WO2003009815A2 - Compositions and methods for modulating blood-brain barrier transport - Google Patents
Compositions and methods for modulating blood-brain barrier transport Download PDFInfo
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- WO2003009815A2 WO2003009815A2 PCT/US2002/023923 US0223923W WO03009815A2 WO 2003009815 A2 WO2003009815 A2 WO 2003009815A2 US 0223923 W US0223923 W US 0223923W WO 03009815 A2 WO03009815 A2 WO 03009815A2
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- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/17—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- A61K38/40—Transferrins, e.g. lactoferrins, ovotransferrins
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- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/17—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
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- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/50—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates
- A61K47/51—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent
- A61K47/62—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being a protein, peptide or polyamino acid
- A61K47/64—Drug-peptide, drug-protein or drug-polyamino acid conjugates, i.e. the modifying agent being a peptide, protein or polyamino acid which is covalently bonded or complexed to a therapeutically active agent
- A61K47/644—Transferrin, e.g. a lactoferrin or ovotransferrin
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P25/00—Drugs for disorders of the nervous system
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- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P25/00—Drugs for disorders of the nervous system
- A61P25/18—Antipsychotics, i.e. neuroleptics; Drugs for mania or schizophrenia
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P25/00—Drugs for disorders of the nervous system
- A61P25/28—Drugs for disorders of the nervous system for treating neurodegenerative disorders of the central nervous system, e.g. nootropic agents, cognition enhancers, drugs for treating Alzheimer's disease or other forms of dementia
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- A—HUMAN NECESSITIES
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- A61P35/00—Antineoplastic agents
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- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
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- A61P7/00—Drugs for disorders of the blood or the extracellular fluid
- A61P7/02—Antithrombotic agents; Anticoagulants; Platelet aggregation inhibitors
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P9/00—Drugs for disorders of the cardiovascular system
- A61P9/10—Drugs for disorders of the cardiovascular system for treating ischaemic or atherosclerotic diseases, e.g. antianginal drugs, coronary vasodilators, drugs for myocardial infarction, retinopathy, cerebrovascula insufficiency, renal arteriosclerosis
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/40—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against enzymes
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
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- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/505—Medicinal preparations containing antigens or antibodies comprising antibodies
Definitions
- the present invention relates to compositions and methods for modulating blood- brain barrier transport of compounds.
- the present invention provides screening assays for identifying compounds that are useful for modulating transport across the blood- brain barrier.
- melanotransferrin was identified as an oncofetal antigen that was either not expressed, or only slightly expressed in normal tissues, but was found in much larger amounts in neoplastic cells (especially malignant melanoma cells) and fetal tissues (Woodbury, et al., P.N.A.S. USA, 77:2183-2187 (1980)).
- Tf-R transferrin receptor
- Lf internalization is also likely to be mediated by a receptor mediated process (Fillebeen, et al, J. Biol. Chem., 274(1 l):10l 1-7017 (1999)).
- Two known receptors for Lf are LRP1 and RAGE, although others may exist (Meilinger, et al, FEBS Letters, 360:10-14 (1995); Schmidt, J. Biol.
- the blood-brain barrier (BBB) performs a neuroprotective function by tightly controlling access to the brain; consequently it also impedes access of pharmacological agents to cerebral tissues, necessitating the use of vectors for their transit.
- Blood-brain barrier (BBB) permeability is frequently a rate- limiting factor for the penetration of drugs or peptides into the central nervous system (CNS) (see Pardridge, W.M. J. Neurovirol. 5: 556- 569 (1999); Bickel, U., Yoshikawa, T. & Pardridge, W.M. Adv. DrugDeliv. Rev. 46: 247- 279 (2001)).
- the brain is shielded against potentially toxic substances by the BBB, which is formed by brain capillary endothelial cells that are closely sealed by tight junctions.
- BBB brain capillary endothelial cells that are closely sealed by tight junctions.
- brain capillaries possess few fenestrae and few endocytic vesicles, compared to the capillaries of other organs (see Pardridge, W.M. J. Neurovirol. 5: 556-569 (1999)).
- transferrin, lactofemn and low-density lipoproteins which are taken up by receptor- mediated endocytosis (see Pardridge, W.M. J. Neurovirol.
- the present invention provides compositions and methods for modulating trancystosis, endocytosis, and blood-brain barrier transport of compounds.
- the present invention provides screening assays for identifying compounds that are useful for modulating transport across the blood-brain barrier and for delivering active agents conjugated to such agents which undergo endocytosis or transcytosis upon binding to the LRP (e.g., LRPl and LRP1B) receptor.
- LRP e.g., LRPl and LRP1B
- the invention provides methods for screening compounds for the ability to modulate the endocytosis or transcytosis of p97 and p97 conjugated to active agents by asssessing their ability to bind a low density lipoprotein receptor related protein (LRP).
- LRP low density lipoprotein receptor related protein
- the invention provides modulators of the endocytosis or transcytosis of p97 and p97 conjugated to active agents.
- the invention provides conjugates of compounds (e.g., ligands) which bind to the LRP receptor and which undergo endocytosis or transcytosis upon binding to the LRP receptor.
- the invention provides methods of determining the capability of a given cell, cell type, or tissue to endocytose or transcytose p97 or a p97 conjugate to an active agent by measuring the expression of an LRP receptor nucleic acid or protein of the cell, cell type, or tissue.
- the invention provides ligands and modulators of the LRP family of receptors for use as modulators of p97 transcytosis.
- the invention provides conjugates of LRP receptor ligands for use in delivering therapeutic agents across the blood brain barrier and/or to an intracellular compartment, particularly the lysosome.
- the invention provides methods for modulating the expression of LRP receptors by administering p97.
- the receptor is the LRPl receptor.
- the receptor is the LRP IB receptor.
- the present invention provides a method for identifying a compound that modulates or binds to a melanotransferrin receptor ("MTf-R" or "p97 receptor”), the method comprises contacting the compound with the p97 receptor and determining the effect of LRP receptor ligands (e.g., lactoferrin, p97, BSA, aprotinin, and RAP) on the interaction of the compound with the receptor.
- LRP receptor ligands e.g., lactoferrin, p97, BSA, aprotinin, and RAP
- one or more LRP receptor ligands are individually contacted with the p97 receptor and the effect of the compound on the interaction of each compound with the p97 receptor is respectively determined.
- the functional effect is an effect on transcytosis.
- the effect is on endocytosis.
- the effect is on receptor binding as measured by the changes in the binding, for instance, of RAP, p97, or lactoferrin to the p97 receptor.
- the method is a high throughput screening assay.
- the receptor is the LRPl receptor.
- the receptor is the LRP IB receptor.
- the invention provides a method for identifying a selective modulator of p97 receptor activity, by contacting the modulator and a ligand of the LDL-R receptor family ligand with the melanotransferrin receptor and determining the ability of one to affect the binding or interaction of the other with the melanotransferrin receptor.
- the LDL-R receptor ligand is selected from PAI-1 (plasminogen activator inhibitor type-1), plasminogen, pro-uPA (pro-urokinase plasminogen activator), tissue factor inhibitor, tPA (tissue type plasminogen activator), activated ⁇ 2 -macroglobulin, ⁇ i.chymotrypsin, cathepsin G, lactoferrin, RAP (receptor associated protein), thyroglobulin, circumsporozite protein, saposin, gentamycin, polymixin B, pseudomonas exotoxin A, seminal vesicle secretory protein A, thrombospondin -1, ⁇ -VLDL, chylomicron remnants, IDL, Lp(a), VLDL (very low density lipoprotein), ApoBlOO (apolipoprotein B 100), and Apolipoprotein E (Apo E).
- PAI-1 plasminogen activator inhibitor type-1
- a plurality of such ligands are selected and the selectivity of the compound for the receptor is assessed according to how similarly to p97 the compound's interaction with the receptor is affected by such ligands.
- the LDL-R receptor ligand is a LRP receptor ligand.
- the LRP receptor ligand is an LRPl receptor ligand or an LRP IB receptor ligand.
- the effect on binding is assessed indirectly by a functional effect (e.g., transcytosis, endocytosis).
- the effect is on receptor binding as measured by the changes in the binding, for instance, of RAP, p97, or lactoferrin from the p97 receptor.
- the method is a high throughput screening assay.
- the method is a BioCore method.
- the receptor is the LRPl receptor.
- the receptor is the LRP IB receptor.
- the screening assay is measures the competitive displacement of a ligand, preferably p97, of the p97 receptor,
- the melanotransferrin receptor modulator or ligand has neurological activity such that it is useful in the treatment, prophylaxis or diagnosis of a neurological disorder.
- the melanotransferrin receptor modulator or ligand is useful for the modulation of the uptake of melanotransferrin conjugated therapeutic agents into the brain.
- the compound is useful for reducing a neurological side-effect of such a therapeutic agent.
- the disease or disorder is Alzheimer's disease.
- the p97 modulatory compound has neurological activity such that it is useful in the treatment, prophylaxis or diagnosis of a neurological disorder.
- the compound is useful for the modulation of the uptake of melanotransferrin conjugated therapeutic agents into the brain.
- the compound is useful for reducing a neurological side-effect of a therapeutic agent.
- the present invention provides a method of treating a neurological disorder in a patient, the method comprising administering to the patient a therapeutically effective amount of the modulatory compound.
- the p97 conjugate or p97 receptor ligand-conjugate comprises a therapeutic agent useful in treating a lysosomal storage disease.
- the therapeutic agent is an enzyme deficient in a patient having such a disorder.
- the enzyme is iduronidase.
- the present invention provides a method of treating a lysosomal storage disease in a patient, the method comprising administering to the patient with a lysosomal storage disease a therapeutically effective amount of p97 conjugated to an enzyme with an activity which is deficient in the lysosomal storage disease.
- a modulator or LRP or LRP IB is co-administered to modulate the therapeutic or adverse effects of such a conjugate.
- the conjuate is a fusion protein comprising a p97 portion and an enzyme portion wherein the enzyme provides the enzymatic activity deficient in the lysosomal storage disease.
- the enzyme is ⁇ -L-iduronidase.
- the p97 portion is a fragment of p97 sufficient for the endocytosis or transcytosis of the conjugate or fusion protein.
- the p97 conjugate or p97 receptor modulator-conjugate comprises a therapeutic agent useful in treating a CNS tumor such as a glioblastoma.
- the therapeutic agents is cancer chemotherapeutic agent.
- the present invention provides a method of treating a patient with a brain or CNS tumor or glioblastoma by administering to the patient a therapeutically effective amount of p97 conjugated to the chemotherapeutic agent.
- the conjugate binds to the LRP IB receptor.
- a modulator or LRP or LRP IB is co- administered to modulate the therapeutic or adverse effects of such a conjugate.
- the present invention provides a method of modulating a melanotransferrin receptor ("MTf-R"), the method comprises contacting the MTf-R with a modulator identified using the above method.
- MTf-R melanotransferrin receptor
- the present invention provides a method for increasing the uptake of a melanotransferrin conjugated therapeutic agent into the brain of a patient, the method comprising administering a modulator of MTf-R biological activity and the melanotransferrin conjugated therapeutic agent.
- the modulator of MTf- R biological activity and the melanotransferrin conjugated therapeutic agent are administered contemporaneously.
- the modulator of MTf-R biological activity and the melanotransferrin conjugated therapeutic agent are administered sequentially.
- the present invention provides a method of reducing the uptake of a melanotransferrin conjugated therapeutic agent into the brain of a patient, the method comprising administering a modulator of MTf-R biological activity with a melanotransferrin conjugated therapeutic agent, wherein they are administered either contemporaneously or sequentially.
- the modulator is first identified according to the above method.
- the present invention also provides modulators of MTf-R biological activity, wherein the modulator is identified using the above method.
- the modulator is useful for reducing a neurological side-effect of a therapeutic agent.
- the present invention provides a method of identifying a compound that modulates melanotransferrin-mediated ("MTf-mediated) iron uptake, the method comprising: contacting a cell expressing MTf on its surface with the compound in the presence of MTf bound to iron ("holo-MTf ') and in the absence of transferrin; and determining the amount of iron uptake into the cell.
- the compound increases the amount of iron uptake into the cell.
- the compound decreases the amount of iron uptake into the cell.
- the invention provides pharmaceutical compositions comprising such modulators, conjugates, and ligands and methods of using such pharmaceutical compositions.
- the invention provides a pharmaceutical composition comprising a p97 receptor ligand conjugate for delivering an active agent across the blood brain barrier or into an intracellular compartment.
- the conjugate can be administered in a pharmaceutically acceptable carrier or diluent.
- a fusion protein comprising a peptide ligand of the LRPl or LRPIB receptor may be used as the conjugate.
- the conjugate may therefore be a chimeric fusion protein combining a p97 peptide portion with a peptide active agent portion.
- the fusion protein active agent may be a substance having therapeutic activity such as a growth factor or lymphokine or peptide drug.
- the active agent may be an enzyme or other protein.
- the fusion protein comprises an active agent which is an enzyme that is deficient or has an activity deficient in a lysosomal storage disease.
- enzymes such as ⁇ -L-iduronidase or N-acetylgalactosamine 4-sulfatase are contemplated.
- the invention is also directed to embodiments where such a fusion protein is administered to a subject having a lysosomal storage disease.
- the enzyme is an enzyme deficient in a human disease such as PKU (e.g., phenylase).
- the enzyme is selected for its beneficial effect (e.g. heparinase I to limit the action of heparin).
- conjugates may alternatively be conjugated by synthetic chemistry reactions or joined by linker groups.
- One of ordinary skill in the art would understand how to make such fusion proteins. See, for instance, U.S.
- the fusion protein may be formed from expression of a nucleic acid encoding the full amino acid sequence of the chimeric protein.
- the chimeric fusion protein may be formed by a synthetic reaction combining the two peptides portions via a peptide bond directly linking the two portions.
- the conjugate is alternatively formed by non-covalent bonds between the carrier and an antibody to which the active agent is attached.
- the invention also relates to a method of delivering an active agent across the blood brain barrier comprising administering a conjugate of p97 or another ligand of the LRPIB receptor which undergoes endocystosis or transcytosis.
- the compositions of the invention may also be used for delivering an agent across the blood eye or blood placenta barrier or intracellular to a lysosome.
- the conjugate according to the invention does not comprise p97, RAP, aprotinin, lactoferrin, RAP, or aprotinin, or or portions thereof with LRPIB or LRP binding activity.
- the conjugate according to the invention does not comprise PAI-1, plasminogen, pro-uPA, tissue factor inhibitor, tPA, activated ⁇ 2 - macroglobulin, ⁇ i.chymotrypsin, cathepsin G, lactoferrin, thyroglobulin, circumsporozite protein, saposin, gentamycin, polymixin B, pseudomonas exotoxin A, seminal vesicle secretory protein A, thrombospondin -1, ⁇ -VLDL, chylomicron remnants, IDL, Lp(a), VLDL (very low density lipoprotein), ApoBlOO (apolipoprotein B 100), and Apolipoprotein E (Apo E), or portions thereof with LRPIB or LRP binding activity.
- the conjugate comprises PAI-1, plasminogen, pro-uPA, tissue factor inhibitor, tPA, activated ⁇ 2 -macroglobulin, ⁇ i. chymotrypsin, cathepsin G, lactoferrin, thyroglobulin, circumsporozite protein, saposin, gentamycin, polymixin B, pseudomonas exotoxin A, seminal vesicle secretory protein A, thrombospondin -1, ⁇ -VLDL, chylomicron remnants, IDL, Lp(a), VLDL (very low density lipoprotein), ApoBlOO (apolipoprotein B 100), and Apolipoprotein E (Apo E), or portions thereof with LRPIB or LRP binding activity.
- the p97 or LRPl or LRPIB ligand or modulator of human or mammalian origin is the native compound from the human or mammal.
- the ligand is substantially homologous ( at least 60% identical in amino acid sequence or atomic structure) to the native or endogenous ligand.
- the p97 receptor is human.
- the subject to which the conjugate, modulator, or ligand is to be administered is human.
- FIG. 1 Permeability coefficient (Pe) of sucrose with BBCECs.
- the permeability coefficient (Pe) for sucrose was calculated as previously described (Dehouck, et al, J. Neurochem., 55:1790-1797 (1992)) using filters coated or non-coated with BBCE cells co- cultured with astrocytes. Briefly, coated or non-coated filters with BBCE cells were transferred to 6-well plates containing 2 ml of Ringer-Hepes per well (basolateral compartment) for 2 hrs at 37°C. In each apical chamber, the culture medium was replaced by 1 ml Ringer-Hepes containing labeled [ 14 C]-sucrose.
- PS permeability x surface area of a filter of the coculture
- PSt permeability of the filter and endothelial monolayer
- PSf permeability of a filter coated with collagen and astrocytes plated on the bottom side of the filter.
- the permeability coefficient (Pe) of the endothelial monolayer was calculated as:
- FIG. 1 Effect of p97 (1 ⁇ m) on sucrose permeability with BBCECs that were preincubated for 2 hrs at 37°C.
- the permeability coefficient (Pe) for sucrose was calculated as previously described (Dehouck, et al, J. Neurochem., 55:1790-179 (1992)) using filters coated or non-coated with BBCE cells. Briefly, coated or non-coated filters with BBCE cells were transferred to 6-well plates containing 2 ml of Ringer/Hepes per well (basolateral compartment) for 2 hrs at 37°C.
- Binding p97 was performed with BBCECs that were pre-incubated 2 hrs in Ringer-Hepes to avoid any interference from the astrocytes.
- cells were incubated for 2 h at 4°C in Ringer/Hepes in the presence of [ 125 I]-p97 (25 nM) and 7.5 micromolar concentrations of cold-p97, transferrin or lactoferrin, respectively.
- the filters were gently washed at 4°C three times with 4 ml of cold-PBS. Then the associated radioactivity of endothelial cells was determined by removing the membrane of the culture insert and counting it in a gamma counter.
- FIG. 1 Binding of p97 on rat brain endothelial cells. Binding p97 was performed with RBE4 that were pre-incubated 2 hrs in Ringer-Hepes. For the binding experiments, cells in 24-well microplates were incubated for 2 h at 4°C in Ringer/Hepes in the presence of [ 125 I]-p97 (25 nM) and 10 micromolar concentrations of cold-p97, transferrin or lactoferrin, respectively. At the end of the incubation, the cells were gently washed at 4°C three times with 4 ml of cold-PBS. RBE4 cells were then lysed with Triton X-100 and the associated radioactivity of with cell lysates was determined.
- Figure 7 illustrates the results of experiments where the ligands p97, Lf and Tf were heated or not heated prior to the binding study. In all cases, binding experiments were conducted in the transwell apparatus as described previously, with the exception that binding was conducted at either 4°C or at 37°C. For the 37°C trial, a separate experiment was conducted where the ligand was boiled for 30 mins then rapidly cooled prior to administration on the transwell plates.
- Figure 8 demonstrates that p97 transcytosis was significantly higher at 37°C than at 4°C. This result demonstrates that p97 is actively transported in an energy-dependent process across this blood-brain barrier model in a temperature-dependent fashion, presumably by receptor mediated uptake.
- Figure 9 confirms that transcytosis of p97 is also a saturable phenomenon, thus further implicating a specific MTf-receptor protein in this model of the blood-brain barrier.
- Figure 10 assesses the ability of several agents to interfere with p97 transyctosis.
- Figure 10a transcytosis of I125-P97 was compared in the presence of cold p97 (5 micromolar), Lf (5 micromolar), and Tf (5 micromolar).
- Figure 10b ⁇ -amyloid protein (5 micromolar) also failed to slow or reduce transcytosis of labelled p97.
- Figure 10c RAP, a known poly-peptide inhibitor of the LDL-Receptor family was applied to the cells (25 micrograms/mi). RAP significantly inhibited the transcytosis of p97, thus directly implicating the LDL-receptor family, especially LRPl as the MTf-R.
- Figure 11 examines the accumulation and transcytosis of p97.
- Figure 12 illustrates the Binding of ⁇ 97 to BBCE cells.
- Figure 12a p97 binding experiments were performed with BBCECs that were either pre-incubated in Ringer-Hepes solution or pre-treated with saponin. BBCECs were then incubated for 2 hrs at 4 °C with
- Figure 13 illustrates the transcytosis and accumulation of p97 and transferrin in BBCEC monolayers.
- Figure 13a Transcytosis experiments were performed at 37 °C (solid bars) or 4 °C (white bars).
- MAb L235 (5 ⁇ g) was immobilized on a sensor chip (SM5) using standard procedures inco ⁇ orating NHS, EDC and ethanolamine. Native and boiled p97 (5 to 30 min) diluted at 1 mg/ml in Ringer/Hepes was cooled and injected into the BIAcore.
- Figure 14 illustrates the stability of p97 and integrity of the BBCEC monolayers following p97 transcytosis.
- Figure 14a Transcytosis experiments were performed at 37 °C and 4 °C by adding p97 (1 mg/ml) to the upper compartment. At the end of the experiment, 50 ⁇ l from each lower chamber was used for SDS-polyacrylamide gel electrophoresis. After electrophoresis, the gels were stained with Coomassie Blue. A standard curve was also made with known amounts of recombinant p97 (0-2 ⁇ g);
- Figure 14b The gels were dried and scanned to quantify the amount of intact p97 that crossed the BBCEC monolayers at 37 °C and 4 °C.
- Figure 15 shows the inhibition of [ 125 I]-p97 transcytosis in BBCEC monolayers.
- Figure 15a Transport of [ 125 I]-p97 (25 nM) from the apical to the basolateral side of ECs was measured in the absence (open circles) or in the presence (closed circles) of a 200-fold molar excess of unlabelled p97;
- Figure 16 illustrates the identification ofa p97 receptor according to ligand specificity.
- Figure 16a Uptake of [ 125 I]-p97 into human brain capillaries.
- *P ⁇ 0.5 Student's t-test ( 5)
- Figure 16b Effect of RAP on [ 125 I]- ⁇ 97 transcytosis across BBCEC monolayers.
- Figure 18 illustrates the time-course of the uptake of p97 in BBCE and accumulation in early endosome.
- Figure 19 is a schematic of how the p97 transport rate across the blood brain barrier of the model is determined.
- Figure 20 presents the results of measuring the rate of internalization and transcytosis of p97 in the blood brain barrier model.
- Figure 21 depicts the transcellular co-localization of p97 and clathrin turning transcytosis.
- Figure 22 is a schematic drawing of two of several pathways possible following endocytosis of a p97 compound or conjugate: transcytosis and lysosomal delivery.
- Figure 23 is a schematic drawing of the LRP receptor associated with a cell membrane and a number of the ligands of such LRP receptors.
- FIG. 24 Uptake of p97 in rat astrocytes and astrocytoma cells.
- Cells were grown in monolayer in six-multiwell microplates at 37°C under 5% CO2. Uptake of [ 125 I]-p97 was measured at 37°C for 2 h in astrocytes and astrocytomas.
- FIG. 25 Immunodetection of LRP/LRP IB.
- Cells lysates 25 (g) were subjected to SDS-PAGE under non-reducing conditions and electroblotted onto PVDF membranes.
- Figure 26 Immunodetection of megalin. Cells lysates were subjected to SDS-PAGE under non-reducing conditions and electroblotted onto PVDF membranes.
- FIG. 27 mRNA extraction and RT-PCR of LRP 1 B .
- Figure 28 presents some results of experiments correlating p97 uptake with LRP 1 B expression.
- FIG. 29 LRP/LRP IB migrates as a high molecular weight dissociable complex in presence of p97.
- U-87 cells were grown in monolayer in six-multiwell microplates at 37°C under 5% CO2. The cell monolayer were incubated at 4°C with p97 or RAP in Ringer Hepes solution. After incubation, cell monolayer was washed 3 times with cold- Ringer/Hepes solution and proteins were cross-linked with ImM DSS. After, cells were lysed and equal quantities of protein (25 ⁇ g) were subjected to SDS-PAGE under non-reducing conditons and electroblotted onto PVDF membranes.
- FIG. 30 Reducing condition induces release of p97 from high molecular weigh complex.
- p97 migrates as a high molecular weight protein complex.
- FIG. 34 Effect of p97 and RAP treatments in U-87 cells.
- A. Cells(2 x 10 5 ) were plated onto six-multiwell microplates and grown at 37°C under 5% CO 2 with optimal culture medium supplemented with serum for 4 days. Treatment was performed in serum free medium for 72 hours. RNA isolation and RT-PCR were performed as described in the Exampples.
- FIG. 35 Effect of p97 and RAP treatments in U-87 cells (RT-PCR).
- Cells (2 x 10 5 ) were plated onto six-multiwell microplates and grown at 37°C under 5% CO2 with optimal culture medium supplemented with serum for 4 days. Treatment was performed in serum free medium for 72 hours.
- FIG. 36 Effect of p97 and RAP treatments in U-87 cells (RT-PCR) on endogenous melanotransferrin.
- Cells (2 x 105) were plated onto six-multiwell microplates and grown at 37°C under 5% CO2 with optimal culture medium supplemented with serum for 4 days.
- Treatment with p97 and RAP was performed in serum free medium for 72 hours.
- RNA isolation and RT-PCR were performed as described in the Examples.
- Figure 37 Effect of p97 and RAP treatments in U-87 cells.
- FIG 39 show the expression of members of the LDL receptor family in MG1391.
- RT-PCR was performed for members of the LDL-R family: LRP, LRPIB, megalin, LDL, VLDL, LRP8, LRU, LRP5 and cubulin.
- DNA (cDNA) synthesis was performed with 1 ⁇ g of total RNA using a cDNA one step synthesis kit (Invitrogen,USA) following the manufacturer's protocol. (Ix of reaction mix, RNA l ⁇ g, 0.2 ⁇ M of both primers, l ⁇ l of RT/Platinum Tag mix). The cDNA generated was amplified using primers produced with Mac Vector 7.0 (Oxford molecular Ltd, Oxford, UK ).
- RT inverse-transcription was performed at 50°C for 30 min.
- PCR amplification for 35 or 40 cycles for all was performed as follows: denaturation at 94°C for 30 s, annealing at 60°C for 30 s and extension at 72°C for 1 min. Finalisation stage was performed at 72°C for 5 min. Tubes containing all the ingredients except templates were included in all runs and served as negative controls.
- the amplified PCR products were electrophoresed on a 1% agarose gel in TAE (40 mM Tris, 360 mM acetic acid, 1 mM EDTA, 12.5 fM Ethidum bromide) and were visualized under ultraviolet light followed by densitrometric analysis.
- TAE 40 mM Tris, 360 mM acetic acid, 1 mM EDTA, 12.5 fM Ethidum bromide
- Figure 40 shows the effect of p97 treatment on the expression of LRPIB, LRP, LDL- R, and LRP5 in MG1391 cells using the above methods.
- Figure 41 shows the effect of p97 on the expression of LRPIB, LRP, LDL-R, and LRP5 in MG1391 cells using the above methods.
- Figure 42 shows the expression of LDL-receptor family members in human endothelial cells.
- Figure 43 shows the expression of LDL receptor family members in BBCE cells cultured in the presence and absence of astrocytes.
- the present invention provides, inter alia, novel compounds, pharmaceutical compositions and methods for modulating the activity of the melanotransferrin receptor and for modulating the transcytosis, endocytosis, and blood brain barrier transport of active agents conjugated to melanotransferrin ("MTf or "p97") or other ligands of LRPl, and more particularly, LRPIB. It also provides screening methods for identifying such compounds, compositions, and methods.
- the invention is based on the discovery, disclosed here for the first time, that melanotransferrin binding to brain capillary endothelial cells (BCECs) is competitively inhibited by lactoferrin (Lf), RAP, and ⁇ -amyloid protein, but not significantly by transferrin (Tf) or bovine serum albumin (BSA).
- Lf lactoferrin
- RAP RAP
- ⁇ -amyloid protein but not significantly by transferrin
- BSA bovine serum albumin
- the BCEC receptor for MTf is therefore not the transferrin receptor (Tf-R), as previously hypothesized, but an unrelated class of receptor (herein called the "MTf-R” or "p97 receptor”) for which Lf is a competitive inhibitor of p97.
- Tf-R transferrin receptor
- p97 receptor unrelated class of receptor
- the invention also relates to the unexpected discovery that LRPIB is a major p97 receptor involved in the transcytosis and endocytosis of p97.
- p97 binds to the LRPIB receptor to form a high molecule weight complex which is dissociable and subject to competitive inhibition.
- Applicants have also found that the trancystosis and uptake of p97 in cells is associated with their expression of the LRPIB gene and that LRPIB is induced by treatment with p97.
- MTf-R biological activity is modulated to influence blood-brain barrier transport of compounds conjugated to p97, and in a further preferred embodiment, MTf-R biological activity is modulated to influence the transport of melanotransferrin conjugated therapeutic agents (MTf-TA) into the brain.
- MTf-TA melanotransferrin conjugated therapeutic agents
- modulation of delivery across the blood-brain barrier is achieved by modulating the activity and/or expression of MTf-Rs on the serum face (i.e., the apical side, or the "inside" of the blood vessel) of brain capillary endothelial cells.
- the present invention therefore provides, inter alia, methods of modulating MTf-TA uptake into the brain, compositions useful for modulating MTf-TA uptake into the brain, and screening assays and methods for identifying modulators of MTf-TA uptake into the brain.
- the screening assays and compounds identified using such screening assays can also be used for modulating the expression and/or activity of Lf-Rs in general, and thus for treating the diseases and disorders associated with the expression and/or activity of Lf-Rs, such as those disclosed hereinbelow.
- the blood-brain barrier (BBB) performs a neuroprotective function by tightly controlling access to the brain; consequently it also impedes access of pharmacological agents to cerebral tissues, necessitating the use of vectors for their transit.
- BBB blood-brain barrier
- Transcytosis of p97 is at least 14-fold higher than that of holo-transferrin, with no apparent intraendothelial degradation.
- the transport of p97 is not due to changes in endothelial barrier integrity but to receptor-mediated endocytosis.
- a member of the low-density lipoprotein receptor protein family, likely LRP is involved in p97 transendothelial transport.
- LRP low-density lipoprotein receptor protein family
- the brain accumulation, high rate of p97 transcytosis and its very low level in the blood (100,000-fold lower than transferrin) indicate that p97 is particularly and advantageous carrier as a delivery system to target drugs directly to the brain.
- BBB Blood-brain barrier
- brain capillaries possess few fenestrae and few endocytic vesicles, compared to the capillaries of other organs (see Pardridge, W.M. J. Neurovirol. 5: 556-569 (1999)).
- Melanotransferrin is a glycosylated protein that was first named human melanoma antigen p97 when it was found at high levels in malignant melanoma cells (see Brown, J.P., Woodbury, R.G., Hart, C.E., Hellstrom, I. & Hellstrom, K.E. Proc. Natl.Acad. Sci. U.S.A. 78: 539-543 (1981); and Brown, J.P. et al. Nature 296:171-173 (1982)). It was later renamed Mtf due to its high level of sequence homology (37-39%) with human serum transferrin, human lactoferrin and chicken transferrin. (See Brown, J.P.
- p97 mRNA is also widespread in normal human tissues, with the highest levels in salivary glands (see Richardson, D.R. Eur J Biochem. 267: 1290-1298 (2000)).
- p97 is present in capillary endothelium whereas in brain from patients with Alzheimer's disease it is located in microglial cells associated with senile plaques (see Rothenberger, S. et al. Brain Res. 712: 117-121 (1996); Jefferies, W.A. et al. Brain Res. 712: 122-126 (1996); and Yamada, T. et al. Brain Res. 845: 1-5 (1999)).
- Serum contains very low levels of p97 (Brown, J.P., Woodbury, R.G., Hart, C.E., Hellstrom, I. & Hellstrom, K.E. Proc. Natl.Acad. Sci. U.S.A. 78: 539-543 (1981).
- the fact that p97 levels are very low in serum while high p97 levels are reported in senile plaques shows that p97 crosses the BBB to a greater extent than do other proteins present in the serum.
- BBB bovine serum albumin
- BBBECs bovine brain endothelial cells
- p97 transcytosis is 14 times higher than transferrin transcytosis. Transcytosis is mediated by a receptor as it is temperature sensitive, saturable, and p97 conformation- dependent. Transcytosis of p97 occurs without compromising the structural integrity of the blood brain barrier (BBB) and p97 is not substantially degraded.
- BBB blood brain barrier
- MTf includes membrane bound p97 (i.e., p97 attached to a GPI anchor or some other anchor), secreted p97, soluble p97, cleaved p97, analogs of p97 which are equivalents of p97 (having greater than 40% homology at the peptide sequence level, including allelic variants of p97), human, mouse, chicken and/or rabbit p97, and derivatives, portions, or fragments thereof.
- p97 can be in the form of acidic or basic salts, or in its neutral form.
- amino acid residues can be modified, such as by oxidation or reduction.
- various substitutions, deletions, or additions can be made to the amino acid or nucleic acid sequences, the net effect of which is to retain or improve upon the desired biological activity of p97. Due to code degeneracy, for example, there may be considerable variation in nucleotide sequences encoding the same amino acid sequence.
- p97 fragment includes any portion of p97 or its biologically equivalent analogs that contains a sufficient portion of p97 to enable it to bind to the MTf-R and to be transported across the blood-brain barrier; or that otherwise retains or improves upon the desired biological activities of p97.
- Melanotransferrin conjugated therapeutic agent or, alternatively, “MTf-TA,” as used herein, refers to a composition comprising p97 or a p97 fragment covalently conjugated to another compound.
- the conjugation can be direct or indirect (i.e., through an extended linker) so long as it is a chemical conjugation.
- Linkers may be as taught in U.S.
- MTf-TAs Melanotransferrin conjugated therapeutic agents
- MTf-TAs can be used to treat many diseases including, but not limited to, neurological diseases and conditions such as
- MTf-TAs can be used to treat non-CNS (i.e., non-BBB delimited) diseases, such as cancers, diseases and conditions of non-CNS organs.
- non-CNS i.e., non-BBB delimited
- Modulate refers to the ability to alter, by increase or decrease (e.g., to act as an antagonist or agonist).
- MTf-R Meltotransferrin receptor
- Lf-R transferrin receptor
- Lf-R lactotransfemn receptor
- Known Lf-Rs include, but are not limited to, the LDL-related receptors.
- LDL-related receptor is lipoprotein receptor-related proteinA j ⁇ 2- macroglobulin receptor ("LRPl").
- LRPl lipoprotein receptor-related proteinA j ⁇ 2- macroglobulin receptor
- the term MTf-R specifically includes other receptors found on endothelial cells that specifically bind both MTf and Lf, but not Tf.
- the MTf-R is the LRPl.
- the MTf-R is LRPIB.
- LDL-R low density lipoprotein
- LRP/LRP1 and LRPIB 600 kDa
- Megalin (LRP2), 600 kDa)
- VLDL-R 130 kDa
- ER-2 LRP-8, 130 kDa
- Mosaic LDL-R LRU, 250 KDa
- other members such as LRP3, LRP6, and LRP-7.
- Characeristic features of the LDL-R family include cell- surface expression; extracellular ligand binding domain repeats (DxSDE); requirement of Ca++ for ligand binding; recognition of RAP and ApoE; EGF precursor homology domain repeats (YWTD); single membrane spaning region; internalization signal in the cytoplasmic domain (FDNPXY); and receptor mediated endocytosis of various ligands.
- DxSDE extracellular ligand binding domain repeats
- YWTD EGF precursor homology domain repeats
- FDNPXY single membrane spaning region
- FDNPXY internalization signal in the cytoplasmic domain
- receptor mediated endocytosis of various ligands include cell- surface expression; extracellular ligand binding domain repeats (DxSDE); requirement of Ca++ for ligand binding; recognition of RAP and ApoE; EGF precursor homology domain repeats (YWTD); single membrane spaning region; internalization signal in the cytoplasmic domain (FDNPXY); and receptor
- LRP refers to the low density lipoprotein receptor related protein and members of this receptor family.
- LRP is a large protein of 4525 amino acids (600 kDa) which is cleaved by furin to produce two subunits of 515-( ⁇ ) and 85-( ⁇ ) kDa that remain non-covalently bound.
- LRP is mainly expressed in the liver, kidney, neuron, CNS, BBB, SMC and various cultured cells.
- LRP ligands A number of molecules are known to bind LRP. These molecules include, for instance, lactoferrin, RAP, lipoprotein lipase, ApoE, Factor VIII, ⁇ -amyloid precursor, ⁇ 2-macroglobulin, thrombospondin 2 MMP-2, MPP-9-TIMP-1; uPA:PAI-I:uPAR; and tPA:PAl-l :uPAR (see also Figure 23).
- LRP IB is a recently discovered member of the low density lipoprotein receptor family. 600 kDa multifunctional cell surface receptor. See Liu et al., J. Biol. Chem. 276 (31):28889-28896 (2001). See also Liu et al., Genomics 69, 271-274 (2000); and Liu et al., Cancer Res. 60, 1961-1967 (2000). This receptor is more closely related to LRP than megalin and shares a 59% homology at cDNA level and a 52% homology at predicted amino acid level, the LRP IB gene is expressed in the brain, thyroid and salivary gland. Known ligands for LRP IB include RAP, tPA, PAI-1. [98] Mouse LRP IB is accessible through GenBank Accession Nos. XM 143023 XM 130241. Human LRPIB is accessible through GenBank Accession Nos. XM 015452.
- LRPl Lipoprotein receptor-related pro tein/ ⁇ /p& ⁇ 2-macro globulin receptor
- a binding repeats resembling those found in the LDL receptor, is the molecular principle for the ability to bind a variety of ligands that were previously thought to be unrelated: activated ⁇ /pA ⁇ -2-macroglobulin, apolipoprotein E, lipoprotein lipase, plasminogen activators and complexes with their inhibitor (PA and PA/PAI-1), lipoprotein(a), pseudomonas exotoxin A, human rhinovirus, Lf and the so-called receptor associated protein (RAP). See, Meilinger, et al, FEBS Let., 360:10-14 (1995).
- LRPl is accessible through GenBank Accession No.: X 13916 and Swiss-Prot Primary Accession No.: Q07954.
- Alternative names for the LRPl gene/protein include: Low-density lipoprotein receptor-related protein 1 [precursor], LRP, /p/z -2-macroglobulin receptor, A2MR, Apolipoprotein E receptor, APOER, CD91, LRPl or A2MR.
- the screening assays and other embodiments of this invention can also employ homologs of human LRPl (hLRPl) or LRPIB.
- Such homologs can be derived from other organisms, specifically eukaryotes and preferably from mammals.
- Preferred homologs of human LRP include, but are not limited to, the following LRP proteins:
- H. sapiens SP:O07954 - LRP1_HUMAN LOW-DENSITY 100 % / 4543 aa
- RAGE Receptor for Advanced Glycation End products
- RAGE serves as a cell surface receptor for amyloid- ⁇ peptide (the cleavage product of ⁇ -amyloid precursor protein ( ⁇ -APP), a major component of neuritic plaques of Alzheimer's Disease).
- Other ligands include amphoterin and slOO/calgranulin-like molecules (see, Hofmann, et al, Cell, 97(7):889-90l (1999)).
- RAGE is readily accessible through GenBank Accession No.: M91211 and S wiss-Prot Primary Accession No . : Q 15109.
- determining the functional effect is meant assaying for a compound that modulates, e.g., increases or decreases, a parameter that is indirectly or directly under the influence of the MTf-R, e.g., functional, physical and chemical effects.
- a parameter that is indirectly or directly under the influence of the MTf-R e.g., functional, physical and chemical effects.
- other functional effects can be measured by any means known to those skilled in the art, e.g., changes in spectroscopic characteristics (e.g., fluorescence, absorbance, refractive index), hydrodynamic (e.g., shape), chromatographic, or solubility properties, changes in gene expression of MTf-Rs, and the like.
- Inhibitors are used interchangeably to refer to inhibitory, activating or modulating compounds identified using in vitro and/or in vivo assays for MTF-R
- Samples or assays comprising MTf-Rs that are treated with a potential activator, inhibitor, or modulator are compared to control samples without the inhibitor, activator, or modulator to examine the extent of inhibition.
- Control samples (untreated with inhibitors) are assigned a relative MTf-R activity value of 100%. Inhibition of a MTf-R is achieved when the MTf-R activity value relative to the control is about 80%, preferably 50%, more preferably 25-0%.
- Activation of a MTf-R is achieved when the MTf-R activity value relative to the control (untreated with activators) is 110%, more preferably 150%, more preferably 200-500% (i.e., two to five fold higher relative to the control), more preferably 1000-3000%) higher.
- the present invention provides a screening assay employing an MTf-R, wherein compounds are tested for their ability to influence a measurable activity of the MTf-R.
- the MTf-R can be situated in a whole cell, a cell extract, semi-purified, purified or any other format that allows for measurement of its activity.
- the activity can be any activity in the expression, function or degradation of MTf-R including, for example, the amount or timing of such activities.
- activities include, for example, transcription, transcript processing, translation or transcript stability of the MTf-R gene sequence or mRNA transcript.
- activities include, for example, the synthesis of new MTf-R, the sub-cellular localization of MTf-R and activation of MTf-R biological activity.
- Such activities include, for example, the ability of MTf-R to bind substances, adopt conformations, catalyze reactions, bind known ligands and the like. Such activities include, for example, the amount or stability of MTf-R, the processing and removal or degradation of MTf-R and the like.
- the MTf-R receptor for use in screening is LRPl or LRPIB.
- compounds are tested to identify modulators of a biological activity of MTf-R such as: MTf-R interactions with MTf, MTf-R interactions with Lf or other putative ligands or uptake of iron/other metal; transport of MTf across the blood- brain barrier ("BBB"), i.e., in a BBB model; transport of Lf, other ligands or metals across a BBB model; and/or measurement of the rate or amount of transcription, translation or expression levels of MTf-R genes or mRNA.
- BBB blood- brain barrier
- the invention contemplates a variety ofdifferent screening formats. Some designs are considered low throughput and test only one or a few compounds in series or in parallel. High throughput screening assays are suitable for screening tens of thousands or hundreds of thousands of compounds in a matter of weeks or months. "In silico" screening formats employ computer-aided rational design techniques to identify potential modulators of MTf-R biological activity.
- test compounds of the invention may be obtained from any source, but a preferred commercial embodiment employs commercially available compound libraries of hundreds of thousands of compounds, many of which are potential therapeutic agents. These compounds are tested in series or in parallel to identify modulating activity of MTf-R activity. Preferred test compounds can be identified by examining known and putative ligands of MTf-R for predicting chemical structure of inhibitors, etc. Other computer-aided design techniques can be employed to eliminate unsuitable candidates, such as those candidates thought to cause toxic side-effects. Those skilled in the art are familiar with the combinatorial and medicinal chemistry techniques that can be used to further select test compounds and the potential therapeutic agents of the invention.
- the object of the screening assays is to identify modulators of MTf-R activity that are suitable for animal or human clinical trials and as therapeutic agents.
- the screening assays identify stimulants, agonists or antagonists of MTf-R.
- the method of identifying stimulants, agonists or antagonists of MTf-R can comprise contacting a substance suspected of being a stimulant, agonist or antagonist with MTf and the MTf-R under conditions such that MTf is capable of binding to the MTf-R; measuring the amount of MTf bound to the MTf-R; and determining the effect of the substance by comparing the amount of MTf bound to MTf- R with an amount determined for a control.
- the MTf that can be used in this method includes MTf cleaved of GPI, soluble MTf, cleaved MTf or derivatives thereof, preferably recombinant MTf.
- the amount of MTf bound to MTf-R can be determined by measuring the amount of MTf bound to the MTf-R, the amount of unbound MTf or the amount of unbound MTf-R.
- MTf bound to MTf-R can be isolated by conventional isolation techniques, for example, salting out, chromatography, electrophoresis, gel filtration, fractionation, abso ⁇ tion, polyacrylamide gel electrophoresis, agglutination, or combinations thereof.
- antibodies against MTf or MTf-R can, for example, be utilized.
- the invention also relates to a method for identifying a stimulant, agonist or antagonist of MTf-mediated iron uptake comprising: incubating a cell expressing MTf-R on its surface and a test substance (e.g., compound) suspected of being a stimulant, agonist or antagonist of MTf-R in the presence of MTf bound to iron (holo-MTf) and in the absence of transferrin, measuring the amount of iron uptake into the cell and identifying a stimulant, agonist or antagonist of MTf-R mediated iron uptake by comparing the amount of iron uptake in the cell with the amount of iron uptake in a cell from a control incubation in the absence of the test substance.
- Iron uptake refers to the internalization of iron into the cell across the cell plasma membrane.
- the present invention relates to a method of using compounds that modulate MTf-R biological activity to modulate the amount of uptake into the cells of melanotransferrin conjugated therapeutic agents (MTf-TAs).
- MTf-TAs melanotransferrin conjugated therapeutic agents
- the invention relates to a method of increasing the uptake of an MTf-TA into the brain, the method comprising administering a modulator of MTf-R biological activity either contemporaneously or sequentially with the MTf-TA.
- the invention relates to a method to reduce uptake of an MTf-TA into the brain comprising administering a modulator of MTf-R biological activity either contemporaneously or sequentially with the MTf-TA.
- these methods employ modulators of MTf-R that are first identified using a screening assay as described hereinabove.
- the MTf-R receptor for use in screening is LRPl or LRPIB.
- MTf-TA uptake and delivery across the blood-brain barrier is useful and desirable for a variety of reasons including, but not limited to, where the MTf-TA is being used for its cardio-protective effect or used in other (non-CNS) organs and side-effects of brain uptake are to be avoided.
- Modulators of MTf-R activity can be readily identified using a modification of the transwell apparatus set out in Example I below.
- a compound is added to the luminal surface of the cells in the transwell apparatus in combination with MTf-TAs. The compound is then scored to determine if it increases or decreases the transport of the MTf-TA across the BBCECs to the abluminal side.
- a library of compounds can be readily screened or tested to identify pharmacologically superior modulators.
- such substances are useful in the treatment of conditions such as hemochromatosis, neurodegenerative diseases, ischemic tissue damage, including ischemic stroke or trauma, heart disease and tumors (e.g., skin cancer).
- MTf plays a role in the binding and uptake of other metals such as zinc and aluminum (Sekyere, E. and Richardson, D.R., FEBS Letters, ⁇ 53:11-16 (2000) and, thus, modulation of Lf-R activity or expression plays a role in modulating or regulating Alzheimer's Disease or metaloproteins, such as zinc-dependent metaloproteins.
- Conditions that involve disturbances in iron metabolism that can be treated using the compounds and methods of the invention (i.e., using stimulants, agonists and antagonists of MTf-mediated iron uptake) are, for example, those involving excessive iron abso ⁇ tion from the diet, defects in iron uptake into cells, excessive iron uptake into cells or those requiring regular treatment by blood transfusion (e.g., dyserythropoietic anemias, in particular thalassaemia disorders.
- Such conditions include, but are not limited to, hemochromatosis, neurodegenerative diseases (e.g., Alzheimer's Disease, Huntington's Disease and Parkinson's Disease), ischemic tissue damage, heart disease and tumors, inflammation and infections (see, Pippard, "Clinical Use of Iron Chelation,” in Iron in Immunity, Cancer and Inflammation (M. de Sousa and J. H. Brock (Eds.), 1989, John Wiley & Sons), which is inco ⁇ orated herein by reference.
- Diseases which can be treated using modulators of Lf-R activity or expression include neurological diseases and conditions such as Alzheimer's Disease, Parkinson's Disease, schizophrenia, epilepsy and others, neurological cancers, such as primary brain tumors including glioma, meningioma, neurinoma, pituitary adenoma, medulloblastoma, craniopharyngioma, hemangioma, epidermoid, sarcoma and intracranial metastasis from other tumor sources, and neurological infections or inflammatory conditions, odulators of Lf- R activity or expression can be used to treat non-CNS (i.e., non-BBB delimited) diseases, such as cancers, diseases and conditions of non-CNS organs.
- non-CNS i.e., non-BBB delimited
- therapeutic doses can be derived from animal studies and human clinical trials, as can suitable pharmacological carriers and excipients.
- MTf-R protein or a fragment thereof, to an animal in need thereof, to effect a therapeutic or prophylactic result.
- an MTf-R protein or fragment thereof will bind to MTf and effectively reduce the circulating concentration of MTf.
- This treatment is useful in diseases where increased levels of MTf are known to be implicated in disease progression, particularly, Alzheimer's Disease (see, Kennard, etal, Nat. Med., 2:1230-1235 (1996); U.S. Patent No. 5,981,194).
- an MTf-R protein or a fragment thereof, labeled with a detectable label will identify the location or amount of MTf in the subject.
- a detectable label such as certain Iodine or Yttrium isotopes, would assist in killing tumor cells to which the MTf-R would bind.
- Other therapeutical targets relate to HIV infection as a TAT receptor, activation of the NMDA receptor with respect to synaptic plasticity, Alzheimer's disease as LRP is a receptor for APoE, alpha2-macroglobulin, APP which have all been linked to this disase; and in the regulation of lipid degrading lysosomal enzymes (SAP-dependent).
- Antibodies that specifically recognize one or more epitopes of MTf-R, or epitopes of conserved variants of MTf-R, or peptide fragments of MTf-R are also encompassed by the invention.
- Such antibodies include, but are not limited to, polyclonal antibodies, monoclonal antibodies (mAbs), humanized or chimeric antibodies, single chain antibodies, Fab fragments, F(ab')2 fragments, fragments produced by a Fab expression library, anti-idiotypic (anti-Id) antibodies, and epitope-binding fragments of any of the above.
- the antibodies of the invention can be used, for example, in conjunction with compound screening assays, as described above, for the evaluation of the effect of test compounds on expression and/or activity of the MTf-R gene product. Additionally, such antibodies can be used in conjunction with gene therapy techniques to, for example, evaluate the success of transfection of normal and/or engineered MTf-R-expression. Such antibodies can be used as antagonists of MTf-R biological activity, and can additionally be used as a method for the inhibition of abnormal MTf-R activity. Thus, such antibodies can be utilized as therapeutic agents according to this invention.
- the MTf-R antibodies of the invention can also be used in diagnostic techniques to identify the location, quantity, behavior and/or the like of MTf-R in an animal.
- various host animals may be immunized by injection with the MTf-R, a MTf-R protein or peptide (e.g., one corresponding to a functional domain of the receptor), truncated MTf-R polypeptides (MTf-R in which one or more domains has been deleted), functional equivalents of the MTf-R or mutants of the MTf-R.
- Such host animals include, but are not limited to, rabbits, mice, and rats, to name but a few.
- adjuvants can be used to increase the immunological response, depending on the host species including, but not limited to, Freund's (complete and incomplete), mineral gels such as aluminum hydroxide, surface active substances such as lysolecithin, pluronic polyols, polyanions, peptides, oil emulsions, keyhole limpet hemocyanin, dinitrophenol, and potentially useful human adjuvants such as BCG (Bacille Calmette-Guerin) and Corynebacterium parvum.
- BCG Bacille Calmette-Guerin
- the present invention also encompasses the use of antisense oligonucleotide sequences having sequences specific for hybridization to the MTf-R (e.g., LRPl or LRPIB) mRNA or precursor RNA, i.e., sequences that specifically or selectively hybridize to MTf-R or mRNA or precursor RNA.
- MTf-R e.g., LRPl or LRPIB
- Those skilled in the art can readily identify suitable antisense oligonucleotide sequences based on the known MTf-R mRNA sequence referenced above.
- Those skilled in the art are aware of modifications to the chemistry of oligonucleotides that improve their clinical utility, such as phosphorothioate modifications.
- MTf-R antisense oligonucleotides are an example of compounds that can be used to modulate MTf-R expression and, in particular, to down-regulate such expression.
- Those skilled in the art are also able to design ribozymes which achieve similar objectives. Methods of delivering such nucleic acids are described below.
- Certain embodiments of the invention employ the use of the MTf-R gene in a gene therapy method.
- the object of such intervention is to deliver a functional copy of the MTf-R gene to a cell in need thereof in order to increase the transcription and subsequent translation and expression of the MTf-R protein in the cell.
- Those skilled in the art are familiar with viral, non- viral (i.e., lipid based), naked DNA and polymeric methods of delivering gene therapy vectors that include the MTf-R gene. Such methods can employ in vivo or ex vivo gene therapy techniques known to and used by those of skill in the art. J. Diagnosis of Neurological Diseases
- the present invention also relates to the diagnosis of a neurological disease comprising detecting the amount or activity of MTf-R expressed at the BBB, in neural tissue or in any tissue associated with a non-CNS target organ, such as the lung, liver, kidney, spleen, etc.
- the diagnostic method employs a diagnostic agent comprising an agent specific for MTf-R (i.e., an MTf-R antibody, a ligand such as MTf or Lf, or another ligand which specifically binds MTf-R) and a detectable conjugate or label (i.e., radioisotopes of technetium or iodine).
- MTf-R an agent specific for MTf-R
- a ligand such as MTf or Lf
- a detectable conjugate or label i.e., radioisotopes of technetium or iodine.
- diseases or conditions for which the determination of MTf-R amount or localization is relevant. Most preferred
- Active agents according to the invention include agents that affect any biological process.
- drug or “therapeutic agent” refers to an active agent that has a pharmacological activity or benefits health when administered in a therapeutically effective amount.
- examples of drugs or therapeutic agents include substances that are used in the prevention, diagnosis, alleviation, treatment or cure of a disease or condition.
- the active agent conjugated to the p97 protein or fragment or LRPl modulator or LRP ligand may be any molecule, as well as any binding portion or fragment thereof, that is capable of modulating a biological process in a living host.
- the active agent may be of any size, but is preferably a small organic molecule that is capable of binding to the target of interest.
- a drug moiety of the conjugate when a small molecule, generally has a molecular weight of at least about 50 D, usually at least about 100 D, where the molecular weight may be as high as 500 D or higher, but will usually not exceed about 2000 D.
- the drug moiety is capable of interacting with a target in the host into which the conjugate is administered during practice of the subject methods.
- the target may be a number ofdifferent types of naturally occurring structures, where targets of interest include both intracellular and extracellular targets, where such targets may be proteins, phospholipids, nucleic acids and the like, where proteins are of particular interest.
- Specific proteinaceous targets of interest include, without limitation, enzymes, e.g., kinases, phosphatases, reductases, cyclooxygenases, proteases and the like, targets comprising domains involved in protein-protein interactions, such as the SH2, SH3, PTB and PDZ domains, structural proteins, e.g., actin, tubulin, etc., membrane receptors, immunoglobulins, e.g., IgE, cell adhesion receptors, such as integrins, etc, ion channels, transmembrane pumps, transcription factors, signaling proteins, and the like.
- enzymes e.g., kinases, phosphatases, reductases, cyclooxygenases, proteases and the like,
- the active agent or drug has a hydroxy or an amino group for reacting with the isocyanate reagent or the active agent is chemically modified to introduce a hydroxy or an amino group for reacting with the isocyanate reagent.
- the active agent or drug will also comprise a region that may be modified and/or participate in covalent linkage, preferably, without loss of the desired biological activity of the active agent.
- the drug moieties often comprise cyclical carbon or heterocyclic structures and/or aromatic or polyaromatic structures substituted with one or more of the above functional groups.
- Also of interest as drug moieties are structures found among biomolecules, proteins, enzymes, polysaccharides, and polynucleic acids, including peptides, saccharides, fatty acids, steroids, purines, pyrimidines, derivatives, structural analogs or combinations thereof.
- the conjugate can comprise one or more active agents linked to the same biopolymer.
- conjugation reactions may conjugate from 1 to 5, about 5, about 1-10, about 5 to 10, about 10-20, about 20-30, or 30 or more molecules of an active agent to the biopolymer.
- These formulations can be employed as mixtures, or they may be purified into specific (mohmol) formulations. Those skilled in the art are able to determine which format and which mokmol ratio is preferred.
- more than one type of active agent may be linked to the biopolymer where delivery of more than one type of an agent to a target site or compartment is desired.
- a plurality of active agent species may be attached to the same biopolymers such as adriamycin-cisplatinum conjugate compositions where the biopolymer is a p97 related protein.
- the conjugates may consist of a range of mokmol ratios and inco ⁇ orate more than one type of active agent. These, too, may be separated into purified mixtures or they may be employed in aggregate.
- Active agents include those identified U.S. Patent No. 6,372,712 which is inco ⁇ orated herein by reference.
- Specific drugs of interest from which the drug moiety may be derived include, but are not limited to: psychopharmacological agents, such as (1) central nervous system depressants, e.g., general anesthetics (barbiturates, benzodiazepines, steroids, cyclohexanone derivatives, and miscellaneous agents), sedative-hypnotics (benzodiazepines, barbiturates, piperidinediones and triones, quinazoline derivatives, carbamates, aldehydes and derivatives, amides, acyclic ureides, benzazepines and related drugs, phenothiazines, etc.), central voluntary muscle tone modifying drugs (anticonvulsants, such as hydantoins, barbiturates, oxazolidinediones, succinimides, acylureides, glutarimides, benzodiazepines, secondary and tertiary alcohols, dibenzazepine derivatives, valproic
- Triethylenethiophosphoramide Carmustine (BiCNU, BCNU), Lomustine (CeeNU, CCNU), Streptozocin (Zanosar) and the like; plant alkaloids, e.g., Vincristine (Oncovin), Vinblastine (Velban, Velbe), Paclitaxel (Taxol), and the like; antimetabolites, e.g., Methotrexate (MTX), Mercaptopurine (Purinethol, 6-MP), Thioguanine (6-TG), Fluorouracil (5-FU), Cytarabine (Cytosar-U, Ara-C), Azacitidine (Mylosar, 5-AZA) and the like; antibiotics, e.g.,
- Dactinomycin Actinomycin D, Cosmegen
- Doxorubicin Adriamycin
- Daunorubicin Daunorubicin
- Idarubicin Idamycin
- Bleomycin Blenoxane
- Picamycin Mithramycin, Mithracin
- Mitomycin Mitomycin (Mutamycin) and the like
- other anticellular proliferative agents e.g., Hydroxyurea (Hydrea), Procarbazine (Mutalane), dacarbazine (DTIC-Dome), Cisplatin (Platinol) Carboplatin (Paraplatin), Asparaginase (Elspar) Etoposide (VePesid, VP- 16-213), Amsarcrine (AMSA, m-AMSA), Mitotane (Lysodren), Mitoxantrone (Novatrone), and the like;
- Antibiotics such as: aminoglycosides, e.g., amikacin, apramycin, arbekacin, bambermycins, butirosin, dibekacin, dihydrostreptomycin, fortimicin, gentamicin, isepamicin, kanamycin, micronomcin, neomycin, netilmicin, paromycin, ribostamycin, sisomicin, spectinomycin, streptomycin, tobramycin, trospectomycin; amphenicols, e.g., azidamfenicol, chloramphenicol, florfenicol, and theimaphenicol; ansamycins, e.g., rifamide, rifampin, rifamycin, rifapentine, rifaximin; beta.-lactams, e.g., carbacephems, carbapenems, cephalosporins, ce
- Antifungal agents such as: polyenes, e.g., amphotericin B, candicidin, dermostatin, filipin, fungichromin, hachimycin, hamycin, lucensomycin, mepartricin, natamycin, nystatin, pecilocin, perimycin; synthetic antifungals, such as allylamines, e.g., butenafme, naftifine, terbinafine; imidazoles, e.g., bifonazole, butoconazole, chlordantoin, chlormidazole, etc., thiocarbamates, e.g., tolciclate, triazoles, e.g., fluconazole, itraconazole, terconazole; [145] Anthelmintics, such as: arecoline, aspidin, aspidinol, dichlorophene, embelin, kosin, napthalene,
- Antimalarials such as: acedapsone, amodiaquin, arteether, artemether, artemisinin, artesunate, atovaquone, bebeerine, berberine, chirata, chlorguanide, chloroquine, chlo ⁇ rogaunil, cinchona, cinchonidine, cinchonine, cycloguanil, gentiopicrin, halofantrine, hydroxychloroquine, mefloquine hydrochloride, 3-methylarsacetin, pamaquine, plasmocid, primaquine, pyrimethamine, quinacrine, quinidine, quinine, quinocide, quinoline, dibasic sodium arsenate;
- Antiprotozoan agents such as: acranil, tinidazole, ipronidazole, ethylstibamine, pentamidine, acetarsone, aminitrozole, anisomycin, nifuratel, tinidazole, benzidazole, suramin, and the like.
- Drug compounds of interest from which drug moieties may be derived are also listed in: Goodman & Gilman's, The Pharmacological Basis of Therapeutics (9th Ed) (Goodman et al. eds) (McGraw-Hill) (1996); and 1999 Physician's Desk Reference (1998).
- Specific compounds of interest also include, but are not limited to: antineoplastic agents, as disclosed in U.S. Pat. Nos. 5,880,161, 5,877,206, 5,786,344, 5,760,041, 5,753,668, 5,698,529, 5,684,004, 5,665,715, 5,654,484, 5,624,924, 5,618,813, 5,610,292, 5,597,831, 5,530,026, 5,525,633, 5,525,606, 5,512,678, 5,508,277, 5,463,181, 5,409,893, 5,358,952, 5,318,965, 5,223,503, 5,214,068, 5,196,424, 5,109,024, 5,106,996, 5,101,072, 5,077,404, 5,071,848, 5,066,493, 5,019,390, 4,996,229, 4,996,206, 4,970,318, 4,968,800, 4,962,114, 4,927,828, 4,892,887, 4,889,859, 4,886,790, 4, 4,9
- antimicrobial agents as disclosed in U.S. Pat. Nos. 5,902,594, 5,874,476, 5,874,436, 5,859,027, 5,856,320, 5,854,242, 5,811,091, 5,786,350, 5,783,177, 5,773,469, 5,762,919, 5,753,715, 5,741,526, 5,709,870, 5,707,990, 5,696,117, 5,684,042, 5,683,709, 5,656,591, 5,643,971, 5,643,950, 5,610,196, 5,608,056, 5,604,262, 5,595,742, 5,576,341, 5,554,373, 5,541,233, 5,534,546, 5,534,508, 5,514,715, 5,508,417, 5,464,832, 5,428,073, 5,428,016, 5,424,396, 5,399,553, 5,391,544, 5,385,902, 5,359,066, 5,356,803, 5,354,862, 5,346,913, 5,302,592, 5,288,693,
- antihistamine agents as disclosed in U.S. Pat. Nos. 5,874,479, 5,863,938, 5,856,364, 5,770,612, 5,702,688, 5,674,912, 5,663,208, 5,658,957, 5,652,274, 5,648,380, 5,646,190, 5,641,814, 5,633,285, 5,614,561, 5,602,183, 4,923,892, 4,782,058, 4,393,210, 4,180,583, 3,965,257, 3,946,022, 3,931,197; [159] steroidal agents, as disclosed in U.S. Pat. Nos.
- the drug moiety of the conjugate may be the whole compound or a binding fragment or portion thereof that retains its affinity and specificity for the target of interest while having a linkage site for covalent bonding to the presenter protein ligand or linker.
- the conjugates of such drugs may be used for the same disorders, diseases, and indications as the drugs themselves.
- the active agent is conjugated to p97 or a a modulator or ligand of the LRP receptor family (e.g. LRPl, LRPIB), or is an antibody which is capable of specifically binding to p97 or the modulator, such as an antibody to p97.
- the agent may be a substance having therapeutic activity such as a growth factor or lymphokine, enzyme or drug.
- the invention also relates to a method of delivering an active agent across the blood brain barrier comprising administering such a conjugate.
- the p97 protein is soluble. p97 proteins as taught in U.S. Patent No. 5,981,194 are particularly preferred.
- the p97 may be a human p97 protein or fragment thereof; the p97 may be from a mammal such as a mouse.
- Murine p97 is disclosed in WO 01/59549 A2 which is herein inco ⁇ orated by reference in its entirety.
- p97 as used in the compositions of the invention, includes membrane bound p97 (i.e., p97 linked to GPI or other lipids), soluble p97, cleaved p97, analogs of p97 which are equivalents of p97 (having greater than 40%, 60%, 80%, or 90% homology at the peptide sequence level, including allelic variants of p97), human, mouse, chicken and/or rabbit p97, and derivatives, portions, or fragments thereof.
- p97 may be in the form of acidic or basic salts, or in neutral form.
- individual amino acid residues may be modified, such as by oxidation or reduction.
- p97 also includes fragments of p97, including any portion of p97 or its biologically equivalent analogs that contain a sufficient portion of p97 and homology to the corresponding native p97 amino acid sequence to enable it to retain or improve upon the desired biological activities of p97.
- the invention is drawn to p97 conjugates which have only minor substitutions in the amino acid sequence which do not substantially affect its receptor binding or transcytosis properties.
- Preferred chemotherapeutic agents for use in p97-chemotherapeutic agent conjugates of the invention include all drugs which may be useful for treating brain tumours or other neoplasia in or around the brain, either in the free form, or, if not so useful in the free form, then useful when linked to p97.
- Such chemotherapeutic agents include adriamycin (also known as doxorubicin), cisplatin, paclitaxel, analogs thereof, and other chemotherapeutic agents which demonstrate activity against tumours ex vivo and in vivo.
- chemotherapeutic agents also include alkylating agents, antimetabolites, natural products (such as vinca alkaloids, epidophyllotoxins, antibiotics, enzymes and biological response modifiers), topoisomerase inhibitors, microtubule inhibitors, spindle poisons, hormones and antagonists, and miscellaneous agents such as platinum coordination complexes, anthracendiones, substituted ureas, etc. those of skill in the art will know of other chemotherapeutic agents.
- p97-chemotherapeutic agents can comprise one or more compound moieties linked to p97. For example, conjugation reactions may conjugate from 1 to 10 or more molecules of adriamycin to a single p97 molecule.
- p97 polypeptide Several atoms of gold or iodine can be conjugated to a single p97 polypeptide. These formulations can be employed as mixtures, or they may be purified into specific p97:compound (mokmol) formulations. Those skilled in the art are able to determine which format and which mokmol ratio is preferred. Further, mixtures of compounds may be linked to p97, such as the p97-adriamycin-cisplatinum composition set out in the examples. These p97-chemotherapeutic agents may consist of a range of mokmol ratios. These, too, may be separated into purified mixtures or they may be employed in aggregate.
- compositions of the invention may also be used for delivering an agent across the blood eye barrier or blood placenta barrier
- compositions of the invention may also comprise a transcytosing or endocytosing ligand of the LRPl or LRPIB receptor conjugated to an active agent.
- the conjugate or modulator or LRP ligand according to the invention is labeled to facilitate its detection.
- a “label” or a “detectable moiety” is a composition detectable by spectroscopic, photochemical, biochemical, immunochemical, chemical, or other physical means.
- labels suitable for use in the present invention include, for example, radioactive labels (e.g., 32 P), fluorophores (e.g., fluorescein), electron-dense reagents, enzymes (e.g., as commonly used in an ELISA), biotin, digoxigenin, or haptens and proteins which can be made detectable, e.g., by inco ⁇ orating a radiolabel into the hapten or peptide, or used to detect antibodies specifically reactive with the hapten or peptide.
- radioactive labels e.g., 32 P
- fluorophores e.g., fluorescein
- electron-dense reagents e.g., enzymes (e.g., as commonly used in an ELISA), biotin, digoxigenin, or haptens and proteins which can be made detectable, e.g., by inco ⁇ orating a radiolabel into the hapten or peptide, or used to detect antibodies specifically reactive with the
- the particular label or detectable group used is not a critical aspect of the invention, as long as it does not significantly interfere with the biological activity of the conjugate.
- the detectable group can be any material having a detectable physical or chemical property.
- a label is any composition detectable by spectroscopic, photochemical, biochemical, immunochemical, electrical, optical or chemical means.
- labels suitable for use in the present invention include, but are not limited to, fluorescent dyes (e.g., fluorescein isothiocyanate, Texas red, rhodamine, and the like), radiolabels (e.g., 3 H, 125 1, 35 S, 14 C, or 32 P), enzymes (e.g., horse radish peroxidase, alkaline phosphatase and others commonly used in an ELISA), and colorimetric labels such as colloidal gold or colored glass or plastic beads (e.g., polystyrene, polypropylene, latex, etc.).
- fluorescent dyes e.g., fluorescein isothiocyanate, Texas red, rhodamine, and the like
- radiolabels e.g., 3 H, 125 1, 35 S, 14 C, or 32 P
- enzymes e.g., horse radish peroxidase, alkaline phosphatase and others commonly used in an ELISA
- the label may be coupled directly or indirectly to the desired component of the assay according to methods well known in the art.
- the label in one embodiment is covalently bound to the biopolymer using an isocyanate reagent for conjugating an active agent according to the invention.
- the bifunctional isocyanate reagents of the invention can be used to conjugate a label to a biopolymer to form a label biopolymer conjugate without an active agent attached thereto.
- the label biopolymer conjugate may be used as an intermediate for the synthesis of a labeled conjugate according to the invention or may be used to detect the biopolymer conjugate.
- Non-radioactive labels are often attached by indirect means.
- a ligand molecule e.g., biotin
- the ligand then binds to another molecules (e.g., streptavidin) molecule, which is either inherently detectable or covalently bound to a signal system, such as a detectable enzyme, a fluorescent compound, or a chemiluminescent compound.
- the conjugates can also be conjugated directly to signal generating compounds, e.g., by conjugation with an enzyme or fluorophore.
- Enzymes suitable for use as labels include, but are not limited to, hydrolases, particularly phosphatases, esterases and glycosidases, or oxidotases, particularly peroxidases.
- Fluorescent compounds, i.e., fluorophores, suitable for use as labels include, but are not limited to, fluorescein and its derivatives, rhodamine and its derivatives, dansyl, umbelliferone, etc.
- fluorophores include, but are not limited to, eosin, TRITC-amine, quinine, fluorescein W, acridine yellow, lissamine rhodamine, B sulfonyl chloride erythroscein, ruthenium (trisj bipyridinium), Texas Red, nicotinamide adenine dinucleotide, flavin adenine dinucleotide, etc.
- Chemiluminescent compounds suitable for use as labels include, but are not limited to, luciferin and 2,3- dihydrophthalazinediones, e.g., luminol.
- Means of detecting labels are well known to those of skill in the art.
- means for detection include a scintillation counter or photographic film as in autoradiography.
- the label is a fluorescent label, it may be detected by exciting the fluorochrome with the appropriate wavelength of light and detecting the resulting fluorescence. The fluorescence may be detected visually, by the use of electronic detectors such as charge coupled devices (CCDs) or photomultipliers and the like.
- enzymatic labels may be detected by providing the appropriate substrates for the enzyme and detecting the resulting reaction product. Colorimetric or chemiluminescent labels may be detected simply by observing the color associated with the label.
- Other labeling and detection systems suitable for use in the methods of the present invention will be readily apparent to those of skill in the art.
- Such labeled modulators and ligands may be used in the diagnosis of a disease or health condition.
- pharmaceutically acceptable carrier encompasses any of the standard pharmaceutical carriers, buffers and excipients, including phosphate-buffered saline solution, water, and emulsions (such as an oil/water or water/oil emulsion), and various types of wetting agents and/or adjuvants.
- Suitable pharmaceutical carriers and their formulations are described in Remington's Pharmaceutical Sciences (Mack Publishing Co., Easton, 19th ed. 1995).
- Preferred pharmaceutical carriers depend upon the intended mode of administration of the active agent. Typical modes of administration are described below.
- The. term "effective amount" means a dosage sufficient to produce a desired result on a health condition, pathology, disease of a subject or for a diagnositic pu ⁇ ose.
- the desired result may comprise a subjective or objective improvement in the recipient of the dosage.
- a "prophylactic treatment” is a treatment administered to a subject who does not exhibit signs of a disease or exhibits only early signs of a disease, wherein treatment is administered for the pu ⁇ ose of decreasing the risk of developing a pathology.
- the conjugate compounds of the invention may be given as a prophylactic treatment.
- a “therapeutic treatment” is a treatment administered to a subject who exhibits signs of pathology, wherein treatment is administered for the pu ⁇ ose of diminishing or eliminating those pathological signs.
- the conjugate compounds, modulators, and ligands of the invention may be given as a prophylactic treatment or for diagnosis.
- composition as in pharmaceutical composition, is intended to encompass a product comprising the active ingredient(s), and the inert ingredient(s) that make up the carrier, as well as any product which results, directly or indirectly, from combination, complexation or aggregation of any two or more of the ingredients, or from dissociation of one or more of the ingredients, or from other types of reactions or interactions of one or more of the ingredients.
- pharmaceutical compositions of the present invention encompass any composition made by admixing a conjugate compound of the present invention and a pharmaceutically acceptable carrier.
- pharmaceutical composition indicates a composition suitable for pharmaceutical use in a subject, including an animal or human.
- a pharmaceutical composition generally comprises an effective amount of a conjugate, modulator, or LRP ligand or LRPIB ligand and a pharmaceutically acceptable carrier.
- the conjugates, modulators, and LRP or LRPIB ligands may be administered by a variety of routes.
- the conjugates can be used alone or in combination with appropriate additives to make tablets, powders, granules or capsules, for example, with conventional additives, such as lactose, mannitol, corn starch or potato starch; with binders, such as crystalline cellulose, cellulose derivatives, acacia, corn starch or gelatins; with disintegrators, such as corn starch, potato starch or sodium carboxymethylcellulose; with lubricants, such as talc or magnesium stearate; and if desired, with diluents, buffering agents, moistening agents, preservatives and flavoring agents.
- conventional additives such as lactose, mannitol, corn starch or potato starch
- binders such as crystalline cellulose, cellulose derivatives, acacia, corn starch or gelatins
- disintegrators such as corn starch, potato starch or sodium carboxymethylcellulose
- lubricants such as talc or magnesium stearate
- the conjugates, modulators, and LRP or LRPIB ligands can be formulated into preparations for injection by dissolving, suspending or emulsifying them in an aqueous or nonaqueous solvent, such as vegetable or other similar oils, synthetic aliphatic acid glycerides, esters of higher aliphatic acids or propylene glycol; and if desired, with conventional additives such as solubilizers, isotonic agents, suspending agents, emulsifying agents, stabilizers and preservatives.
- the conjugates, modulators, and LRP or LRPIB ligands can be utilized in aerosol formulation to be administered via inhalation.
- the compounds of the present invention can be formulated into pressurized acceptable propellants such as dichlorodifluoromethane, propane, nitrogen and the like.
- the conjugates, modulators, and LRP or LRPIB ligands can be made into suppositories by mixing with a variety of bases such as emulsifying bases or water- soluble bases.
- the compounds of the present invention can be administered rectally via a suppository.
- the suppository can include vehicles such as cocoa butter, carbowaxes and polyethylene glycols, which melt at body temperature, yet are solidified at room temperature.
- Unit dosage forms of the conjugate, modulator, and LRP or LRPIB ligand for oral or rectal administration such as syrups, elixirs, and suspensions may be provided wherein each dosage unit, for example, teaspoonful, tablespoonful, tablet or suppository, contains a predetermined amount of the composition containing active agent.
- unit dosage forms for injection or intravenous administration may comprise the conjugate in a composition as a solution in sterile water, normal saline or another pharmaceutically acceptable carrier.
- unit dosage form refers to physically discrete units suitable as unitary dosages for human and animal subjects, each unit containing a predetermined quantity of compounds of the present invention calculated in an amount sufficient to produce the desired effect in association with a pharmaceutically acceptable diluent, carrier or vehicle.
- the specifications for the novel unit dosage forms of the present invention depend on the particular conjugate employed and the effect to be achieved, and the pharmacodynamics associated with each compound in the host.
- the conjugate, modulator, and LRP or LRPIB ligand according to the invention can be combined as the active ingredient in intimate admixture with a pharmaceutical carrier according to conventional pharmaceutical compounding techniques.
- the carrier may take a wide variety of forms depending on the form of preparation desired for administration, e.g., oral or parenteral (including intravenous).
- any of the usual pharmaceutical media may be employed, such as, for example, water, glycols, oils, alcohols, flavoring agents, preservatives, coloring agents and the like in the case of oral liquid preparations, such as, for example, suspensions, elixirs and solutions; or carriers such as starches, sugars, microcrystalline cellulose, diluents, granulating agents, lubricants, binders, disintegrating agents and the like in the case of oral solid preparations such as, for example, powders, hard and soft capsules and tablets, with the solid oral preparations being preferred over the liquid preparations.
- oral liquid preparations such as, for example, suspensions, elixirs and solutions
- carriers such as starches, sugars, microcrystalline cellulose, diluents, granulating agents, lubricants, binders, disintegrating agents and the like in the case of oral solid preparations such as, for example, powders, hard and soft capsules and tablets, with the solid oral preparations being preferred over the liquid preparation
- compositions such as vehicles, adjuvants, carriers or diluents
- pharmaceutically acceptable auxiliary substances such as pH adjusting and buffering agents, tonicity adjusting agents, stabilizers, wetting agents and the like, are commercially available.
- dose levels can vary as a function of the specific compound, the severity of the symptoms and the susceptibility of the subject to side effects. Preferred dosages for a given compound are readily determinable by those of skill in the art by a variety of means.
- compositions include, but are not limited to, compositions suitable for oral, rectal, topical, parenteral (including subcutaneous, intramuscular, and intravenous), pulmonary (nasal or buccal inhalation), or nasal administration, although the most suitable route in any given case will depend in part on the nature and severity of the conditions being treated and on the nature of the active ingredient.
- routes of administration are the oral and intravenous routes.
- the compositions may be conveniently presented in unit dosage form and prepared by any of the methods well- known in the art of pharmacy.
- the compounds e.g., LRP or LRPIB ligand conjugates, LRP or LRPIB modulator conjugates, LRP or LRPIB ligand-fusion proteins, LRP or LRPIB modulators, and LRP or LRPIB ligands
- a pharmaceutical carrier may take a wide variety of forms depending on the form of preparation desired for administration, e.g., oral or parenteral (including intravenous).
- any of the usual pharmaceutical media may be employed, such as, for example, water, glycols, oils, alcohols, flavoring agents, preservatives, coloring agents and the like in the case of oral liquid preparations, such as, for example, suspensions, elixirs and solutions; or carriers such as starches, sugars, microcrystalline cellulose, diluents, granulating agents, lubricants, binders, disintegrating agents and the like in the case of oral solid preparations such as, for example, powders, hard and soft capsules and tablets, with the solid oral preparations being preferred over the liquid preparations.
- oral liquid preparations such as, for example, suspensions, elixirs and solutions
- carriers such as starches, sugars, microcrystalline cellulose, diluents, granulating agents, lubricants, binders, disintegrating agents and the like in the case of oral solid preparations such as, for example, powders, hard and soft capsules and tablets, with the solid oral preparations being preferred over the liquid preparation
- tablets and capsules represent the most advantageous oral dosage unit form in which case solid pharmaceutical carriers are obviously employed. If desired, tablets may be coated by standard aqueous or nonaqueous techniques. The percentage of an active compound in these compositions may, of course, be varied and may conveniently be between about 2 percent to about 60 percent of the weight of the unit.
- conjugates, modulators, and ligands of the invention are useful for therapeutic, prophylactic and diagnostic intervention in animals, and in particular in humans.
- the conjugates show preferential accumulation and/or release of the active agent in any target organ, compartment, or site depending upon the biopolymer used.
- compositions of the present invention may be administered encapsulated in or attached to viral envelopes or vesicles, or inco ⁇ orated into cells.
- Vesicles are micellular particles which are usually spherical and which are frequently lipidic.
- Liposomes are vesicles formed from a bilayer membrane. Suitable vesicles include, but are not limited to, unilamellar vesicles and multilamellar lipid vesicles or liposomes.
- Such vesicles and liposomes may be made from a wide range of lipid or phosphohpid compounds, such as phosphatidylcholine, phosphatidic acid, phosphatidylserine, phosphatidylethanolamine, sphingomyelin, glycolipids, gangliosides, etc. using standard techniques, such as those described in, e.g., U.S. Patent No. 4,394,448.
- Such vesicles or liposomes may be used to administer compounds intracellularly and to deliver compounds to the target organs. Controlled release of a p97-composition of interest may also be achieved using encapsulation (see, e.g, U.S. Patent No. 5,186,941).
- compositions are administered peripherally, most preferably intravenously or by cardiac catheter. Intra-jugular and intra-carotid injections are also useful. Compositions may be administered locally or regionally, such as intra- peritoneally. In one aspect, compositions are administered with a suitable pharmaceutical diluent or carrier. [195] Dosages to be administered will depend on individual needs, on the desired effect, the active agent used, the biopolymer and on the chosen route of administration.
- Preferred dosages of a conjugate range from about 0.2 pmol kg to about 25 nmol/kg, and particularly preferred dosages range from 2-250 pmol/kg; alternatively, preferred doses of the conjugate may be in the range of 0.02 to 2000 mg/kg. These dosages will be influenced by the number of active agent or drug moieties associated with the biopolymer. Alternatively, dosages may be calculated based on the active agent administered.
- the conjugate comprises p97.
- doses of p97- adriamycin comprising from 0.005 to 100 mg/kg of adriamycin are also useful in vivo.
- a dosage of p97-adriamycin comprising from 0.05 mg/kg to 20 mg/kg of adriamycin.
- p97 generally reduces the amount of drug needed to obtain the same effect.
- the p97-conjugates, modulators, and LRPl or LRPIB ligands of the invention are useful for therapeutic, prophylactic and diagnostic intervention in animals, and in particular in humans.
- p97-compounds show preferential accumulation in the lung, liver, kidney and spleen, and that they significantly reduce delivery of the compounds to the heart.
- Preferred medical indications for diagnostic uses include, for example, any condition associated with a target organ of interest (e.g., lung, liver, kidney, spleen) or any condition that requires a cardiotoxic compound that would benefit by reducing its cardiotoxicity.
- the subject methods find use in the treatment of a variety ofdifferent disease conditions.
- of particular interest is the use of the subject methods in disease conditions where an active agent or drug having desired activity has been previously identified, but in which the active agent or drug is not targeted to the target site, area or compartment.
- the subject methods can be used to enhance the therapeutic efficacy and therapeutic index of active agent or drug.
- disease conditions include cellular proliferative diseases, such as neoplastic diseases, autoimmune diseases, cardiovascular diseases, hormonal abnormality diseases, degenerative diseases, diseases of aging, diseases of the central nervous system (e.g., Alzheimer's disease, epilepsy, hyperlipidemias), psychiatric diseases and conditions( e.g., schizophrenia, mood disorders such as depression and anxiety), infectious diseases, and the like.
- cellular proliferative diseases such as neoplastic diseases, autoimmune diseases, cardiovascular diseases, hormonal abnormality diseases, degenerative diseases, diseases of aging, diseases of the central nervous system (e.g., Alzheimer's disease, epilepsy, hyperlipidemias), psychiatric diseases and conditions( e.g., schizophrenia, mood disorders such as depression and anxiety), infectious diseases, and the like.
- Treatment is meant to encompass any beneficial outcome to a subject associated with administration of a conjugate including a reduced liklihood of acquiring a disease, prevention of a disease, slowing, stopping or reversing, the progression of a disease or an amelioration of the symptoms associated with the disease condition afflicting the host, where amelioration or benefit is used in a broad sense to refer to at least a reduction in the magnitude of a parameter, e.g., symptom, associated with the pathological condition being treated, such as inflammation and pain associated therewith.
- a parameter e.g., symptom
- treatment also includes situations where the pathological condition, or at least symptoms associated therewith, are completely inhibited, e.g., prevented from happening, or stopped, e.g., terminated, such that the host no longer suffers from the pathological condition, or at least the symptoms that characterize the pathological condition.
- a variety of hosts or subjects are treatable according to the subject methods.
- Such hosts are "mammals” or “mammalian,” where these terms are used broadly to describe organisms which are within the class mammalia, including the orders carnivore (e.g., dogs and cats), rodentia (e.g., mice, guinea pigs, and rats), and primates (e.g., humans, chimpanzees, and monkeys).
- the hosts will be humans.
- a combinatorial chemical library is a collection of diverse chemical compounds generated by either chemical synthesis or biological synthesis by combining a number of chemical "building blocks" such as reagents.
- a linear combinatorial chemical library such as a polypeptide library is formed by combining a set of chemical building blocks called amino acids in 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.
- combinatorial chemical libraries include, but are not limited to, benzodiazepines (U.S. Pat. No. 5,288,514), diversomers such as hydantoins, benzodiazepines and dipeptides (Hobbs et al.
- the combinatorial chemistry provides variants ofthe known native or endogenous human ligands ofthe LRP and LRPIB receptors as candidate ligands, modulators, and conjugates for use according to the invention.
- the assays for compounds described herein are amenable to high throughput screening. Preferred assays thus detect activation of transcription (i.e., activation of mRNA production) by the test compound(s), activation of protein expression by the test compound(s), or binding to the gene product (e.g., expressed protein) by the test compound(s).
- the BiaCore method is one such means for rapidly screening compounds for binding activity.
- the chimeric protein ofthe present invention can be produced using host cells expressing a single nucleic acid encoding the entire chimeric protein or more than one nucleic acid sequence, each encoding a domain ofthe chimeric protein and, optionally, an amino acid or amino acids which will serve to link the domains.
- the chimeric proteins can also be produced by chemical synthesis.
- A. Host Cells [213] Host cells used to produce chimeric proteins are bacterial, yeast, insect, non- mammalian vertebrate, or mammalian cells; the mammalian cells include, but are not limited to, hamster, monkey, chimpanzee, dog, cat, bovine, porcine, mouse, rat, rabbit, sheep and human cells.
- the host cells can be immortalized cells (a cell line) or non-immortalized (primary or secondary) cells and can be any of a wide variety of cell types, such as, but not limited to, fibroblasts, keratinocytes, epithelial cells (e.g., mammary epithelial cells, intestinal epithelial cells), ovary cells (e.g., Chinese hamster ovary or CHO cells), endothelial cells, glial cells, neural cells, formed elements ofthe blood (e.g., lymphocytes, bone marrow cells), muscle cells, hepatocytes and precursors of these somatic cell types.
- fibroblasts e.g., mammary epithelial cells, intestinal epithelial cells
- ovary cells e.g., Chinese hamster ovary or CHO cells
- endothelial cells glial cells
- neural cells formed elements ofthe blood (e.g., lymphocytes, bone marrow cells), muscle cells,
- Cells which contain and express DNA or RNA encoding the chimeric protein are referred to herein as genetically modified cells.
- Mammalian cells which contain and express DNA or RNA encoding the chimeric protein are referred to as genetically modified mammalian cells.
- Introduction ofthe DNA or RNA into cells is by a known transfection method, such as electroporation, microinjection, microprojectile bombardment, calcium phosphate precipitation, modified calcium phosphate precipitation, cationic lipid treatment, photoporation, fusion methodologies, receptor mediated transfer, or polybrene precipitation.
- the DNA or RNA can be introduced by infection with a viral vector.
- a nucleic acid construct used to express the chimeric protein can be one which is expressed extrachromosomally (episomally) in the transfected mammalian cell or one which integrates, either randomly or at a pre-selected targeted site through homologous recombination, into the recipient cell's genome.
- a construct which is expressed extrachromosomally comprises, in addition to chimeric protein-encoding sequences, sequences sufficient for expression ofthe protein in the cells and, optionally, for replication ofthe construct. It typically includes a promoter, chimeric protein-encoding DNA and a polyadenylation site. The DNA encoding the chimeric protein is positioned in the construct in such a manner that its expression is under the control ofthe promoter.
- the ' construct may contain additional components such as one or more ofthe following: a splice site, an enhancer sequence, a selectable marker gene under the control of an appropriate promoter, and an amplifiable marker gene under the control of an appropriate promoter.
- the DNA construct integrates into the cell's genome, it need include only the chimeric protein-encoding nucleic acid sequences.
- it can include a promoter and an enhancer sequence, a polyadenylation site or sites, a splice site or sites, nucleic acid sequences which encode a selectable marker or markers, nucleic acid sequences which encode an amplifiable marker and/or DNA homologous to genomic DNA in the recipient cell to target integration ofthe DNA to a selected site in the genome (targeting DNA or DNA sequences).
- Mammalian cells containing the chimeric protein-encoding DNA or RNA are cultured under conditions appropriate for growth ofthe cells and expression ofthe DNA or RNA.
- Those cells which express the chimeric protein can be identified, using known methods and methods described herein, and the chimeric protein isolated and purified, using known methods and methods also described herein; either with or without amplification of chimeric protein production. Identification can be carried out, for example, through screening genetically modified mammalian cells displaying a phenotype indicative ofthe presence of DNA or RNA encoding the chimeric protein, such as PCR screening, screening by Southern blot analysis, or screening for the expression ofthe chimeric protein.
- Selection of cells having inco ⁇ orated chimeric protein-encoding DNA may be accomplished by including a selectable marker in the DNA construct and culturing transfected or infected cells containing a selectable marker gene under conditions appropriate for survival of only those cells which express the selectable marker gene. Further amplification ofthe introduced DNA construct can be effected by culturing genetically modified mammalian cells under conditions appropriate for amplification (e.g., culturing genetically modified mammalian cells containing an amplifiable marker gene in the presence of a concentration of a drug at which only cells containing multiple copies ofthe amplifiable marker gene can survive).
- Mammalian cells expressing the chimeric protein can be identified, as described herein, by detection ofthe expression product.
- mammalian cells expressing chimeric protein in which the carrier is p97 can be identified by a sandwich enzyme immunoassay.
- the antibodies can be directed toward the LRP portion or the active agent portion.
- Example I In vitro model of the blood-brain barrier.
- A. Astrocytes Primary cultures of mixed astrocytes were prepared from newborn rat cerebral cortex (Dehouck, et al, Journal of Controlled Release (1992)). Briefly, after removing the meninges, the brain tissue was forced gently through a 82 ⁇ m nylon sieve. Astrocytes were plated on six-well microplates at a concentration of 1.2 x 10 5 cells/ml in 2 ml of optimal culture medium (DMEM) supplemented with 10% fetal heat inactivated calf serum. The medium was changed twice a week.
- DMEM optimal culture medium
- B. BBCEC Bovine brain capillary endothelial cells (BBCECs) were obtained from Cellial Technologies. The cells were cultured in the presence of DMEM medium supplemented with 10% (v/v) horse and 10% heat-inactivated calf serum, 2 mM glutamine, 50 ⁇ g/ml gentamycin, and 1 ng/ml basic fibroblast growth factor, added every other day.
- BCCECs Bovine brain capillary endothelial cells
- BBB The in vitro model of BBB was established by using a co-culture of BBCECs and astrocytes, basically as described in Dehouck, et al, Eur. J. Pharm. Sci., 3:351- 365 (1995); and Cecchelli, et al, Adv. Drug Deliv. Rev., 36:165-178 (1999)).
- the luminal side corresponds to the apical or serum facing side ofthe blood-brain barrier.
- the abluminal side corresponds to the basolateral side ofthe BBB, i.e., the side facing the neurons. It is noted that this terminology is used throughout the specification.
- sucrose permeability The permeability coefficient for sucrose was measured to verify the endothelial permeability and the integrity and tightness ofthe BBCEC monolayers, as previously described, using uncoated filters or coated with endothelial cells. Briefly, the results were plotted as the clearance of [ 14 C]-sucrose ( ⁇ l) as a function of time (min).
- PSt is the permeability x surface area of a filter ofthe co-culture
- PSf is the permeability of a filter coated with collagen and with astrocytes plated on the bottom side of the filter.
- Ringer/Hepes solution was composed of 150 mM NaCl, 5.2 mM KC1, 2.2 mM CaCl 2 , 0.2 mM MgCl 2 , 6 mM NaHCO 3 , 5 mM Hepes, 2.8 mM Hepes, pH 7.4.
- the culture medium was replaced by Ringer/Hepes containing the labeled [ 14 C] -sucrose.
- inserts were placed into another well.
- amounts ofthe radiotracers in the basolateral compartment were measured in a liquid scintillation counter.
- the permeability coefficient (Pe) for sucrose was calculated as previously described (Dehouck, et al, J.
- coated or non-coated filters with BBCE cells were transferred to 6-well plates containing 2 ml of Ringer/Hepes per well (basolateral compartment) for 2 hrs at 37°C.
- the culture medium was replaced by 1 ml Ringer-Hepes containing labeled [ 14 C]-sucrose.
- inserts were placed into another well.
- amounts ofthe radiotracers in the basolateral compartment were measured in a liquid scintillation counter.
- the difference in the slopes for PSf and PSt demonstrates that the monolayer of cells provides significant resistance to sucrose permeability, thus confirming the presence of tight junctions between cells regardless of pre- incubation.
- Psf and Pst refer to flow rates through the membrane with and without cells. They are used to calculate the permeability ofthe membrane with cells. Definitions for Psf and Pst are in found in J. Neurochem., 55:1790-97 (1992), the teachings of which are inco ⁇ orated by reference. The definition of PSt and PSf are simply the slope of the clearance curves for the co-culture and for the control filter respectively.
- Example II Binding of p97 with BBCECs and Rat Brain Endothelial Cells [228]
- Figure 3 demonstrates the competitive binding of p97 with cold p97, transferrin and lactoferrin.
- cells were incubated for 2 h at 4°C in Ringer/Hepes in the presence of [' 25 I]-p97 (25 nM) and increasing concentrations of cold-p97 or high (7.5 micromolar) concentrations of transferrin or lactoferrin.
- the filters were gently washed at 4°C three times with 4 ml of cold-PBS. Then the associated radioactivity of endothelial cells was determined by removing the membrane ofthe culture insert and counting it in a gamma counter.
- Figure 4 demonstrates a comparative study, but this time using Rat Brain Endothelial-4 cells (RBE4 supplied commercially by ATCC).
- RBE4 cells were grown in monolayers in 24 wells plastic tissue culture flasks at 37°C under 5% CO 2 in minimum essential medium Alpha and Ham's F10 (1 :1) supplemented with 10% heat inactivated fetal bovine serum.
- RBE4 cells were pre-incubated at 37°C for 2 hrs in Ringer/Hepes.
- 125 I-p97 in 200 ⁇ l of Ringer/Hepes was added to RBE4 cells for 2 hrs at 4°C in the presence or absence of high concentration of cold-p97, human holo-transferrin or human lactoferrin. After the incubation, the cells were washed 4 times with PBS and the I- p97 associated with the cells was measured.
- Figure 4 demonstrates that cold p97 (10 micromolar) and lactoferrin (10 micromolar) both competitively inhibit [ 125 I]-p97 binding to RBE4 cells, whereas transferrin (10 micromolar) does not.
- Example III Interaction of p97 with human brain capillaries.
- the homogenate was mixed with an equal volume of Dextran T-70 (27g in 100 ml of Ringer Hepes). The suspension was centrifuged at 25,000 g for 10 min. The pellet was resuspended in 30 ml of Ringer/Hepes and passed through a 250 ⁇ m nylon mesh screen. The nylon mesh was rinsed and the filtrate was concentrated by centrifugation at 25,000 g for 10 min. The pellet was resuspended in 30 ml of cold-
- Ringer/Hepes and passed through a 2.5 cm x 4.0 cm glass beads column [40/60-mesh (0.25 mm) glass beads].
- the columns were washed twice with 25 ml of Ringer/Hepes.
- the glass beads were transferred to a beaker and swirled vigorously (15 min at 4°C) in Ringer/Hepes to separate the microvessels from the beads.
- the beads were allowed to settle and the supernatant was decanted and kept at 4°C.
- the beads were swirled for another 15 min in Ringer/Hepes.
- the supernatants were pooled and the microvessels were collected by centrifugation at 25,000 g for 10 min. Brain capillaries were kept at -80°C until used.
- a rapid filtration technique was used to measure the accumulation of [ 125 I]-p97 in human brain capillaries. Accumulation of [ I]-p97 was measured at 37°C for 1 h in isolated human brain capillaries (100 ⁇ g/assay).
- the incubation medium contained [ 125 I]-p97 and a final concentration of 100 nM p97 in Ringer/Hepes solution.
- the accumulation of [ I25 I]-p97 was performed in presence or in absence of 5 ⁇ M of cold-p97, holo-transferrin or lactoferrin.
- Figure 5 demonstrates the results ofthe experiments. Consistent with the findings in Figures 3 and 4, it is found that cold p97 (5 micromolar) or lactoferrin (5 micromolar) significantly inhibits competitive [ 125 I]-p97 binding to human brain capillary cells, whereas transferrin (5 micromolar) shows no significant competition. This finding confirms that p97 binding to its receptor is not blocked by transferrin.
- Figure 6 is a repeat experiment, performed identically to the experiment of Figure 5, except this time with the additional competition assay for ⁇ -amyloid peptide.
- FIG. 7 shows the results of experiments where the ligands p97, Lf and Tf were heated or not heated prior to the binding study. In all cases, binding experiments were conducted in the transwell apparatus as described previously, with the exception that binding was conducted at either 4°C or at 37°C. For the 37°C trial, a separate experiment was conducted where the ligand was boiled for 30 mins then rapidly cooled prior to administration on the transwell plates.
- Figure 8 demonstrates that p97 transcytosis was significantly higher at 37°C than at 4°C. This result demonstrates that p97 is actively transported in an energy dependent process across this blood-brain barrier model in a temperature dependent fashion, presumably by receptor mediated uptake.
- FIG. 9 confirms that transcytosis of p97 is also a saturable phenomenon, thus further implicating a specific MTf-receptor protein in this model ofthe blood-brain barrier. These experiments were conducted as previously described. Measurements ofthe amount of transcytosis were made at the time points indicated. [242] The effect of potentially competitive ligands on transcytosis was assessed in a series of experiments. In Figure 10a, transcytosis of I-p97 was compared in the presence of cold p97 (5 micromolar), Lf (5 micromolar), and Tf (5 micromolar). At these concentrations, only the cold p97 successfully reduced transcytosis ofthe labelled p97.
- ⁇ -amyloid protein (5 micromolar) also failed to slow or reduce transcytosis of labelled p97. Higher amounts of ligands do interfere with p97 transcytosis (data not shown).
- RAP a known polypeptide inhibitor of he LDL-Receptor family was applied to the cells (25 micrograms/ml). RAP significantly inhibited the transcytosis of p97, thus directly implicating the LDL-receptor family, especially LRPl as the MTf-R.
- Example V Accumulation and transcytosis of p97 in brain.
- mice were each given approximately 4 pmol of [ 125 I]-p97, [ 125 I]-BSA or human [ I]-holo-transferrin in 200 ⁇ l of injection solution through the jugular vein. After 1 hour, animals were sacrificed and perfused with buffer via cardiac aorta. The serum and brain samples were collected and the levels of radioactivity were measured. In situ brain perfusion was performed as previously described (Dagenais, C, Rousselle, C, Pollack, G.M. & Scherrmann, J.M. J.Cereb. Blood Flow Metab. 20: 381-386 (2000)).
- the right hemisphere ofthe brain was perfused with 10 nM of [ 125 I]-p97 or [ 125 I]-holotransferrin in Krebs-bicarbonate buffer (pH 7.4 with 95 % O 2 and 5 % CO 2 at a flow rate of 2.5 ml/min for 10 min) via a catheter inserted in the right common carotid artery following ligation ofthe external branch.
- Mice were decapitated to terminate perfusion and the right hemisphere was isolated on ice before subjected to capillary depletion (Triguero, D., Buciak, J. & Pardridge, W.M. J eurochem., 54: 1882-1888 (1990)).
- Aliquots of homogenates, supernatants, pellets and perfusates were taken to measure their contents in [ I]-proteins by TCA precipitation and to evaluate their apparent V D -
- 125 I (1 mCi) from Amersham- Pharmacia biotech was added to the bead suspension for 5 min at room temperature. The iodination for each protein was initiated by the addition of 100 ⁇ g (80-100 ⁇ l). After an incubation of 10 min at room temperature. The supernatants were applied on a desalting column prepacked with 5 ml of cross-linked dextran from Pierce and 125 I-proteins were eluted with 10 ml of PBS. Fractions of 0.5 ml were collected, and the radioactivity in 5 ⁇ l of each fraction was measured. Fractions corresponding to 12s I-proteins were pooled and dialyzed against Ringer/Hepes, pH 7.4.
- the uptake was stopped by the addition of ice-cold stop solution (150 mM KC1, 0.1% bovine serum albumin (BSA) and 5 mM Hepes, pH 7.5) and the suspension was filtered under vacuum through a 0.45 ⁇ M pore size Millipore filter. The filter was rinsed with 8 ml of stop solution, and the radioactivity was assayed. Nonspecific binding of radioactivity to the capillaries was determined by addition of the ice-cold stop solution to the capillaries before adding the incubation medium. This value was subtracted from the values obtained following a 1 h incubation.
- Example VI Exemplary Methods.
- [248] Uptake of [ 125 I]-p97 Cells were grown in monolayer in six-multiwell microplates at 37°C under 5% CO2. Uptake of [ I25 I]-p97 was measured at 37°C for 2 h in astrocytes and astrocytomas. The incubation medium contained [ I]-p97 and a final concentration of 50 nM P97 in Ringer/Hepes solution. The uptake of [ I]-p97 was performed in presence or in absence of 5 ⁇ M cold-P97. After incubation, the cell monolayer was wash three times with cold Ringer/Hepes solution. Triton X-100 0.1% was added and the [ 125 I]-p97 uptake was assessed in the Triton X- 100 soluble fraction by TCA precipitation.
- RNA extraction Cells in six-wells plate or in 75 cm 2 plastic tissue culture flasks were grown at 37°C under 5% CO2 with optimal culture medium to 80-90% confluence. Total cellular RNA was preserved in Trizol (Gibco BRL, Burlington, ON). The solution are frozen at -80 oC until extraction. The solution was defroze and mixed with 5:1 chloroform for 3 minutes at room temperature. The suspension was centrifugated at 12000 g at 4oC. The clear supernatant was collected then mixed with 1:1 of isopropanol for 15 minutes at room temperature. The mix was centrifugated at 12000 x g for 10 min at 4oC. The pellets was washed with 70% ethanol and dried before resuspended in RNase Free H2O.
- RT-PCR was performed for members of the LDL-R family: LRP, LRP IB, megalin, LDL, VLDL, LRP8, LRl 1 , RAP, LR3, cubulin and P97.
- DNA (cDNA) synthesis was performed with 1 (g of total RNA using a cDNA one step synthesis kit (Invitrogen,USA) following the manufacturer's protocol. (Ix of reaction mix, RNA l(g, 0.2(M of both primers, 1(1 of RT/Platinum Tag mix). The cDNA generated was amplified using primers produced with Mac Vector 7.0 ( Oxford molecular Ltd, Oxford, UK ).
- RT inverse-transcription was performed at 50oC for 30 min.
- PCR amplification for 35 cycles for all was performed as follows: denaturation at 94°C for 30 s, annealing at 60°C for 30 s and extension at 72°C for 30 s. Finalisation stage was performed at 72oC for 30 min. Tubes containing all the ingredients except templates were included in all runs and served as negative controls.
- the amplified PCR products were electrophoresed on a 2% agarose gel in TAE (40 mM Tris, 360 mM acetic acid, 1 mM EDTA, 12.5 fM Ethium bromide) and were visualized under ultraviolet light followed by densitometric analysis.
- TAE 40 mM Tris, 360 mM acetic acid, 1 mM EDTA, 12.5 fM Ethium bromide
- Western blot Cell lysates (25 ⁇ g of protein) were subjected to SDS-PAGE and electroblotted onto PVDF membranes. Membranes were blocked over night at 4°C in 5% non fat dry milk in TBS (NaCl 125 mM, Tris 20 mM, pH 7,5) with 0.1% Tween.
- [252] Ligand-binding Briefly, cells were incubated with [ 125 I]-p97in Ringer/Hepes solution, in presence or in absence of 5 ⁇ M coId-P97 for 1 h at 4°C. After incubation, the cell monolayer was washed three times with cold Ringer/Hepes solution. After the ligand binding at 4°C, cell monolayer was washed three times with cold Ringer/Hepes solution and was incubated with DSS (Disuccinimidyl suberate) or Lomant's reagent DSP (Dithiobis(succinimidyl propionate)) from Pierce.
- DSS Disuccinimidyl suberate
- Lomant's reagent DSP Dithiobis(succinimidyl propionate
- cross-link After the cross-link, cells were lysed and proteins were separated by SDS-PAGE electrophoresis. Gels were fixed, dryed and exposed to Kodak films at -80°C for about 3 weeks before developping. The cross-link was performed exactly as the manufacturer's protocol.
- the carboxymethylated dextran was first activated with 50 ⁇ l of NHS/EDC (50 mM/200 mM) at a flow rate of 5 ⁇ l/min.
- the mAb L235 (5 ⁇ g) in 10 mM acetate buffer, pH 4.0 was then injected and the unreacted NHS-esters were deactivated with 35 ⁇ l of 1 M ethanolamine hydrochloride, pH 8.5. Approximately 8000 to 10000 relative units of mAb 235 were immobilized on the sensor chip surface.
- the Ringer/Hepes buffer was used as the eluent buffer to monitor the signal plasmon resonance (SPR).
- p97 diluted in the same eluent buffer was boiled for various lengths of time, cooled to room temperature and injected onto the sensor chip surface.
- the SPR obtained was compared to that of unboiled p97.
- the brain uptake of human [ 125 I -p97 in mice, one hour after i.v. injection was evaluated and and compared to that obtained for [ l25 I -BSA or human [ 125 I]-transferrin (Fig. 11a).
- the brain/serum ratio for p97, BSA and holo-transferrin is respectively 0.025, 0.002 and 0.008 indicating a higher brain accumulation for p97.
- V D apparent volume of distribution
- the apparent Voof p97 in the brain parenchyma is 17.2 ml lOOg, 8.8-fold higher than for transferrin, indicating a greater passage through brain capillaries.
- the passage of [ 125 I -p97 across an in vitro model ofthe BBB was measured at 37 °C and at 4 °C. (Fig. 1 lc).
- a dramatic reduction in the transport from the apical to the basolateral surface of BBCEC monolayers of [ 125 I -p97 is observed at 4 °C, indicating that the transcytosis of p97 requires an active mechanism.
- Results demonstrate that p97 transport is substantially directed from the luminal to the abluminal side, corresponding in vivo to the delivery of p97 from the blood/serum face of brain capillaries (i.e., inside the capillaries) to the neural cells ofthe brain.
- [ 125 I -p97 transport is about 3-fold higher when measured in the apical-to-basolateral direction, indicating a substantial preferential transport of p97 towards the brain.
- the conformation ofthe protein was assessed using the biological interaction analysis in real-time between p97 and the monoclonal antibody (mAb) L235, which recognizes a conformational epitope on p97 since no enzymatic activity has yet been defined for this protein.
- mAb L235 was immobilized on the surface of a sensor chip and exposed to native p97 as well as to p97 which had been boiled for 5, 10, 20 or 30 min.
- the surface plasmon resonance signal of native proteins, the accumulation of p97 in BBCE cells is 5.7 ⁇ g/cm whereas no significant accumulation is observed for bovine transferrin.
- the total amount of intact p97 after transendothelial transcytosis is 35 ⁇ g/cm , very similar to the amount shown in Fig. 13a after TCA precipitation, indicating that the iodination of p97 does not interfere with its transcytosis. Since p97 is transported much faster than is transferrin, the permeability to [ 14 C]-sucrose was measured in the presence of a high concentration of p97 (Fig. 14c). No significant increase in the clearance of sucrose is detectable in the presence of p97.
- the permeability coefficient (Pe) for sucrose in the presence of p97 is 1.04 ⁇ 0.15 x 10-3 cm/min, not significantly different from the value of 1.07 ⁇ 0.19 x 10-3cm/min measured in the absence of p97 (Fig. 14d).
- Figure 17 further illustrates the effect of LRP ligands RAP, Aprotinin and BSA on p97 transcystosis and the effect of p97 on lactoferrin transcytosis.
- the inhibition by RAP but not BSA distinguishes the p97 from megalin, the chylomicron receptor found in the liver, and the receptor for advanced glycation end products which can be found on lung endothelial cells, neurons, atrocytes, and glomeruli.
- the time course for the intemalization of p97 is illustrated in Figure 18 which depicts the movement of p97 at 30 minutes and 60 minutes and its accumulation in early endosome.
- Figure 19 illustrates the conditions for studying the rate of p97 intemalization and transcytosis in the BBB model.
- Figure 20 shows the results of such a study. Transcytosis is fast as in 10 minutes, 80% of membrane bound p97 has transcytosed. Pathway for p97 endocytosis.
- LDL Upon binding to a LRP to a growing brain capillary endothelial cell, LDL is classically internalized by a clathrin dependent pathway wherein the LDL is directed toward lysosomes and degraded so as to provide cholesterol to the growing cell. This pathway is sensitive to filipin. In differentiated BCECs, the LDL is transcytosed. Evidence indicates the same receptor is involved in both pathways, (see Dehouck et al., J. of Cell Biology 738(4) 877-889 (1997). [269] The possibility that p97 endocytosis involved a clathrin-dependent mechanism or a clathrin independent mechanism (i.e., caveolae) was examined in BBCE.
- p97 may be transported across the cell as occurs with brain endothelial cells lining the brain capillaries or else it may be transported to a lysosome.
- p97 is useful as a means of delivering therapeutic agents such as p97 therapeutic agent conjugates across the blood brain barrier.
- p97 is useful as a means of delivering therapeutic agents to the intracellular compartment, particularly the lysosome.
- conjugates with enzymes e.g., an enzyme deficient in a patient with a lysosomal storage disease
- Figure 23 illustrates an LRP receptor ⁇ and ⁇ subunits with respect to the cell membrane and some LRP ligands.
- Figure 25 presents the relative amounts of LRP/LRP IB proteins in various cell types, including astrocytomas, normal astrocytes, and brain capillaries.
- the distribution of megalin among astrocytes and astrocytomas is presented in Figure 26.
- the expression of LRPIB in astrocytes and astrocytomas as determined by (RT-PCR) is increased in the astrocytomas over the astrocytes. This result is result is consistant with the greater uptake ofthe labeled p97 by the astrocytomas.
- FIG. 32 shows the expression of members ofthe LDL receptor family by RT-PCR.
- glioblastoma cell line U87 LRP, LRP lb, LDL, and LRP8 are highly expressed. Cubilin and RAP are expressed to a much lesser extent.
- LRPIB, megalin, LDL, LRP8, and LRP are highly expressed as compared to cubilin.
- FIG. 29 shows that LRP/LRP IB migrates as a high molecular weight dissociable complex in the presence of p97, indicating the association ofthe two molecules. Exposing the complex to reducing conditions such as ⁇ -mercaptoethanol induces the release of p97 from the high molecular weight complex (see Figure 30). p97 similarly forms high molecular weight complexes upon contact with glioblastomas and human brain capillaries (see Figure 31). Effect of p97 on cell expression of members of LDL-receptor family in human glioblastoma.
- FIG. 35 shows the dose response effect of p97 for LRPlBb, LRP, LDL-R, Megalin, and Cubilin as measured by RT-PR in U-87 cells.
- p97 induces the expression ofthe LRPIB receptor and the Cubilin receptor, but not the LRP or Megalin receptor.
- RAP appears to antagonize the effect of p97 on those receptors.
- p97 also appears to induce its own expression as shown by RT-PCR methods (see Figure 36).
- Figures 37 and 38 summarize the quanitated effects of p97 and RAP on the expression of LRPIB, LRP, LDL-R, Cubilin, p97, and Megalin in the glioblastoma U87 cell line as determined by RT-PCR.
- the fibroblast cell line MG1391 was used to assess the potential of p97 and other LRP ligand conjugates as carriers for transcytosis or endocytosis in fibroblasts.
- Figure 39 shows the expression of members ofthe LDL receptor family in MG1391 cells. LRP, LDL, and to a lesser extent, LRPIB and Cubilin are expressed as measured by RT-PCR. Further more, p97 particularly induces the expression ofthe LRPIB as shown in Figures 40 and 41. Expression of LDL receptor Family members in human endothelial cells and BBCE cells.
- LRP, LRPIB, and LDL-R as well as LRP8 are highly expressed in human endothelial cells.
- the presence of astrocytes induces the expression of LRPIB and LRP8 in the BBCE cells (see Figure 43).
- transendothelial transport of p97 requires energy and is concentration-dependent, indicating a receptor-mediated endocytosis mechanism for p97.
- preferential transport of p97 from the apical to the basolateral surface of BBCECs is observed with no detectable degradation of p97.
- the conformation of p97 also seems to be very important for its transcytosis because heat- denaturation considerably reduced the transendothelial transport of this protein.
- the in vitro results strongly confirm and support the in vivo observations on high p97 uptake in the brain.
- the transcytosis, binding and accumulation of p97 are much higher than those for transferrin indicating that the p97 receptor has a much higher capacity and lower affinity than those previously reported for the transferrin receptor.
- the transcytosis of p97 is unaffected by either bovine or human transferrin, indicating that p97 does not compete with transferrin for its receptor.
- the mAb OX-26 directed against the transferrin receptor which was previously shown to inhibit the uptake of transferrin, has no effect on p97 transport.
- the competition of [125I]-p97 uptake by unlabelled p97 in isolated human brain capillaries confirmed the presence of a receptor for p97.
- lactoferrin competed [125I]-p97 uptake efficiently, better than transferrin or any other tested proteins, indicating that lactoferrin and p97 share a receptor.
- the receptor for lactoferrin transcytosis in brain ECs is LRP 6, a member ofthe large LDL-receptor family, (see Bu, G. & Rennke, S. J. Biol. Chem. 271: 22218-2224 (1996)).
- LRP 6 a member ofthe large LDL-receptor family
- p97 passes across the blood brain barrier (BBB) at least as well as does OX-26.
- BBB blood brain barrier
- Another advantage of using p97 is its very low concentration in the serum (100 000-fold lower than transferrin) (see Jefferies, W.A. et al. Brain Res. 712: 122-126 (1996), and Kim, D.K. et al. S Neuropsychopharmacology 25: 84-90 (2001)), which indicates that it would deliver p97- conjugate(s) directly into the CNS.
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Priority Applications (6)
Application Number | Priority Date | Filing Date | Title |
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AU2002322720A AU2002322720B2 (en) | 2001-07-25 | 2002-07-25 | Compositions and methods for modulating blood-brain barrier transport |
AT02756731T ATE445838T1 (en) | 2001-07-25 | 2002-07-25 | COMPOSITIONS AND METHODS FOR MODULATING TRANSPORT ACROSS THE BLOOD-BRAIN BARRIER |
CA2450073A CA2450073C (en) | 2001-07-25 | 2002-07-25 | Compositions and methods for modulating blood-brain barrier transport |
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- 2002-07-25 EP EP02756731A patent/EP1554572B1/en not_active Expired - Lifetime
- 2002-07-25 CA CA2450073A patent/CA2450073C/en not_active Expired - Fee Related
- 2002-07-25 AT AT02756731T patent/ATE445838T1/en not_active IP Right Cessation
- 2002-07-25 WO PCT/US2002/023923 patent/WO2003009815A2/en active Search and Examination
- 2002-07-25 JP JP2003515208A patent/JP4202250B2/en not_active Expired - Fee Related
- 2002-07-25 AU AU2002322720A patent/AU2002322720B2/en not_active Ceased
- 2002-07-25 EP EP09012753.1A patent/EP2147679B1/en not_active Expired - Lifetime
- 2002-07-25 US US10/206,448 patent/US20030129186A1/en not_active Abandoned
- 2002-07-25 DE DE60234057T patent/DE60234057D1/en not_active Expired - Lifetime
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2006
- 2006-10-13 US US11/580,497 patent/US7700554B2/en not_active Expired - Fee Related
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2010
- 2010-01-07 US US12/683,651 patent/US7977317B2/en not_active Expired - Fee Related
- 2010-07-26 HK HK10107161.6A patent/HK1140686A1/en not_active IP Right Cessation
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DE60234057D1 (en) | 2009-11-26 |
AU2002322720B2 (en) | 2008-11-13 |
US20100183581A1 (en) | 2010-07-22 |
EP2147679A2 (en) | 2010-01-27 |
US7977317B2 (en) | 2011-07-12 |
EP2147679A3 (en) | 2010-03-10 |
HK1140686A1 (en) | 2010-10-22 |
CA2450073A1 (en) | 2003-02-06 |
EP1554572A4 (en) | 2006-03-29 |
WO2003009815A3 (en) | 2005-05-19 |
JP4202250B2 (en) | 2008-12-24 |
CA2450073C (en) | 2017-08-29 |
EP1554572B1 (en) | 2009-10-14 |
US20070167365A1 (en) | 2007-07-19 |
EP2147679B1 (en) | 2014-06-25 |
EP1554572A2 (en) | 2005-07-20 |
ATE445838T1 (en) | 2009-10-15 |
JP2005509144A (en) | 2005-04-07 |
US20030129186A1 (en) | 2003-07-10 |
US7700554B2 (en) | 2010-04-20 |
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