, lower sensitivity thallium indicators may be used. Thallium indicators with varying sensitivities to thallium ions are provided.
- the thallium indicator has sensitivity to thallium (I) ions.
- a compound's sensitivity to thallium (I) ions may be assessed in a number of different ways.
- One approach is to use a fluorescence-based sensitivity assay.
- a thallium sensitivity assay may involve combining a compound, as described herein, at a given concentration with varying amounts thallium ions in buffer and monitoring the change in the compound's fluorescence intensity as a function of increasing thallium ion concentration.
- Thallium sensitivity may be evaluated using the Thallium Sensitivity Assay described in Example 3.
- Thallium-sensitive compounds typically have a large fluorescence intensity change at low thallium concentrations (e.g., concentrations of ⁇ 4.5 mM). Thallium indicators having a fluorescence intensity change of 25% or more in the presence of thallium at a concentration of 5 mM or less are considered to be particularly sensitive to thallium and may be used in the assay methods described herein.
- the thallium sensitive agent is a fluorescent compound (e.g., a fluorescent dye).
- a fluorescent compound e.g., a fluorescent dye
- the compound is selected to detect low concentrations of thallium ions (e.g., ⁇ 4.5 mM).
- the compound may exhibit a change in one or more fluorescence properties upon association with thallium. For example, the fluorescence intensity of certain compounds may increase upon association with thallium. Alternatively, the fluorescence intensity of certain compounds may decrease upon association with thallium.
- the thallium indicator is a compound that binds to thallium (I) ions to produce a change in its fluorescence properties.
- thallium indicators include fluorescent compounds based on xanthene.
- Xanthene-based compounds include, for example, fluorosceins or rhodols or rhodamines.
- the thallium indicator is a xanthene derivative.
- the thallium indicator is a rhodol derivative.
- the thallium indicator is a rhodamine derivative.
- Exemplary xanthene-based compounds which may be used in the practice of the invention, include fluorosceins or rhodols substituted on one or more aromatic carbons by a halogen, such as, for example, fluorine.
- exemplary fluorine-substituted xanthenes include those described in, for example, U.S. Pat. No. 6,162,931 and Gee et al., Cell Calcium; 2002, 31(5): 245-51.
- the following list provides particular examples of fluorinated xanthenes from which thallium indicators may be derived and which may be used according to the methods described herein:
- Xanthene-based compounds having sensitivity to thallium also include commercially available compounds, such as FluoZin 1, FluoZin 2, FluoZin 3, Fluo-4FF, Magnesium Green, RhodZin-3, and Phen Green (all available from Invitrogen Corporation, Carlsbad, Calif.).
- thallium indicators which include a coumarin moiety.
- Representative examples of coumarin-based thallium indicators include, for example, BTC or a derivative thereof (e.g., APTRA-BTC).
- thallium indicators which include a benzofuran moiety.
- benzofuran-based thallium indicators include, for example, Mag-Fura Red or a derivative thereof (Invitrogen Corporation, Carlsbad, Calif.).
- thallium indicators which include a naphthalene moiety.
- naphthalene-based thallium indicators include, for example, ANTS (Invitrogen Corporation, Carlsbad, Calif.)
- thallium indicators which include a crown ether moiety.
- crown ether-based thallium indicators include, for example, PBFI (Invitrogen Corporation, Carlsbad, Calif.).
- thallium indicators of the invention may include an ion-complexing moiety.
- ion-complexing moieties include crown ethers, including diaryldiaza crown ethers; derivatives of 1,2-bis-(2-aminophenoxyethane)-N,N,N′,N′-tetraacetic acid (BAPTA); derivatives of 2-carboxymethoxy-aniline-N,N-diacetic acid (APTRA); derivatives of 2-methoxy-aniline-N,N-diacetic acid, and pyridyl-based and phenanthroline metal ion chelators.
- the thallium sensitive agents may be hydrophilic or hydrophobic. Any of the thallium sensitive compounds described herein, may be further derivatized to include a moiety that increases the hydrophilicity or hydrophobicity of the compound. For example, the compound may be derivatized to convert it to a more hydrophobic form, which may be able to more easily permeate cell membranes.
- the thallium sensitive fluorescent agents can be loaded into the cell by contacting the cells with a loading buffer comprising the dye or a membrane-permeable derivative of the dye. Loading the cells with the dye may be further facilitated by using a more hydrophobic form of the dye.
- thallium indicators with a cleavable hydrophobic moiety may readily enter the cell through the cell membrane. Once inside the cell, the moiety may be cleaved by an agent (e.g., enzyme) within the cell to produce a less hydrophobic compound, which remains trapped within the cell.
- agent e.g., enzyme
- the cleavable moiety may be any moiety susceptible to cleavage by an enzyme (e.g., esterases, lipases, phospholipases, and the like).
- Representative cleavable moieties include, for example, hydrophobic moieties, such acetoxymethyl (AM) ester.
- a thallium indicator may be a dye in the form of an acetoxymethyl ester (AM), which is more hydrophobic in nature than the unmodified form of the dye, and is able to permeate cell membranes much more readily.
- AM acetoxymethyl ester
- the ester group is removed by cytosolic esterases, thereby trapping the dye in the cytosol.
- the thallium indicator is an AM ester derivative of a xanthene-based compound (e.g., a fluorinated xanthene, such as a fluorinated rhodol or fluoroscein).
- the thallium indicator is an AM ester derivative of a coumarin-based compound.
- the thallium indicator is an AM ester derivative of a benzofuran-based compound.
- the thallium indicator is an AM ester derivative of a naphthalene-based compound.
- the thallium indicator is an AM ester derivative of a crown-ether-based compound.
- the thallium indicator may be in the form of a salt.
- Salt refers to acceptable salts of a compound, which salts are derived from a variety of organic and inorganic counter ions well known in the art and include, by way of example only, sodium, potassium, calcium, magnesium, ammonium, and tetraalkylammonium; and when the molecule contains a basic functionality, salts of organic or inorganic acids, such as hydrochloride, hydrobromide, tartrate, mesylate, acetate, maleate, and oxalate.
- thallium indicator salts that may be used in the practice of the invention include those with a counterion, such as, for example, Na + , K + , NH 4+ , and NR 4+ .
- Salts of the compounds described herein may be prepared as salts using methods that are well known to those skilled in the art. It should also be understood that more than one thallium indicator (e.g., a combination of two or more thallium indicators) may be used in the practice of the invention.
- optical properties of the thallium indicators utilized in the present invention can be any optical property of the compound, provided that the property can change in response to thallium.
- optical properties of the luminescent (e.g., fluorescent) dyes include, but are not limited to intensity, frequency and polarity. In one specific embodiment, the intensity of the dye is detected or measured.
- the fluorescence intensity of the thallium indicator may increase or decrease in the presence of thallium ions.
- thallium sensitive fluorescent agents e.g., ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, Magnesium Green, BTC, APTRA-BTC, Mag-Fura Red, Fluo-4FF, FluoZin-1 and FluoZin-2
- ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, APTRA-BTC and Mag-Fura Red demonstrate a decrease in fluorescence intensity in the presence of thallium ions.
- Magnesium Green, RhodZin-3, BTC, Fluo-4FF, FluoZin-1 and FluoZin-2 demonstrate an increase in fluorescence in the presence of thallium ions.
- the excess fluorescent compound can be removed by using a sufficient amount of an extracellular quencher.
- a “quencher,” as used herein refers to a photon-reducing agent, which absorbs energy emitted by the fluorescent thallium indicator without reemitting fluorescence energy.
- the use of extracellular quencher removes the need to wash unloaded thallium sensitive fluorescent agent from the cells.
- the extracellular quenchers are not necessarily cell permeant and can be light absorbing fluorescent compounds having a fluorescence that can be easily separated from that of the thallium sensitive fluorescent agent. The absorption spectrum of the extracellular quenchers significantly absorbs the emission of the thallium sensitive fluorescent agent.
- the extracellular quenchers must be of a chemical composition that prevents their passage into the cells, and, generally speaking, the quenchers should be charged or very large compounds.
- concentration range for extracellular quenchers may range from micromolar to millimolar concentrations, depending on their light absorbing properties.
- Types of extracellular quenchers that can be used include, but are not limited to, tartrazine and amaranth, acid red 37, congo red, trypan blue, brilliant black or a mixture of such quenchers. Quenchers are described in the Sigma-Aldrich Handbook of Dyes, Stains, and Indicators (Floyd G. Green, 1990, St. Louis, Mo., USA).
- the invention also provides for the use of non-fluorescent agents that are sensitive to thallium concentrations.
- the invention provides using a thallium sensitive agent which is a non-fluorescent compound that associates or reacts with thallium ion to form a product that can either form a precipitate or form a product that is colored, and thus cause detectable changes in the optical density of the test mixture.
- a thallium sensitive agent which is a non-fluorescent compound that associates or reacts with thallium ion to form a product that can either form a precipitate or form a product that is colored, and thus cause detectable changes in the optical density of the test mixture.
- These compounds include but are not limited to, iodide, bromide, and chromate.
- absorbance can be recorded by, for example, a spectrophotometer, before, during, and after addition of thallium ions, and addition of channel modulators.
- the cells expressing ion channels and/or receptors are loaded with iodide, bromide or chromate ion.
- the cells are washed with, for example, a buffered saline solution.
- the transport of thallium into cells causes an increase or decrease in the optical density signal.
- Thallium ions pass through open channels down its concentration gradient and can result in changes in the optical density inside the cell, resulting in the recorded signals.
- Activation of the ion channel enhances the rate of influx of thallium ions, which can result, for example, in an increased formation of precipitant or colored product; inhibition decreases the rate of influx of thallium ions, which, can result, for example, in no or little change in precipitation or colored product formation.
- the optical density remains the same if no thallium ions react with the non-fluorescent compound.
- the loading buffer may also comprise chloride (e.g., chloride ions).
- the loading buffer comprises a detectable amount of chloride.
- the loading buffer is chloride-free.
- the loading buffer is substantially free of chloride ions (e.g., less than 2 mM).
- the loading buffer includes less than 1 mM chloride ions.
- One of the advantages that the present invention provides is to allow the use of chloride in the loading buffer and in the cell media, prior to stimulating the cells with thallium.
- the source of chloride in buffers is usually from the NaCl or KCl salt, but the chloride can be from any source if present.
- the chloride if present in the buffers, e.g., the loading buffer or the washing buffer, can be at virtually any concentration, since the methods of the present invention are not dependent upon the absence of chloride. Since chloride ions do not interfere with the assay, buffers containing physiological relevant concentrations of chloride can be used in the practice of the invention. “Physiological relevant concentration” refers to a concentration that is characteristic of or consistent with an organism's healthy or normal functioning. In certain embodiments, the chloride concentration of the loading solution is greater than about 2 mM. In certain embodiments, the chloride concentration of the loading solution is greater than about 5 mM. In certain embodiments, the chloride concentration of the loading solution is greater than about 10 mM.
- the chloride concentration of the loading solution is about 5 mM to about 20 mM. In yet other embodiments, the chloride concentration of the loading solution is greater than about 20 mM to about 100 mM. In yet other embodiments, the chloride concentration of the loading solution is about 50 mM to about 150 mM. In some embodiments, the loading buffer comprises chloride that is at a concentration of about 10 mM, to about 150 mM. In other embodiments, the loading buffer comprises chloride at a concentration of about 50 mM to about 150 mM. In other embodiments, the loading buffer comprises chloride at a concentration of about 75 mM to about 125 mM. In other embodiments, the loading buffer comprises chloride at a concentration of about 100 mM to about 125 mM. Other concentrations of chloride may also be used, where one of skill in the art can readily determine the levels of chloride that are acceptable.
- the stimulus buffer is added to the cells to stimulate thallium movement into or out of the cells.
- the stimulus buffer should comprise thallium.
- a stimulus buffer is a solution that activates the ion channel, channel-linked receptor or ion transporter (e.g., agonist).
- ion channels/transporters may be constitutively active and thus would not require a “stimulus” in addition to the thallium ion tracer.
- that stimulus may be ligand (a molecule that binds to the channel or channel linked receptor and activates the same (an agonist).
- a stimulus might also be a change in membrane potential for voltage-gated channels.
- voltage-gated channels are activated by either direct electrical stimulation with electrodes or by using a stimulus solution that contains an ionic composition that will cause depolarization (such as high external potassium).
- thallium ions can also act as a stimulus for voltage-gated channels.
- thallium ions can act as both a “tracer” and a depolarizing stimulus.
- thallium ions can be added just before, during, or after the addition of a stimulus.
- the methods of the present invention can use stimulus buffers that are selected based on the type of ion channel, channel-linked receptor or ion transporter used in the method. Selecting an appropriate stimulus solution and ion channel, channel-linked receptor or ion transporter-activating reagent, is within the skill of the art.
- the stimulus buffers include a buffer that does not include reagents that activate the ion channel, such that the ion channels, the channel-linked receptors or the ion transporters remain substantially at rest.
- the stimulus solution includes reagents that do not activate the ion channel, channel-linked receptor or ion transporter of interest but facilitate activation of ion channel, channel-linked receptor or ion transporter when a modulating reagent is added to the cells to initiate the assay.
- the stimulus solution selected for use with voltage-dependent ion channels depends upon the sensitivity of the ion channel to the resting potential of the cell membrane.
- the stimulating solution may include activating reagents that serve to depolarize the membrane, e.g., ionophores, valinomycin, etc.
- a stimulus buffer selected for use with some voltage-dependent ion channels for activation by depolarization of the cell membrane includes potassium salt at a concentration such that the final concentration of potassium ions in the cell-containing well is in the range of about 10-150 mM, e.g., 50 mM KCl.
- voltage-dependent ion channels may also be stimulated by an electrical or light activated stimulus, such as is the case with light excitation of quantum dot nanocrystals or light sensitive ion channels expressed on the cell's surface.
- the stimulus buffer selected for use with channel-linked receptors and ligand-gated ion channels depends upon ligands that are known to activate such receptors.
- nicotinic acetylcholine receptors are known to be activated by nicotine or acetylcholine; similarly, muscarinic acetyl choline receptors may be activated by addition of muscarine or carbamylcholine.
- the stimulating buffer for use with these systems may include nicotine, acetylcholine, muscarine or carbamylcholine.
- the stimulus is an agonist of a G-protein coupled receptor that is capable of activating GIRK potassium ion channels to allow thallium influx.
- the stimulus buffer may include a composition that will cause depolarization of the ion channel.
- a depolarizing composition may include, for example, agents such as ionophores, valinocmycin, or potassium salts. Depolarization of cell membranes may be achieved using light activated ion channels on the cell surface, such as channel rhodopsin or halorhodopsin, or light activated quantum dot nanocrystals.
- Thallium in the stimulus buffer can be in any form, but it will primarily be in the form of a salt, thus providing thallium ions.
- the source of thallium is a salt.
- the thallium salts for use in thallium solutions used in the methods of the invention include those that are water soluble, such as but not limited to, Tl 2 SO 4 , Tl 2 CO 3 , TlCl, TlOH, TlOAc, TlNO 3 salts and the like.
- the thallium salt is soluble in the loading buffer solution.
- the thallium in the stimulus buffer can be at a very low concentration, since the thallium indicators of the invention are sensitive to very low concentrations of thallium. Since thallium may be present in a low concentration, thallium ions can remain soluble in the buffers, described herein, regardless of the concentration of chloride.
- the thallium (e.g., thallium ions) in the stimulus buffer is at a concentration of less than about 4.5 mM. In certain embodiments, the thallium concentration may be less than about 4.0 mM. In other embodiments, the thallium concentration may be less than about 3.0 mM. In other embodiments, the thallium concentration may be 2.5 mM or less.
- the concentration of thallium may be about 0.1 mM to about 2 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM.
- the concentration of thallium e.g., thallium ions
- the concentration of thallium may be about 0.1 mM to about 4 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM.
- Certain methods of the invention utilize a stimulus buffer with thallium at a concentration of about 1 mM to about 10 mM and a loading buffer that includes chloride ions at a concentration of about 10 mM to about 150 mM.
- the concentration of thallium may be about 2 mM to about 5 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM. In other embodiments, thallium is at a concentration of about 5 mM to about 20 mM and the loading buffer comprises chloride ions at a concentration of about 10 mM to about 150 mM.
- the loading buffer comprises chloride ions at a concentration of about 50 mM to about 150 mM
- concentration of thallium e.g., thallium ions
- concentration of thallium may be about 0.1 mM to about 2 mM; or about 0.1 mM to about 4.0 mM; or about 1 mM to about 10 mM; or about 2 mM to about 5 mM; or about 5 mM to about 20 mM.
- concentrations of thallium and chloride may also be used in the methods of the invention.
- solutions include a thallium indicator, a loading buffer comprising a thallium indicator and a physiological concentration of chloride ions, and thallium (e.g., thallium ions).
- the thallium concentration in the solution is typically ⁇ 4.0 mM, but the solution may include higher levels of thallium, as well.
- the thallium concentration of the solution may range from about 0.1 mM to about 20 mM.
- the thallium concentration of the solution may be about 0.1 mM to about 2 mM; or about 0.1 mM to about 4.0 mM; or about 1 mM to about 10 mM; or about 2 mM to about 5 mM; or about 5 mM to about 20 mM.
- the chloride concentration of the solution may be about 150 mM or less and may range from about 10 mM to about 150 mM; or about 50 mM to about 150 mM; or about 100 mM to about 150 mM.
- the thallium concentration is less than 4.0 mM and the chloride ion concentration is 50 mM to about 150 mM.
- the thallium indicator is present in the solution in an amount to be sufficient to detect the presence of thallium ions.
- the transport of thallium sensitive agents and thallium ions into cells is followed by an increase or decrease in the signal of the environmentally sensitive agent.
- Thallium ions move through open channels along their concentration gradient and change the intensity of dye fluorescence inside the cell, resulting in the recorded signals.
- Activation of the ion channel enhances the rate of influx of thallium ions (resulting in a change in the fluorescence of the thallium sensitive fluorescent compound) and inhibition decreases the rate of influx of thallium ions (resulting in no or little change in the fluorescence of the thallium sensitive fluorescent agent).
- the fluorescence remains the same if no thallium ion is bound to it.
- At least one optical property of the environmentally sensitive agent is detected or measured in the methods of the present invention.
- any optical property of the fluorescent dye can be measured or detected to determine thallium influx or efflux.
- optical properties of fluorescent dyes include, but are not limited to, intensity, polarity and frequency of the luminescence of the fluorescent dyes. If non-fluorescent dyes are used as the detecting agent, the optical properties of the agent to be detected can be also be intensity, polarity and frequency.
- measuring or detecting the optical properties of the agent includes measuring the optical density of the cells themselves, when, for example, the agent reacts with thallium to form a product or precipitant within the cell itself that may increase the optical density of the cell itself
- the fluorescence of the thallium sensitive agent can be measured by devices that detect fluorescent signals, such as but not limited to spectrophotometers, microscopes and the like.
- the fluorescence of the dyes is detected and/or measured using a standard 96-well plate reader.
- Another type of device is a fluorescent imaging plate readers, such as the FLIPR device (Molecular Devices Corp., Sunnyvale, Calif.), where fluorescence is recorded at a rate of up to 1 Hz, before, during, and after addition of thallium ions, and addition of candidate ion channel, channel-linked receptor or ion transporter modulators.
- FLIPR device Molecular Devices Corp., Sunnyvale, Calif.
- Examples of devices used for non-adherent cells include FLIPR devices and flow cytometers (Becton-Dickinson).
- Still more examples of devices and methods used to detect or measure the optical properties of the agents include, but are not limited to, light microscopy, confocal microscopy, and fluorescence microscopy.
- the activity of channel-linked receptors is determined, where the activation of the receptor initiates subsequent intracellular events that lead to the modulation of ion channel activity.
- the invention also provides methods for identifying compounds that modulate ion channel, channel-linked receptor, or ion transporter activity.
- any chemical compound can be used as a potential modulator in the assays of the invention.
- the candidate compounds can be dissolved in aqueous or organic (e.g., DMSO-based) solutions.
- aqueous or organic (e.g., DMSO-based) solutions e.g., DMSO-based
- the present invention also provides methods for detecting the efflux of thallium through an ion channel.
- methods to evaluate thallium efflux involve loading a cell that includes an ion channel with thallium using methods that are known to those skilled in the art.
- a cell may be combined with a solution (e.g., buffer) containing thallium (e.g., thallium salt) and incubated for a time sufficient to load the cells with thallium.
- the thallium-loaded cells can, optionally, be washed to remove excess thallium.
- a solution that includes a thallium indicator and a physiological concentration of chloride ions then is added to the cell and the ion channel of the cell is stimulated, such as to cause flux of thallium through the ion channel.
- a thallium indicator that is impermeable to the ion channel may be used, such that the indicator does not pass into the cell. Detection of the thallium indicator upon stimulation of the cell provides information about the activity of the ion channel. In certain embodiments, an optical property of the thallium indicator is detected.
- the efflux assays can use the same cells as in the influx assays, and are loaded with a signal generating thallium sensitive fluorescent agent, as described herein, such as BTC. Additional examples of indicators that may be used in the described efflux assays include, without limitation, Magnesium Green, Fluo-4FF, FluoZin-1 or FluoZin-2, RhodZin-3, ANTS, Fluo-4, Fluo-3, PBFI, Phen Green, or Mag-Fura Red or a derivative or salt thereof.
- the cells are contacted with thallium to load the cells.
- One embodiment provides contacting the cells with thallium ions for approximately 15 minutes.
- the cells can be washed to remove excess thallium ions and assayed using the same instrument to detect changes in signal as used in the influx assay, e.g., the Fluorometric Image Plate Reader (FLIPR) (Molecular Devices Corp., Sunnyvale, Calif., USA.).
- FLIPR Fluorometric Image Plate Reader
- the assay channels are stimulated to open by the addition of any one of a number of ligands, or by changing the membrane potential of the cell, such as by changing the potassium concentrations, to permit efflux of ions through the ion channels. For example, an efflux would result in a decrease in fluorescence of BTC.
- the other compounds, such as control compounds can be the same as used in the influx assays.
- the same conditions are applied as for the influx assay in the methods of the invention, except the cells are preloaded with thallium ions as described above, and washed to remove excess thallium ions.
- the thallium indicator may be any of compounds described herein.
- a thallium indicator is a fluorescent compound that exhibits a fluorescence intensity change of 25% or greater in the Thallium Sensitivity Assay, described in Example 3.
- Certain thallium indicators sensitive to monovalent and divalent cations e.g., Zn 2+ or Ca 2+ ) test positive in the Thallium Sensitivity Assay and are particularly useful in the fluorescence-based thallium influx and efflux assays of the invention.
- fluorescent thallium indicators include compounds with a xanthene moiety (e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof); a benzofuran moiety, such as Mag-Fura Red or a derivative or salt thereof a naphthalene moiety (e.g., ANTS), or a crown ether moiety (e.g., PBFI).
- a xanthene moiety e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof
- a benzofuran moiety such as Mag-Fura Red or a derivative or salt thereof a naphthalene moiety (e.g., ANTS), or a crown ether mo
- Fluorescent xanthine, benzofuran, naphthalene, and crown-ether-based compounds substituted with an acetoxymethyl ester moiety may be used under certain circumstances (e.g., to retain the compound within the cell).
- a fluorescent thallium indicator that includes a coumarin moiety (e.g., BTC or APTRA-BTC or a derivative or salt thereof).
- methods for detecting the activity of an ion channel in a cell, the method comprising: a) providing a cell with an ion channel; b) providing a loading buffer solution to the cell, the loading buffer solution comprising a thallium indicator and a physiological concentration of chloride ions (e.g., about 50 mM to about 150 mM); c) providing a stimulus buffer to the cell, wherein the stimulus buffer comprises thallium, and wherein providing the stimulus buffer causes thallium influx into the cell through the ion channel; and d) detecting the thallium indicator.
- the thallium concentration may be less than about 4.5 mM.
- the thallium indicator used in the method may be a fluorescent compound comprising a xanthene moiety (e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof).
- the thallium indicator may be a fluorescent compound comprising a benzofuran moiety, such as Mag-Fura Red or a derivative or salt thereof; a naphthalene moiety (e.g., ANTS), or a crown ether moiety (e.g., PBFI).
- methods for detecting the activity of an ion channel in a cell, the method comprising: a) loading a cell with thallium, wherein the cell comprises an ion channel; b) providing a solution to the cell, the solution comprising a thallium indicator and a physiological concentration of chloride ions (e.g., about 50 mM to about 150 mM); c) stimulating the ion channel of the cell, such as to cause efflux of thallium through the ion channel; and d) detecting the thallium indicator.
- the thallium concentration in the cell after loading may be less than about 4.5 mM.
- the thallium indicator used in the method may be a fluorescent compound comprising a xanthene moiety (e.g., FluoZin 1, FluoZin 2, FluoZin 3, FluoZin 4, Red Fluo-4FF, Magnesium Green, Phen Green, RhodZin-3, or a derivative or salt thereof).
- the thallium indicator may be a fluorescent compound comprising a benzofuran moiety, such as Mag-Fura Red or a derivative or salt thereof; a naphthalene moiety (e.g., ANTS), or a crown ether moiety (e.g., PBFI).
- the methods of the present invention can also be adapted to high-throughput screening methods, such that candidate ion channel modulators can be screened on a large scale.
- High-throughput screening assays are known, and employ the used of microtiter plates or pico- nano- or micro-liter arrays.
- the high-throughput methods of the invention can be performed using whole cells expressing ion channels, ion channel and channel-linked receptors or ion transporters of interest, by practicing the methods of the present invention on microtiter plates or the like.
- the cells can be cultured under adherent or non-adherent conditions.
- the target compounds are added to the cells as a pre-treatment and then the stimulus buffer(s) are added to the cells and, for example, fluorescence is detected.
- the change in the detectable signal would indicate the effect of the channel modulators in a particular well on a plate.
- the assays of the invention are designed to permit high throughput screening of large chemical libraries, e.g., by automating the assay steps and providing candidate modulatory compounds from any convenient source to assay.
- Assays which are run in parallel on a solid support e.g., microtiter formats on microtiter plates in robotic assays, are well known.
- Automated systems and methods for detecting and/or measuring changes in optical detection are also well known (U.S. Pat. Nos. 6,171,780; 5,985,214; and 6,057,114).
- the high throughput screening methods of the invention include providing a combinatorial library containing a large number of potential therapeutic modulating compounds (Borman, S, C. & E. News, 1999, 70(10), 33-48). Preparation and screening of combinatorial chemical libraries is well known to those of skill in the art.
- a combinatorial chemical library is a collection of diverse chemical compounds generated by using either chemical synthesis or biological synthesis, to combine a number of chemical building blocks, such as reagents.
- a linear combinatorial chemical library such as a polypeptide library
- a polypeptide library is formed by combining a set of amino acids in virtually every possible way for a given compound length, i.e., the number of amino acids in a polypeptide compound. Millions of chemical compounds can be synthesized through such combinatorial mixing of chemical building blocks.
- kits for detecting the activity of ion channels in a cell comprise the dye, the assay buffer, which may include chloride, and the stimulus buffer.
- the individual components of the buffers and the dyes may be lyophilized or stored in some other dehydrated form, where the individual can hydrate the components into stock or working solutions.
- the kits of the invention may contain virtually any combination of the components set out above or described elsewhere herein.
- One exemplary kit for detecting the activity of an ion channel (e.g., thallium influx) in a cell includes: a) a loading buffer solution that includes a thallium indicator and a physiological concentration of chloride ions; and b) a stimulus buffer that includes thallium, wherein the stimulus buffer causes thallium influx into the cell through the ion channel.
- an ion channel e.g., thallium influx
- kits for detecting the activity of an ion channel includes: a) a thallium loading solution that includes thallium (e.g., thallium ions; and b) a solution (e.g., buffer solution) that includes a thallium indicator and a physiological concentration of chloride ions.
- a thallium loading solution that includes thallium (e.g., thallium ions
- a solution e.g., buffer solution
- kits may be designed to perform various functions set out in this application and the components of such kits will vary accordingly.
- Component A is a compound having Component A:
- FluoZin-1 AM ester (Invitrogen) 1-20 ⁇ g Lyophilized and stored in a single use 15 mL vial
- Component B 5 ⁇ Assay Buffer: 1 ⁇ 25 mL
- Component C 5 ⁇ Chloride Free Stimulus Buffer: 1 ⁇ 25 mL
- Component D Concentrated (125 mM) K 2 SO 4 Solution: 1 ⁇ 20 mL
- Component E Concentrated (50 mM) Tl 2 SO 4 Solution: 1 ⁇ 20 mL
- Component F 100 ⁇ : 1 ⁇ 1 mL
- Cells comprising an ion channel are cultured to about 75% confluence and in log-phase growth.
- the cells are then harvested using well-known cell culture techniques and buffers and replated into a 96-well plate at a density of, for example, 2 ⁇ 10 5 cells/well.
- the cells can comprise the ion channel endogenously, or the cells can be engineered to comprise ion channels of a particular type. Methods of transfecting and/or transforming cells to express a particular type of protein are well known in the art and need not be repeated herein.
- a vial of component A is warmed to room temperature, 100 uL Component F is added to the loading buffer to solubilize and carry the dye into the cells across the plasma membrane.
- Component F is added to the loading buffer to solubilize and carry the dye into the cells across the plasma membrane.
- 2 mL of component B 5 ⁇ HBSS (Hank's Buffered Salt Solution) is added, followed by 8 mL H 2 O.
- the cell culture media is aspirated from the cells in the 96 well plate and replaced with 100 ⁇ L loading buffer per well. Media left behind in the wells will promote hydrolysis of the dye before it enters the cells.
- microplate After loading, the microplate is covered from direct light and incubated at room temperature for 60-120 minutes. Best comparisons will be made between plated assayed after similar times in loading buffer.
- a stimulus buffer containing 25 mM K 2 SO 4 and 10 mM Tl 2 SO 4 is prepared according to the following: 2 mL H 2 O is combined with 1 mL Component C (5 ⁇ Chloride Free Buffer), 1 mL Component D (125 mM K 2 SO 4 ), 1 mL Component E (50 mM Tl 2 SO 4 ).
- This formulation will yield a stimulus buffer that dilutes into the microplate at 1:5, yielding final concentrations of 10 mM free potassium ion and 4 mM free thallium (I) ion.
- the stimulus buffer is poured into a trough for dispensing into the compound plate.
- 150 ul of the stimulus buffer is added per compound plate column for coverage of 4 microplate columns at 25 uL per dispense.
- the cells can be washed after the stimulus buffer is added to remove the extracellular thallium.
- the methods of the present invention can be performed with or without a washing step to remove the excess thallium.
- the fluorescence is read on a spectrophotometer.
- the sample is excited with light at 488 nm, and emission is read at 525 nm, with a filter cutoff of 515 nm.
- the time for reading is set for anywhere between 90-300 seconds, with 5 second interval readings.
- Cells transfected with the hERG ion channels were assayed using the methods of the present invention.
- Cells were loaded in assay buffer containing 0.5 uM FluoZin-1 AM ester and stimulated with 1 ⁇ dilution of stimulus buffer (Component C, containing 25 mM K 2 SO 4 and 10 mM Tl 2 SO 4 ).
- “Control” were tet-stimulated hERG 293 T Rex cells, and “no tet” traces were cells which were not stimulated to express hERG.
- the stimulus was delivered to the cells in a volume of 25 uL, added to 100 uL for a 5 ⁇ dilution.
- FIG. 1 demonstrates the absorbance curves of cells (plotted as dF/F as a function of time) transfected with the hERG ion channel and assayed using the methods of the present invention.
- FIG. 2 depicts hERG activity cells transfected with hERG ion channels (tetracycline induced and non-tetracycline induced) measured in a 96 well plate with the FLUXOR Thallium NW Detection Kit (Invitrogen Corporation, Carlsbad, Calif.) (time of potassium ion stimulation shown by arrow).
- An assay is provided to evaluate a compound's sensitivity to thallium (I).
- Compounds with sufficient sensitivity to thallium (I) may be used as thallium indicators for measuring thallium influx and efflux through ion channels.
- a 10 micromolar solution of a fluorescent compound is prepared in 10 mM HEPES buffer, pH 7.4.
- the maximum fluorescence emission intensity is measured by excitation at the compound's excitation maximum wavelength. The measurement is performed in a cuvette in spectrofluorimeter or in a microplate well in a fluorescence microplate reader.
- thallium (I) thallium sulfate
- the fluorescence intensity is measured and compared with the intensity obtained in the presence of zero thallium (I).
- An overall fluorescence intensity change of 25% or greater through the range of thallium (I) concentrations indicates that the compound has sufficient thallium (I) sensitivity to be further evaluated in assays for measuring thallium influx and efflux through ion channels.
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- Investigating, Analyzing Materials By Fluorescence Or Luminescence (AREA)
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PCT/US2008/079997 WO2009052183A1 (en) | 2007-10-15 | 2008-10-15 | Composition and method for measuring thallium influx and efflux |
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US15/269,326 Abandoned US20170067918A1 (en) | 2007-10-15 | 2016-09-19 | Composition and method for measuring thallium influx and efflux |
US16/298,810 Abandoned US20190242912A1 (en) | 2007-10-15 | 2019-03-11 | Composition and method for measuring thallium influx and efflux |
US17/816,043 Pending US20230120665A1 (en) | 2007-10-15 | 2022-07-29 | Composition and method for measuring thallium influx and efflux |
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US15/269,326 Abandoned US20170067918A1 (en) | 2007-10-15 | 2016-09-19 | Composition and method for measuring thallium influx and efflux |
US16/298,810 Abandoned US20190242912A1 (en) | 2007-10-15 | 2019-03-11 | Composition and method for measuring thallium influx and efflux |
US17/816,043 Pending US20230120665A1 (en) | 2007-10-15 | 2022-07-29 | Composition and method for measuring thallium influx and efflux |
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US (5) | US20100279314A1 (ja) |
EP (2) | EP2562543A1 (ja) |
JP (1) | JP2011501155A (ja) |
CN (1) | CN101971024A (ja) |
WO (1) | WO2009052183A1 (ja) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9103791B1 (en) | 2012-09-26 | 2015-08-11 | Vanderbilt University | Thallium fluorescent ion indicator and assay |
US9476892B2 (en) | 2007-10-15 | 2016-10-25 | Life Technologies Corporation | Composition and method for measuring thallium influx and efflux |
US11519859B2 (en) * | 2018-04-09 | 2022-12-06 | Vanderbilt University | Rhodol-based thallium sensors for high-throughput screening of potassium channels |
Families Citing this family (8)
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WO2008151303A1 (en) * | 2007-06-05 | 2008-12-11 | Invitrogen Corporation | Long wavelength fluorogenic intercellular ion indicators |
CN102393451B (zh) * | 2011-08-01 | 2013-10-23 | 重庆大学 | 基于能斯特电势荧光染料的细胞钾电极特性的检测方法 |
US20190187155A1 (en) * | 2016-08-17 | 2019-06-20 | Life Technologies Corporation | Composition and methods for measuring ion channel activity in a cell |
HU231387B1 (hu) | 2017-10-25 | 2023-06-28 | Cellpharma Kft. | Fluoreszcens festékfelhalmozódási vizsgálat |
CN109187504A (zh) * | 2018-07-11 | 2019-01-11 | 佛山市顺德区欧罗拉生物科技有限公司 | 一种基于离子通道阅读器的离子转运通道活性分析方法 |
CN110967321A (zh) * | 2018-09-29 | 2020-04-07 | 泰州医药城国科化物生物医药科技有限公司 | 一种用于均一体系细胞荧光检测钙流方法 |
KR102337718B1 (ko) * | 2020-06-15 | 2021-12-09 | 중앙대학교 산학협력단 | 탈륨 검출용 프로브 조성물 및 이를 이용하여 탈륨을 검출하는 방법 |
CN115927526B (zh) * | 2023-01-05 | 2023-05-26 | 北京爱思益普生物科技股份有限公司 | 一种hERG通道的高通量检测方法及其应用 |
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2008
- 2008-10-15 JP JP2010530083A patent/JP2011501155A/ja active Pending
- 2008-10-15 EP EP20120193171 patent/EP2562543A1/en not_active Withdrawn
- 2008-10-15 WO PCT/US2008/079997 patent/WO2009052183A1/en active Application Filing
- 2008-10-15 CN CN2008801179168A patent/CN101971024A/zh active Pending
- 2008-10-15 EP EP20080840647 patent/EP2201367B1/en active Active
- 2008-10-15 US US12/738,257 patent/US20100279314A1/en not_active Abandoned
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2014
- 2014-10-22 US US14/521,346 patent/US9476892B2/en active Active
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2016
- 2016-09-19 US US15/269,326 patent/US20170067918A1/en not_active Abandoned
-
2019
- 2019-03-11 US US16/298,810 patent/US20190242912A1/en not_active Abandoned
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2022
- 2022-07-29 US US17/816,043 patent/US20230120665A1/en active Pending
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US6057114A (en) * | 1991-12-20 | 2000-05-02 | Sibia Neurosciences, Inc. | Automated assays and methods for detecting and modulating cell surface protein function |
US6162931A (en) * | 1996-04-12 | 2000-12-19 | Molecular Probes, Inc. | Fluorinated xanthene derivatives |
US5985214A (en) * | 1997-05-16 | 1999-11-16 | Aurora Biosciences Corporation | Systems and methods for rapidly identifying useful chemicals in liquid samples |
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US20070172815A1 (en) * | 2000-10-13 | 2007-07-26 | Bristol-Myers Squibb Company | Method for detecting modulators of ion channels using thallium (i) sensitive assays |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9476892B2 (en) | 2007-10-15 | 2016-10-25 | Life Technologies Corporation | Composition and method for measuring thallium influx and efflux |
US9103791B1 (en) | 2012-09-26 | 2015-08-11 | Vanderbilt University | Thallium fluorescent ion indicator and assay |
US11519859B2 (en) * | 2018-04-09 | 2022-12-06 | Vanderbilt University | Rhodol-based thallium sensors for high-throughput screening of potassium channels |
Also Published As
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US20170067918A1 (en) | 2017-03-09 |
EP2562543A1 (en) | 2013-02-27 |
US9476892B2 (en) | 2016-10-25 |
WO2009052183A1 (en) | 2009-04-23 |
CN101971024A (zh) | 2011-02-09 |
US20230120665A1 (en) | 2023-04-20 |
EP2201367A1 (en) | 2010-06-30 |
JP2011501155A (ja) | 2011-01-06 |
US20150104823A1 (en) | 2015-04-16 |
US20190242912A1 (en) | 2019-08-08 |
EP2201367B1 (en) | 2013-03-20 |
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