US20040101822A1 - Fluorescent silica-based nanoparticles - Google Patents
Fluorescent silica-based nanoparticles Download PDFInfo
- Publication number
- US20040101822A1 US20040101822A1 US10/306,614 US30661402A US2004101822A1 US 20040101822 A1 US20040101822 A1 US 20040101822A1 US 30661402 A US30661402 A US 30661402A US 2004101822 A1 US2004101822 A1 US 2004101822A1
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- Prior art keywords
- nanoparticle
- fluorescent
- ligated
- cell
- therapeutic agent
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- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/58—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances
- G01N33/585—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances with a particulate label, e.g. coloured latex
- G01N33/587—Nanoparticles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B82—NANOTECHNOLOGY
- B82Y—SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES; MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES; MANUFACTURE OR TREATMENT OF NANOSTRUCTURES
- B82Y20/00—Nanooptics, e.g. quantum optics or photonic crystals
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- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2002/00—Crystal-structural characteristics
- C01P2002/80—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70
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- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/01—Particle morphology depicted by an image
- C01P2004/03—Particle morphology depicted by an image obtained by SEM
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- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/60—Particles characterised by their size
- C01P2004/64—Nanometer sized, i.e. from 1-100 nanometer
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/50—Immunoglobulins specific features characterized by immunoglobulin fragments
- C07K2317/52—Constant or Fc region; Isotype
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T428/00—Stock material or miscellaneous articles
- Y10T428/24—Structurally defined web or sheet [e.g., overall dimension, etc.]
- Y10T428/24355—Continuous and nonuniform or irregular surface on layer or component [e.g., roofing, etc.]
- Y10T428/24372—Particulate matter
- Y10T428/2438—Coated
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T428/00—Stock material or miscellaneous articles
- Y10T428/31504—Composite [nonstructural laminate]
- Y10T428/31652—Of asbestos
- Y10T428/31663—As siloxane, silicone or silane
Definitions
- the invention generally relates to nanoparticles, and more specifically to ligated-fluorescent nanoparticles, methods of making ligated-fluorescent nanoparticles, and methods of using the ligated-fluorescent nanoparticles as biomarkers to, for example, monitor the motion or movement of cellular components on or within cell systems, and for the detection, diagnosis, or treatment of diseases or conditions, for example in intact or living cells.
- Fluorescent and magnetic polymeric particles have known utility as markers and indicators in various biomedical assays.
- markers for sorting cells are immunoconjugates or immunological labels which include, for example, immuno-fluorescent and immuno-magnetic labels.
- Immunofluorescent labels typically include, for example, a fluorescent molecule joined to an antibody.
- Immuno-magnetic labels typically include, for example, a superparamagnetic particle joined to either a primary or secondary antibody.
- Cell labeling can be performed by, for example, attaching the antibody to a marker of interest (e.g., receptor site) on the surface of the cell, that is, a cell surface marker.
- a marker of interest e.g., receptor site
- the chemical and physical structure of cell surface marker and density of immunological labels attached to the cell surface have generally been difficult to accurately determine.
- Fluorescent labels have been prepared, for example, by embedding or covalently coupling a fluorescent dye onto a polymeric particle.
- the resulting fluorescent microparticles can be analyzed manually or by other methods known in the art but preferably using an automated technique, e.g., flow cytometry, such as disclosed in U.S. Pat. No. 4,665,024, to Mansour, et al.
- the versatility of the fluorescent particles can be further enhanced by the incorporation of multiple fluorescent materials in a single particle.
- Magnetic particles such as known magnetically active materials, can be bonded or attached to, for example, antibodies, such as, monoclonal antibodies that are specific to a particular cell type, antigen, or other targets.
- the resulting magnetic-antibodies can then be mixed with a large population of many different cell types, for example, crude tissue samples, cells grown in a reactor, and the like.
- the magnetic-antibodies therefore attach only to their pre-selected target cell type, forming a magnetic-antibody-cell conjugate.
- the conjugate can then be separated from the rest of the cell population using a magnetic field.
- a shortcoming of magnetic particles is the lack of specificity in magnetic labeling in that a cell or other biological target analyte may be rendered paramagnetic by a number of different routes which can confound the analysis and diagnostic information afforded by the method, for example, by binding a specific paramagnetic compound to a specific hapten on a cell or by specific or non-specific binding of a paramagnetic metal or metal complex directly to a cell, such as, a metal binding microorganism or by phagocytosis.
- Other problems encountered with magnetic particles used in detection and diagnostics include, for example, difficulty in obtaining highly accurate quantification of a cell population's magnetic susceptibility. In addition to their magnetic properties (i.e.
- magnetic, paramagnetic, and superparamagnetic magnetic-antibodies can be classified, for example, into three broad categories based on their relative descending particle size: magnetic particulate labels, colloidal magnetic labels, and molecular magnetic labels, see for example U.S. Pat. No. 6,412,359.
- Latex nanoparticles having a polymeric core and a surface decorated with, for example, a ligand molecule capable of specific binding with a cell surface and optionally decorated with genetic material, such as a mutant gene, are known and may have utility in, for example, gene delivery to a cell and expression therein, for disrupting tumors, and related treatment applications, see for example, Science, 296, 2404 (2002).
- Optically active nanoparticles such as fluorescent nanoparticles, having an electrically conducting shell and a silica core are known and have utility in, for example, modulated delivery of a chemical and treatment applications, see for example, U.S. Pat. No. 6,344,272, and 6,428,811.
- a shortcoming of existing fluorescent probe nanoparticles is their limited brightness and their attenuated detectability as fluorescent probes in dispersed systems, particularly with single fluorescent nanoparticles.
- the invention provides a fluorescent nanoparticle comprising: a core comprising a fluorescent silane compound; and a silica shell on the core.
- the invention also provides a fluorescent nanoparticle comprising:
- a core comprising a fluorescent silane compound; and a porous silica shell on the core.
- the invention also provides a fluorescent nanoparticle which can further include a ligand, such as a antibody, conjugated with or coated on the surface of the fluorescent nanoparticle to form a ligated-fluorescent nanoparticle.
- a ligand such as a antibody
- the ligated- or ligand bearing-fluorescent nanoparticles of the present invention can be used, for example, as highly target specific diagnostic agents, and motion monitoring agents when combined with cells or cell components.
- the invention also provides a pharmaceutical carrier or drug delivery vehicle comprising the fluorescent nanoparticles or the ligated-fluorescent nanoparticles of the present invention.
- the invention also provides a fluorescent imaging agent comprising the ligated-fluorescent nanoparticles of the present invention.
- the invention also provides ligated-fluorescent nanoparticles as pharmaceutical carrier particles.
- the ligated-fluorescent nanoparticles can further include a therapeutic agent, which therapeutic agent is on the surface or is conjugated with the surface of the fluorescent nanoparticle to form a pharmaceutical composition.
- the invention also provides a method of making a fluorescent nanoparticle comprising:
- a fluorescent compound such as a reactive fluorescent dye
- an organo-silane compound such as a co-reactive organo-silane compound
- the invention also provides a method for monitoring movement of a cellular component of a cell comprising:
- the invention also provides a method for treating disease comprising:
- a ligated-fluorescent nanoparticle which nanoparticle optionally includes a therapeutic agent, the nanoparticle being adapted to selectively associate with a disease producing component of the cell, to form a selectively decorated cell with the ligated-fluorescent nanoparticle;
- the invention also provides a method for treatment comprising:
- the invention also provides a kit for use in the detection of an analyte, the kit comprising a ligated-fluorescent nanoparticle, as illustrated herein.
- the invention also provides a kit for detecting and monitoring a cell surface component comprising a ligated-fluorescent nanoparticle for detecting the cell surface component, and optionally a recorder for monitoring the cell surface component.
- the invention also provides an assay method for detecting motion or a change in the location of a cellular component in, or on the surface of, a cell when the cell is treated with a therapeutic agent comprising:
- FIG. 1A illustrates an example of the fluorescent brightness of the fluorescent nanoparticles of the present invention compared to latex particles.
- FIG. 2A illustrates an example of bio-molecule binding specificity of the fluorescent nanoparticles of the present invention.
- FIG. 2B illustrates an example of bio-molecule binding specificity of comparative latex particles.
- Applicants have discovered fluorescent nanoparticles, and linked- or ligated-fluorescent nanoparticles of the invention that are useful for labeling, detection, identification, motion monitoring, and like applications, of various biological and non-biological analytes.
- the linked- or ligated-fluorescent nanoparticles of the invention can also be useful in therapeutic treatment, when used as a pharmaceutical carriers, for example, in combination with a suitable therapeutic agent.
- the present invention provides nanoparticles which can have useful multifunctional architectures, for example, a fluorescent nano-sized core which can optionally contain other functionality such as a magnetic component, a silica shell which can be made to have a range of useful thicknesses and surface properties, such as a smooth monolithic surface or a highly porous surface, and which silica surface can be further physically or chemically modified with, for example, a ligand or a therapeutic agent.
- useful multifunctional architectures for example, a fluorescent nano-sized core which can optionally contain other functionality such as a magnetic component, a silica shell which can be made to have a range of useful thicknesses and surface properties, such as a smooth monolithic surface or a highly porous surface, and which silica surface can be further physically or chemically modified with, for example, a ligand or a therapeutic agent.
- the present invention provides for the preparation and characterizations of fluorescent nanoparticles in various sizes suitable for single particle tracking (SPT) applications. Nanoparticles of various diameters can be prepared having narrow size distributions.
- the versatility of the preparative route allows for the incorporation of different fluorescent materials, such as dyes, depending on the intended nanoparticle application.
- Methods for surface functionalization are also provided which enable the conjugation of specific ligands, such as antibodies or proteins, onto the fluorescent nanoparticles to form probes useful for specific SPT experiments.
- the nanoparticle preparative procedure enables the preparation, by in situ systematic nanoparticle size-growth, of fluorescent nanoparticles in the range of, for example, from about 10 to about 500 nm, and from about 25 to about 100 nm, and narrower ranges therein as illustrated herein.
- the fluorescent nanoparticles can be conjugated with a molecule or entity, such as an antibody ligand or linker, to provide a linked- or ligated-fluorescent nanoparticle which can be used to identify, detect, target (i.e. pinpoint or specify with a high level of certainty), monitor, or modify a disease state or condition, such as the presence or absence of particular receptors, metabolic levels of particular receptors, and like components.
- a molecule or entity such as an antibody ligand or linker
- the linked- or ligated-fluorescent nanoparticle can be still further conjugated or associated with, for example, a therapeutic agent and used to, for example, treat a disease state or condition, such as by delivering the therapeutic agent to a diseased site in a highly specific or localized manner and in a relatively high concentration with release of the therapeutic agent in a relatively controlled manner.
- the ligated-fluorescent nanoparticles can be used for directed delivery of a therapeutic agent to a desired location in a variety of systems, such as on, or within, a cell or cell component, or within the body of an organism, such as a human, e.g. across the blood-brain barrier.
- the therapeutic agent can be either or both absorbed into, such as the interstices or pores of the silica shell, or coated onto the silica shell of the fluorescent nanoparticle.
- the therapeutic agent can be associated with the fluorescent core, such as by physical absorption or by bonding interaction.
- the therapeutic agent can also be associated with the ligand of a ligated-fluorescent nanoparticle if desired.
- the ligated-fluorescent nanoparticles of the present invention can be used in a variety of diagnostic and treatment applications, for example, as a pharmaceutical carrier for therapeutic agents, and as a fluorescent marker in, for example, single nucleotide polymorphorism (SNPs) experiments, such as where a DNA sample is stained with a fluorescent marker and gene activity can be detected as a colored glow of the marker when illuminated with a laser.
- SNPs single nucleotide polymorphorism
- the nanoparticles of the invention can be used for passive or covalent coupling of biological material, i.e. an analyte, such as haptens, antigens, antibodies, enzymes or nucleic acids, and used for various types of analyte assays such as immunoassays, nucleic acid (DNA or RNA) assays, affinity purification, cell separation, and other medical, diagnostic, environmental, and industrial applications.
- analyte such as haptens, antigens, antibodies, enzymes or nucleic acids
- analyte assays such as immunoassays, nucleic acid (DNA or RNA) assays, affinity purification, cell separation, and other medical, diagnostic, environmental, and industrial applications.
- the nanoparticles incorporate known fluorescently responsive materials, such as, dyes, pigments, or combinations thereof.
- a typical fluorophore is, for example, a fluorescent aromatic or heteroaromatic compound such as is a pyrene, an anthracene, a naphthalene, an acridine, a stilbene, an indole or benzindole, an oxazole or benzoxazole, a thiazole or benzothiazole, a 4-amino-7-nitrobenz-2-oxa-1,3-diazole (NBD), a cyanine, a carbocyanine, a carbostyryl, a porphyrin, a salicylate, an anthranilate, an azulene, a perylene, a pyridine, a quinoline, a coumarin (including hydroxycoumarins and aminocoumarins and fluorinated derivatives thereof), and like compounds, see for example U.S. Pat. Nos. 5,830,912; 4,774,339; 5,187,288; 5,248,
- the co-reactive organosilane used for forming the fluorescent core has the general formula R (4-n) SiX n , where X can be a hydrolyzable group such as ethoxy, methoxy, or 2-methoxy-ethoxy; R can be a monovalent organic radical of from 1 to 12 carbon atoms which can optionally contains a functional organic group such as mercapto, epoxy, acrylyl, methacrylyl, or amino; and n is an integer of from 0 to 4.
- the co-reactive organosilane used for forming the fluorescent core preferably has n equal to 3.
- a organosilane used for forming the silica shell has n equal to 4.
- the above mentioned organo-silane compounds and like coupling agents can be used: to make the core; to make the silica shell, to modify the surface of the resulting silica shell coated fluorescent core nanoparticles; to attach or couple a ligand to the fluorescent nanoparticles; or to modify the properties of ligand before or after attachment to fluorescent nanoparticle.
- the organo-silane can cause gels, so it may be desirable to employ an alcohol or other known stabilizers.
- a stabilizer can be selected that does not interfere with the polymerization.
- An alcohol, such as methanol, is especially useful and can be employed in amounts, for example, from about twice to about ten times the amount of the organo-silane.
- the nanoparticles can optionally incorporate known magnet or magnetically responsive materials, such as, superparamagnetic, paramagnetic, ferromagnetic metal oxide, and combinations thereof.
- the fluorescent nanoparticles of the present invention comprise a core comprising a fluorescent silane compound; and a silica shell on the core.
- the core of the nanoparticle can comprise, for example, the reaction product of a reactive fluorescent compound and an co-reactive organo-silane compound
- the shell can comprise, for example, the reaction product of a silica forming compound.
- the silica forming compound can produce, for example, one or more layers of silica, such as from 1 to about 20 layers, and depending upon the shell characteristics desired, such as shell layer thickness, the ratio of the shell thickness to the core thickness or diameter, silica shell surface coverage of the core, porosity and carrying capacity of the silica shell, and like considerations.
- the silica shell coating on the core can cover, for example, from about 10 to about 100 percent of the surface area of the core.
- the ligand when ligated on the surface of the fluorescent nanoparticle can cover, for example, from about 0.1 to about 100 percent of the surface area of the core.
- the thickness or diameter of the core to the thickness of the silica shell can be in a ratio of, for example, from about 1:1 to about 1:100.
- the diameter of the fluorescent nanoparticle can be, for example, from about 1 to about 1,000 nanometers.
- the diameter of a ligated-fluorescent nanoparticle can be comparable to or larger than the diameter of the fluorescent nanoparticle depending upon, for example, the size and the amount of the ligand selected.
- the diameter of the core can be, for example, from about 10 to about 300 nanometers, and preferably from about 25 to about 200 nanometers
- the thickness of the silica shell can be, for example, from about 25 to about 800 nanometers, and preferably from about 25 to about 500 nanometers.
- the silica shell is made porous to accommodate for example a therapeutic agent, and as illustrated herein. More preferably the nanoparticles
- the preparative methods for fluorescent nanoparticles of the present invention can yield nanoparticles, for example, of about an order of magnitude smaller in size than those reported by van Blaaderen and Vri, Langmuir, 8, 2921-2925 (1992) (monodisperse silica sphere core particles coated with dyes and further encapsulated with silica).
- the silica shell can be either solid, that is relatively non-porous, or meso-porous, such as semi-porous.
- the silica shell of the fluorescent nanoparticles is preferably dielectric.
- the silica shell of the fluorescent nanoparticles can be adapted to function as a pharmaceutical carrier nanoparticle, that is made to contain, for example, therapeutic agents, such as drugs or proteins for transport and delivery of in vivo or in vitro.
- therapeutic agents such as drugs or proteins for transport and delivery of in vivo or in vitro.
- the fluorescent nanoparticles of the present invention can provide a pharmaceutical carrier system which can be adapted for controlled delivery or release of therapeutic agents.
- a ligand placed on the surface of the fluorescent nanoparticle forms a ligated-fluorescent nanoparticle.
- the placement of the ligand can be accomplished, for example, by attachment with a covalent bond or by physical absorption.
- the ligand on the surface of the fluorescent nanoparticle can be, for example, a biopolymer, a synthetic polymer, an antigen, an antibody, a virus or viral component, a receptor, a hapten, an enzyme, a hormone, a chemical compound, a pathogen, a microorganism or a component thereof, a toxin, a surface modifier, such as a surfactant to alter the surface properties or histocompatability of the nanoparticle or of an analyte when a nanoparticle associates therewith, and combinations thereof.
- Preferred ligands are for example, antibodies, such as monoclonal or polyclonal.
- the present invention also provides a method of preparing analytes which are selectively labeled with ligated-fluorescent nanoparticles by, for example, coupling (e.g. covalently) or any other known method(s) of associating the ligated-fluorescent nanoparticles directly to the analyte (e.g., through ionic bonds, hydrogen bonds, by simple adsorption).
- the resulting selectively labeled analytes having a coupled or associated ligated-fluorescent nanoparticle i.e. ligated-fluorescent nanoparticle-analyte complex
- can be useful as an authentic or reference sample for example, in a treatment method or diagnostic kit.
- An “analyte” of the present invention is the object or the target of the ligated-fluorescent nanoparticle for attachment or association therewith.
- the analyte can be, for example, a microorganism or a component thereof, a virus or viral component, a cell or a component thereof, a biopolymer, a synthetic polymer, a synthetic material, such as a carbon nanotube, an antigen, an antibody, a receptor, a hapten, an enzyme, a hormone, a chemical compound, a pathogen, a toxin, combinations thereof, and like substances.
- Analytes of particular interest are microorganisms and cells, including viruses, prokaryotic and eukaryotic cells, unicellular and multi-cellular organism, e.g., fungi, bacterial, mammalian, etc., and fragments or components thereof.
- Other analytes of particular interest are pathogens.
- Monoclonal or polyclonal antibodies or other selective ligands which are part of the ligated-fluorescent nanoparticle can be linked to the surface of, for example, a pathogen.
- a fluorescent nanoparticle for example, comprising:
- a fluorescent compound such as a reactive fluorescent dye
- an organo-silane compound such as a co-reactive organo-silane compound
- the methods of making the nanoparticles of the present invention can further comprise combining the resulting fluorescent nanoparticle with a ligand such as a biopolymer, a synthetic polymer, an antigen, an antibody, a microorganism, a virus, a receptor, a hapten, an enzyme, a hormone, a chemical compound, a pathogen, a toxin, a surface modifier, for example, to alter the surface or compatibility properties of the nanoparticle, combinations thereof, and like materials.
- a ligand such as a biopolymer, a synthetic polymer, an antigen, an antibody, a microorganism, a virus, a receptor, a hapten, an enzyme, a hormone, a chemical compound, a pathogen, a toxin, a surface modifier, for example, to alter the surface or compatibility properties of the nanoparticle, combinations thereof, and like materials.
- the methods of making the nanoparticles can also further comprise combining the resulting nanoparticle with a therapeutic agent, with or without a ligand attached to the nanoparticle.
- Combining the nanoparticles with a ligand or a therapeutic agent can be accomplished by, for example, coating the ligand or therapeutic agent onto the surface of the nanoparticle.
- combining a nanoparticle with a ligand or a therapeutic agent can be accomplished by, for example, imbibing the ligand or therapeutic agent into the surface of the nanoparticle. Imbibing means to assimilate or to take in or up, for example, where a porous nanoparticle surface is imbibed with a ligand, a therapeutic agent, or both.
- combining a nanoparticle with a ligand or a therapeutic agent can be accomplished by, for example, bonding the ligand or therapeutic agent to the surface of the resulting nanoparticle.
- Bonding includes, for example, known covalent, ionic, hydrogen, hydrophobic, coordination, adhesive, combinations thereof, and like bonding associative methods.
- the nanoparticles of the present invention can provide “molecular labels” which can readily associate with or be bonded to another entity, such as a ligand or a therapeutic agent, and thereafter be readily transported to and selectively attached to a target analyte.
- the selective attachment enables useful analytical detection, diagnostic, or differentiation schemes.
- the size of the ligated-fluorescent nanoparticles for use in embodiments of the present invention can be selected based on the number of nanoparticles to be attached to the analyte and the sensitivity of the optical or spectroscopic schemes selected.
- the present invention provides a method for monitoring movement of a cellular component of a cell comprising:
- the fluorescent loci can correspond to a single ligated-fluorescent nanoparticle bound to a component of the cell.
- the fluorescent loci can correspond to two or more ligated-fluorescent nanoparticles bound to a component of the cell.
- the monitoring method enables an operator to, for example, track the diffusion of one or more fluorescent loci, such as a receptor to which a single ligated-fluorescent nanoparticle is bound, such as, in real-time or with time-lapse techniques.
- the ligated-fluorescent nanoparticle is preferably adapted to selectively associate with a targeted cellular component of the cell, for example, by appropriate selection of the ligand.
- the cellular component can be, for example, a receptor, an antibody, a hapten, an enzyme, a hormone, a biopolymer, an antigen, a microorganism, a virus, a pathogen, a toxin, combinations thereof, and like components.
- the ligated-fluorescent nanoparticle can be a fluorescent nanoparticle conjugated with an antibody.
- the conjugated antibody can be an immunoglobin, such as IgE.
- Suitable means for detecting, recording, measuring, or imaging in embodiments of the present invention include, for example, a flow cytometer, a laser scanning cytometer, a fluorescence micro-plate reader, a fluorescence microscope, a confocal microscope, a bright-field microscope, a high content scanning system, and like devices.
- the recording can be accomplished, for example, with a microscopically adapted camera, such as a video-microscopy camera, a digital camera, a silver halide single exposure camera, and like devices.
- the recording time can be any convenient and useful time period to observe notable events or phenomena, for example, intervals from about 1 microsecond to about 30 days.
- recording for a time period can be, for example, from about 1 second to about 60 minutes, more preferably from about 1 second to about 40 minutes, and even more preferably, from about 1 minute to about 30 minutes.
- the recording time period can often be conveniently shortened or lengthened as desired by changing the ambient temperature of the sample or system.
- the contacting and the recording can be accomplished in vitro using conventional microscopic photography techniques.
- the contacting and the recording can also be accomplished in vivo using, for example, a catheter adapted with a microscopic camera or fiber optic camera.
- “recording” can be synonymous with “detecting,” since for example making a photographic recording of an illuminated specimen can also simultaneously afford detection of fluorescent loci, such as a cell or cell component selectively decorated with a ligated-fluorescent nanoparticle.
- a pharmaceutical carrier comprising the fluorescent nanoparticle of the present invention, and optionally a ligand associated with the fluorescent nanoparticle.
- a pharmaceutical composition comprising a ligated-fluorescent nanoparticle, and a therapeutic agent associated with the fluorescent nanoparticle.
- an imaging agent comprising the ligated-fluorescent nanoparticle, for example, where the ligand of the ligated-fluorescent nanoparticle is on the surface of the nanoparticle.
- the imaging agent can be used in conventional imaging processes, and preferably where, for example, a high fluorescent yield or fluorescent brightness is desired.
- the ligated-fluorescent nanoparticles of the present invention can provide enhanced fluorescent brightness which is, for example, from about 2 to about 10 times greater compared to conventional surface decorated fluorescent particles, such as fluorescent latex particles.
- a method for treating a disease or disorder comprising:
- a ligated-fluorescent nanoparticle which nanoparticle optionally includes a therapeutic agent, wherein the nanoparticle is adapted to selectively associate with a disease producing component of the cell, to form a selectively decorated cell with the ligated-fluorescent nanoparticle;
- the ligated-fluorescent nanoparticle by itself or as part of a decorated cell, when illuminated can fluoresce, heat-up, or both.
- the selection of the reactive fluorescent compound in preparing the fluorescent nanoparticle, and the selection of the ligand can be made empirically depending upon the balance of fluorescent and non-fluorescent (heat dissipation) properties desired. Higher fluorescent properties may be desired where detection is paramount or difficult, for example in dilute systems. Higher non-fluorescent properties may be desired where high heating is needed to, for example, promote liberation of a therapeutic agent or to accomplish selective microscopic-cauterization or microscopic-heat therapy.
- the ligated-fluorescent nanoparticles of the present invention can be used to treat a light- or heat-sensitive diseases or disorders.
- Light therapy is known for activation of medicaments at one or more treatment sites within a living body.
- a particular embodiment of light therapy for example, is photodynamic therapy (PDT) which is a two-step treatment process which has been found to be effective in destroying a wide variety of cancers.
- PDT is performed by first systemically or topically administering a photosensitizer compound or like compounds, and subsequently illuminating a treatment site with light in a waveband, which corresponds to an absorption waveband of the photosensitizer.
- the light energy activates the photosensitizer compound, causing it to destroy the diseased tissue, see for example, U.S. Pat. No. 6,454,789. It is readily evident to one skilled in the art that a fluorescent material, such as the ligated-fluorescent nanoparticles of the present invention, can be used in place of a photosensitizer compound.
- Heat therapy methods are also known, for example, to shrink desired tissues, see U.S. Pat. No. 6,480,746, and for localized treatment of cutaneous warts, see Arch. Dermatol , (July 1992), vol. 128, p. 945-948, and to induce macrophage apoptosis, see U.S. Pat. No. 6,451,044.
- heat therapy can be accomplished within a body or across the skin by means of, for example, irradiation or illumination, such as ultraviolet radiation, infrared radiation, microwave radiation, etc.
- irradiation or illumination such as ultraviolet radiation, infrared radiation, microwave radiation, etc.
- the present invention also provides a method of treatment comprising:
- the amount and the duration of the contacting as well as the amount and the duration of irradiating can depend on, for example, the diagnostic or therapeutic objectives of the treatment method, such as fluorescent detection of a diseased state or condition, the delivery of an effect therapeutic agent, or both.
- the amount and the duration of the contacting and irradiating can also depend on, for example, the relative concentration ligated-fluorescent nanoparticle to the target analyte, and the state of the cell for treatment, such as in vivo or in vitro whole cells, permeabilized cells, homogenized cells, sensitized cells, and like cell preparations.
- the ligated-fluorescent nanoparticles of the present invention also have application in diagnostic kits or assays, such as immunoassays, in improved imaging agents, in purification processes, in drugs, for example, treatment regimes and therapies, such as drug delivery to specifically target and shrink tumors or to identify and separate infectious agents, and like applications.
- the invention provides a kit for use in the detection of an analyte, the kit comprising a ligated-fluorescent nanoparticle, as illustrated herein.
- the invention also provides a kit for detecting and monitoring a cell surface component comprising a ligated-fluorescent nanoparticle for detecting the cell surface component, and optionally a recorder for monitoring the cell surface component.
- kits include packaging of the kit component(s) and instructions for use of the kit.
- the invention also provides an assay method for detecting motion or a change in the location of a cellular component in, or on the surface of, a cell when the cell is treated with a therapeutic agent comprising:
- the motion or movement of the fluorescent loci that is an analyte bound by a ligated-fluorescent nanoparticle, is representative of and can be correlated to the motion or movement of the bound analyte, such as a cellular component.
- the assay method for detecting motion or a change in the location of a cellular component can include, for example, optionally mapping or plotting the recorded positions of ligated-fluorescent nanoparticle.
- the assay method can further comprise determining the difference between the motion or movement of the analyte bound ligated-fluorescent nanoparticle in the presence and absence of the therapeutic agent, for example, in a tandem or control experimental design.
- the nanoparticles materials such as the ligated-fluorescent nanoparticles, and methods of use of the present invention can be used as, for example, labeled assay reagents or reagent products made therefrom, for assaying the presence of a cell component, for example, an enzyme, a receptor, and like cell components.
- a cell component for example, an enzyme, a receptor, and like cell components.
- the location of the cell component can be detected and determined, for example, inside a metabolically active whole cell, in a whole cell lysate, in a permeabilized cell, in a fixed cell, or with a partially purified cell component in a cell-free environment.
- the ligated-fluorescent nanoparticle contains an associated ligand or ligator, such as an antibody, which nanoparticle targets or associates with a specific cell component of interest.
- the ligated-fluorescent nanoparticle also contains a fluorescent label or fluorescent component in the nanoparticle core, which fluorescent component marks or reports on the presence of the target cell component when the nanoparticle and the target cell component are associated and appropriately illuminated or irradiated.
- the invention also provides methods for treating a disease by administration of an effective amount of a linked fluorescent nanoparticles.
- the methods may involve administration of a linked fluorescent nanoparticles as described herein, alone, in a pharmaceutical composition, or in combination with other therapeutic agents or pharmaceutical compositions.
- the invention also provides methods to increase the effectiveness of a therapeutic agent by linking the therapeutic agent to a fluorescent nanoparticle.
- the fluorescent nanoparticles and pharmaceutical compositions thereof may also be used to associate therapeutic agents to increase the therapeutic efficiency of the therapeutic agent.
- Conjugation of a fluorescent nanoparticle with a ligand to form a linked- or ligated-fluorescent nanoparticle is preferably accomplished in vitro where, for example, ligand amounts and conditions can be carefully controlled to produce a product of high purity and high quality.
- modifying the linked fluorescent nanoparticle with a therapeutic agent is preferably accomplished in vitro.
- the present invention provides fluorescent nanoparticles and ligated-fluorescent nanoparticle thereof, and methods for their use in, for example, immunolabeling, sub-cellular recognition procedures, diagnostics, or cell sorting.
- the methods of the present invention provide advantages which overcome shortcomings of known methodologies and as illustrated herein.
- the present invention provides ligated-fluorescent nanoparticles which are highly dispersible, and are useful, for example, in improved methods for chemical and biochemical analysis, such as, the detection of biological analytes including micro-organisms or sub-cellular components.
- the ligated-fluorescent nanoparticle can provide high local concentrations of fluorescent material because of their high target selectively or affinity, and because of their enhanced brightness compared to known fluorescent particles.
- the fluorescent material is present throughout the nanoparticle core and not simply as a surface coating material as in many conventional materials.
- a “therapeutic agent” is a substance that may be used in the diagnosis, cure, mitigation, treatment, or prevention of disease in a human or another animal.
- Such therapeutic agents include substances recognized in the official United States Pharmacopeia, official Homeopathic Pharmacopeia of the United States, official National Formulary, or any supplement thereof.
- Therapeutic agents that can be incorporated with the fluorescent nanoparticles or the ligated-fluorescent nanoparticles of the invention include nucleosides, nucleoside analogs, oligopeptides, polypeptides, COX-2 inhibitors, apoptosis promoters, urinary tract agents, vaginal agents, vasodilators neurodegenerative agents (e.g., Parkinson's disease), obesity agents, ophthalmic agents, osteoporosis agents, para-sympatholytics, para-sympathometics, antianesthetics, prostaglandins, psychotherapeutic agents, respiratory agents, sedatives, hypnotics, skin and mucous membrane agents, anti-bacterials, anti-fungals, antineoplastics, cardioprotective agents, cardiovascular agents, anti-thrombotics, central nervous system stimulants, cholinesterase inhibitors, contraceptives, dopamine receptor agonists, erectile dysfunction agents, fertility agents, gastrointestinal agents, gout agents
- Examples of specific therapeutic agents that can be linked, ligated, or associated with the fluorescent nanoparticles of the invention are flomoxef; fortimicin(s); gentamicin(s); glucosulfone solasulfone; gramicidin S; gramicidin(s); grepafloxacin; guamecycline; hetacillin; isepamicin; josamycin; kanamycin(s); flomoxef; fortimicin(s); gentamicin(s); glucosulfone solasulfone; gramicidin S; gramicidin(s); grepafloxacin; guamecycline; hetacillin; isepamicin; josamycin; kanamycin(s); bacitracin; bambermycin(s); biapenem; brodimoprim; butirosin; capreomycin; carbenicillin; carbomycin; carum
- streptozocin doxorubicin; daunorubicin; plicamycin; idarubicin; mitomycin C; pentostatin; mitoxantrone; cytarabine; fludarabine phosphate; butorphanol; nalbuphine.
- a “pharmaceutical composition” includes a therapeutic agent as exemplified herein in combination with a fluorescent nanoparticle of the invention, for example, where the fluorescent nanoparticle can act as the pharmaceutically acceptable carrier.
- a pharmaceutical composition of the present invention in addition to a therapeutic agent combination with a fluorescent nanoparticle, can be formulated into or with other acceptable carriers or dosage forms, such as, a solid, gelled or liquid diluent or an ingestible capsule.
- the pharmaceutical compositions of the invention, the salts thereof, or a mixture thereof may be administered orally in the form of a suitable pharmaceutical unit dosage form.
- the pharmaceutical compositions of the invention may be prepared in many forms that include tablets, hard or soft gelatin capsules, aqueous solutions, suspensions, and liposomes and other slow-release formulations, such as shaped polymeric gels.
- Oral liquid pharmaceutical compositions may be in the form of, for example, aqueous or oily suspensions, solutions, emulsions, syrups or elixirs, or may be presented as a dry product for constitution with water or other suitable vehicle before use.
- Such liquid pharmaceutical compositions may contain conventional additives such as suspending agents, emulsifying agents, non-aqueous vehicles (which may include edible oils), or preservatives.
- the nanoparticle pharmaceutical compositions of the invention may also be formulated for parenteral administration (e.g., by injection, for example, bolus injection or continuous infusion) and may be presented in unit dosage form in ampules, pre-filled syringes, small volume infusion containers or multi-dose containers with an added preservative.
- the pharmaceutical compositions may take such forms as suspensions, solutions, or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents.
- the pharmaceutical compositions of the invention may be in powder form, obtained by aseptic isolation of sterile solid or by lyophilization from solution, for constitution with a suitable vehicle, e.g., sterile, pyrogen-free water, before use.
- the pharmaceutical compositions may be formulated as ointments, creams or lotions, or as the active ingredient of a transdermal patch.
- Suitable transdermal delivery systems are disclosed, for example, in A. Fisher et al. (U.S. Pat. No. 4,788,603), or R. Bawa et al. (U.S. Pat. Nos. 4,931,279; 4,668,506; and 4,713,224).
- Ointments and creams may, for example, be formulated with an aqueous or oily base with the addition of suitable thickening and/or gelling agents.
- Lotions may be formulated with an aqueous or oily base and will in general also contain one or more emulsifying agents, stabilizing agents, dispersing agents, suspending agents, thickening agents, or coloring agents.
- the pharmaceutical compositions can also be delivered via ionophoresis, e.g., as disclosed in U.S. Pat. Nos. 4,140,122; 4,383,529; or 4,051,842.
- compositions suitable for topical administration in the mouth include unit dosage forms such as lozenges comprising a pharmaceutical composition of the invention in a flavored base, usually sucrose and acadia or tragacanth; pastilles comprising the pharmaceutical composition in an inert base such as gelatin and glycerin or sucrose and acacia; mucoadherent gels, and mouthwashes comprising the pharmaceutical composition in a suitable liquid carrier.
- unit dosage forms such as lozenges comprising a pharmaceutical composition of the invention in a flavored base, usually sucrose and acadia or tragacanth
- pastilles comprising the pharmaceutical composition in an inert base such as gelatin and glycerin or sucrose and acacia
- mucoadherent gels such as mucoadherent gels
- mouthwashes comprising the pharmaceutical composition in a suitable liquid carrier.
- the pharmaceutical compositions can be administered as drops, gels (S. Chrai et al., U.S. Pat. No. 4,255,415), gums (S. L. Lin et al., U.S. Pat. No. 4,136,177) or via a prolonged-release ocular insert (A. S. Michaels, U.S. Pat. No. 3,867,519 and H. M. Haddad et al., U.S. Pat. No. 3,870,791).
- compositions can be adapted to give sustained release of a therapeutic compound employed, e.g., by combination with certain hydrophilic polymer matrices, e.g., comprising natural gels, synthetic polymer gels or mixtures thereof.
- compositions suitable for rectal administration wherein the carrier is a solid are most preferably presented as unit dose suppositories.
- Suitable carriers include cocoa butter and other materials commonly used in the art, and the suppositories may be conveniently formed by admixture of the pharmaceutical composition with the softened or melted carrier(s) followed by chilling and shaping in molds.
- compositions suitable for vaginal administration may be presented as pessaries, tampons, creams, gels, pastes, foams or sprays containing, in addition to the nanoparticles and the therapeutic agent, such carriers are well known in the art.
- the pharmaceutical compositions according to the invention are conveniently delivered from an insufflator, nebulizer or a pressurized pack or other convenient means of delivering an aerosol spray.
- Pressurized packs may comprise a suitable propellant such as dichlorodifluoromethane, trichlorofluoromethane, dichlorotetrafluoroethane, carbon dioxide or other suitable gas.
- the dosage unit may be determined by providing a valve to deliver a metered amount.
- the pharmaceutical compositions of the invention may take the form of a dry powder composition, for example, a powder mix of the pharmaceutical composition and a suitable powder base such as lactose or starch.
- the powder composition may be presented in unit dosage form in, for example, capsules or cartridges or, e.g., gelatin or blister packs from which the powder may be administered with the aid of an inhalator or insufflator.
- the pharmaceutical compositions of the invention may be administered via a liquid spray, such as via a plastic bottle atomizer.
- a liquid spray such as via a plastic bottle atomizer.
- mistometer® isoproterenol inhaler-Wintrop
- Medihaler® isoproterenol inhaler—Riker.
- compositions of the invention may also contain other adjuvants such as flavorings, colorings, anti-microbial agents, or preservatives.
- the amount of the pharmaceutical compositions required for use in treatment will vary not only with the particular salt selected but also with the route of administration, the nature of the condition being treated and the age and condition of the patient and will be ultimately at the discretion of the attendant physician or clinician.
- the amount of a therapeutic agent in combination with ligated-fluorescent nanoparticles of the invention which can be administered and the frequency of administration to a given human patient will depend upon a variety of variables related to the patient's psychological profile and physical condition. For evaluations of these factors, see J. F. Brien et al., Europ. J. Clin. Pharmacol., 14, 133 (1978); and Physicians' Desk Reference, Charles E. Baker, Jr., Pub., Medical Economics Co ., Oradell, N.J. (41st ed., 1987). Generally, the dosages of the therapeutic agent when used in combination with the ligated-fluorescent nanoparticles of the present can be lower than when the therapeutic agent is administered alone or in conventional pharmaceutical dosage forms.
- the high specificity of the ligated-fluorescent nanoparticle for a target site can provide relatively high localized concentrations of a therapeutic agent, or alternatively, a sustained release of a therapeutic agent over an extended time period.
- “Pharmaceutically acceptable salts” of the ligated-fluorescent nanoparticles and the therapeutic agents of the invention can include, but are not limited to, the nontoxic addition salts with organic and inorganic acids, such as the citrates, bicarbonates, malonates, tartrates, gluconates, hydrochlorides, sulfates, phosphates, and like salts. Additionally, in cases where the nanoparticles are sufficiently basic or acidic to form stable acid or base salts, preparation of the nanoparticles as salts may be appropriate.
- acceptable salts are organic acid addition salts formed with acids which form a acceptable anion, for example, tosylate, methanesulfonate, acetate, citrate, malonate, tartarate, succinate, benzoate, ascorbate, ⁇ -ketoglutarate, and ⁇ -glycerophosphate.
- Suitable inorganic salts may also be formed, including hydrochloride, sulfate, nitrate, bicarbonate, and carbonate salts.
- Acceptable salts may be obtained using standard procedures known in the art, for example by reacting a sufficiently basic compound such as an amine with a suitable acid affording a diagnostically acceptable anion.
- Alkali metal e.g., sodium, potassium or lithium
- alkaline earth metal e.g. calcium
- Receptor is any macromolecular compound or composition capable of recognizing (e.g. such as having an enhanced binding affinity to) a particular spatial and polar organization of a molecule, i.e., epitopic or determinant site.
- Illustrative receptors include naturally occurring receptors, e.g., thyroxine binding globulin, antibodies, enzymes, immunoglobulin (Fab) fragments, lectins, various proteins found on the surface of cells (cluster of differentiation or CD molecules), and the like.
- CD molecules denote known and unknown proteins on the surface of eukaryotic cells, for example, CD4 is the molecule that primarily defines helper T lymphocytes.
- “Haptens” can include naturally occurring hormones, naturally occurring drugs, synthetic drugs, pollutants, allergens, affector molecules, growth factors, chemokines, cytokines, lymphokines, amino acids, oligopeptides, chemical intermediates, nucleotides, oligonucleotides, and the like.
- the use for such compounds may be in the detection of drugs of abuse, therapeutic dosage monitoring, health status, donor matching for transplantation purposes, pregnancy (e.g., hCG or alpha-fetoprotein), detection of disease, e.g. endotoxins, cancer antigens, pathogens, and the like.
- Immunoconjugate is a molecule formed by attachment of two different molecules or entities, such as an antibody ligated to a fluorescent nanoparticle, and a second usually biologically active molecular entity (analyte) such as an organic drug molecule, a radionuclide, an enzyme, a toxin, a protein, and like materials that can be conjugated to the antibody to form the conjugate.
- analyte such as an organic drug molecule, a radionuclide, an enzyme, a toxin, a protein, and like materials that can be conjugated to the antibody to form the conjugate.
- the antibody portion directs or guides the attached fluorescent nanoparticle to the target analyte enabling the fluorescent nanoparticle to efficiently produce a biological or marking effect.
- Pathogens of interest can be, for example, viruses such as Herpesviruses, Poxviruses, Togaviruses, Orthomyxoviruses, Paramyxoviruses, Rhabdoviruses, Coronaviruses, Arenaviruses, and Retroviruses.
- viruses such as Herpesviruses, Poxviruses, Togaviruses, Orthomyxoviruses, Paramyxoviruses, Rhabdoviruses, Coronaviruses, Arenaviruses, and Retroviruses.
- Pathogens also include prions and bacteria including but not limited to Escherichia coli, Pseudomonas aeruginosa, Enterobacter cloacae, Staphylococcus aureus, Enterococcus faecalis, Klebsiella pneumoniae, Salmonella typhimurium, Staphylococcus epidermidis, Serratia marcescens, Mycobacterium bovis , methicillin resistant Staphylococcus aureus and Proteus vulgaris .
- a non-exhaustive list of these organisms and associated diseases can be found, for example, in U.S. Pat. No. 5,795,158.
- Assays using nanoparticles of the invention can be carried out in a biological fluid, including separated or unfiltered biological fluids such as urine, cerebrospinal fluid, pleural fluid, synovial fluid, peritoneal fluid, amniotic fluid, gastric fluid, blood, serum, plasma, lymph fluid, interstitial fluid, tissue homogenate, cell extracts, saliva, sputum, stool, physiological secretions, tears, mucus, sweat, milk, semen, vaginal secretions, fluid from ulcers and other surface eruptions, blisters, abscesses, and extracts of tissues including biopsies of normal, malignant, and suspect tissues or any other constituents of the body which may contain the analyte of interest.
- biological fluids such as urine, cerebrospinal fluid, pleural fluid, synovial fluid, peritoneal fluid, amniotic fluid, gastric fluid, blood, serum, plasma, lymph fluid, interstitial fluid, tissue homogenate, cell extracts, saliva, sputum, stool, physiological secret
- test sample can be obtained from an environmental source, such as soil, water, or air; or from an industrial source such as taken from a waste stream, a water source, a supply line, or a production lot.
- Industrial sources also include fermentation media, such as from a biological reactor or food fermentation process such as brewing; or foodstuff, such as meat, game, produce, or dairy products.
- the test sample can be pre-treated prior to use, such as preparing plasma from blood, diluting viscous fluids, and the like; methods of pretreatment can involve filtration, fractionation, distillation, concentration, inactivation of interfering compounds, and addition of reagents, and like steps, or combinations thereof.
- Methods for detecting multiple subpopulations of analytes are known, see for example, U.S. Pat. No. 5,567,627, to Lehnen, and can be adapted to the present invention.
- Methods for detecting a nucleic acid with one or more nanoparticle having oligonucleotides attached thereto including an electrochemical assay with a probe oligonucleotide having attached a redox-active molecule, for example as in U.S. Pat. No. 6,417,340, to Mirkin, et al, can be adapted to the present invention.
- the nanoparticle's fluorescent component should provide a signal related to the presence of analyte in the sample.
- a ligand which includes a fluorescent nanoparticle, it should provide a fluorescent signal related to the presence of analyte in the sample and which signal can be detected as electromagnetic radiation, particularly as radiation in the ultra-violet, visible or infrared range.
- “Optional” or “optionally” mean that the subsequently described event or condition may but need not occur, and that the description includes instances where the event or condition occurs and instances in which it does not.
- “optionally including” means that the named component may be present but need not be present, and the description includes situations where the named component is included and situations where the named component is not included.
- a fluorescent nanoparticle of the invention can be prepared, for example, mixing a reactive fluorescent compound, such as, a reactive fluorescent material, such as a dye (D) and a co-reactive organo-silane compound such as, a known organo-functional silane compound (OS) to form a fluorescent core particle (D-OS); and mixing the resulting core particle (D-OS) with a silica forming compound, such as a (Si(OR) 4 ), to form a silica shell on the core which product is a fluorescent nanoparticle (D-OS)(SiO 2 ).
- a reactive fluorescent compound such as, a reactive fluorescent material, such as a dye (D) and a co-reactive organo-silane compound such as, a known organo-functional silane compound (OS)
- OS organo-functional silane compound
- the molar equivalent ratio of the reactive fluorescent material (D) and the co-reactive organo-silane compound (OS) can be, for example, from about 1:1 to about 1:100.
- the molar equivalent ratio of the fluorescent core particle (D-OS) to the silica forming compound (Si(OR) 4 ) can be, for example, from about 1:1 to about 1:100.
- the nanoparticles of the present invention can be selectively linked to either or both a ligand and analyte by, for example, any known chemical coupling reactions such as carbodiimide coupling.
- Other coupling methods include use of carboxylates, esters, alcohols, carbamides, aldehydes, amines, sulfur oxides, nitrogen oxides, or halides, and other methods known in the art can be used.
- Coupling a fluorescent nanoparticle to a ligand, or a ligated-fluorescent nanoparticle to an analyte, and like combinations can generally be accomplished by applying the procedures and principles disclosed in U.S. Pat. No. 6,268,222, or other procedures known in the art as applied to the present invention.
- linked-fluorescent nanoparticle such as a surface modified fluorescent nanoparticle of the invention
- a surface modified fluorescent nanoparticle of the invention can be prepared, for example, from a preformed fluorescent nanoparticle fluorescent nanoparticle (D-OS)(SiO 2 ) and a ligand, such as a biologically active compound (of formula X 1 -R 1 -X 2 ), and optionally a linker precursor (of formula Z 1 -L-Z 2 ), wherein X 1 , X 2 , Z 1 , and Z 2 can be selected from the values in the table below.
- a linker precursor of formula Z 1 -L-Z 2
- the ligand and the linker precursor can be reacted or polymerized using well known synthetic techniques (e.g. by condensation) to provide a ligated-fluorescent nanoparticle or linked product of the invention.
- a corresponding functional group (Z 1 or Z 2 ) can be selected from the following table, to provide an ester linkage, thioester linkage, or amide linkage in the ligated-fluorescent nanoparticle or linked product.
- suitable protecting groups can be used during the ligation reaction.
- other functional groups present in the biologically active compound, on the nanoparticle surface, or the linker precursor can be partially or completely protected during ligation, and the protecting groups can subsequently be removed to provide the ligated-fluorescent nanoparticles of the invention.
- Suitable protecting groups and methods for their incorporation and removal are well known in the art (see for example Greene, T. W.; Wutz, P. G. M. “Protecting Groups In Organic Synthesis” second edition, 1991, New York, John Wiley & sons, Inc.).
- carboxylic acid when a carboxylic acid is reacted with a hydroxy group, a mercapto group, or an amine group to provide an ester linkage, thioester linkage, or an amide linkage, the carboxylic acid can be activated prior to the reaction, for example, by formation of the corresponding acid chloride.
- Numerous methods for activating carboxylic acids, and for preparing ester linkages, thioester linkages, and amide linkages, are known in the art (see for example, Advanced Organic Chemistry: Reaction Mechanisms and Structure, 4th ed., Jerry March, John Wiley & Sons, pages 419-437 and 1281).
- the silica shell surface of the nanoparticles can be further modified if desired by, for example, surface functionalization reactions using known cross-linking agents to afford surface functional groups and as illustrated herein.
- Crosslinking agents are, for example, divinyl benzene, ethylene glycol dimethacrylate, trimethylol propane trimethacrylate, N,N′-methylene-bis-acrylamide, alkyl ethers, sugars, peptides, DNA fragments, or other known functionally equivalent agents. It is readily evident to one skilled in the art that many cross-linking agents can be used in combination with, or suitable for use as the ligand in forming ligated-fluorescent nanoparticles of present invention. It is readily evident to one skilled in the art in possession of the present invention that cross-linking agents can be used in surface modifying reactions to modify the surface properties of fluorescent nanoparticles, or ligated-fluorescent nanoparticles, and as illustrated herein.
- Amounts of water, ammonia and solvent were measured in graduated cylinders. Fluorescent seed particle synthesis was carried out in 1 L Erlenmeyer flasks and stirred with magnetic TEFLON® coated stir bars at about 600 rpm. De-ionized water and ammonia solution were added to ethanol and stirred. About 2 mL of the reactive dye precursor in either ethanol or THF containing about 425 micromolar APTS, was added to the reaction vessel. The resulting mixture was stirred for about 1 to about 3 hours at room temperature with the reaction vessel covered with aluminum foil to minimize exposure to light to afford a fluorescent seed particle mixture. Tetrahydrofuran (THF) and absolute ethanol (EtOH) were distilled under nitrogen. Organic dyes were brought to room temperature from storage temperatures of about ⁇ 20° C., then placed in a glove box.
- the silica shell coating and growth step was performed in the above mentioned fluorescent seed particle reaction mixture with regular addition of solvent, such as ethanol, methanol, or isopropanol, to prevent drastic changes in solution ionic strength while the silica forming monomer tetraethoxysilane (TEOS) was added. This prevents particle aggregation during synthesis, which can broaden the particle size distribution.
- solvent such as ethanol, methanol, or isopropanol
- FIG. 1A there is illustrated an example of fluorescent brightness properties of the fluorescent nanoparticles (10) of the present invention compared to polystyrene latex beads (20).
- Fluorescence correlation spectroscopy FCS was used to obtain the count rates for the nanoparticles and beads as follows: 100 or 300 nanometer fluorescent nanoparticles had 299.1 kHz per particle; and 300 nanometer polystyrene latex beads had 69.84 kHz per bead. Fluorescence count rates indicated that the fluorescent nanoparticles (10) were about four times brighter than the polystyrene latex beads.
- Photo-physical characterizations were performed to determine: dye content per particle content, fluorescence lifetimes, and action cross-sections.
- the action cross-section metric is essentially the product of quantum yield and absorbance profile. Time resolved fluorescence measurements of fluorescence versus time in nanoseconds (ns) showed that a dye incorporated in a nanoparticle exhibited a longer lifetime than free dyes in solution, indicating that each dye molecule could be about 46% brighter when contained inside the core of the nanoparticles than when free in solution.
- TRITC dyes contained within the core of the nanoparticle had a fluorescence lifetime of about 3.33 ns, compared to TRITC dyes free in solution which had a fluorescence lifetime of about 2.28 ns.
- Alexa Fluor® 488 carboxylic acid 5 mg was dissolved in THF.
- the molar ratio of 3-Aminopropyltriethoxysilane (APTS) to Alexa Flour® 488 carboxylic acid, succinimidyl ester was 100 to 1, with 2 ml of THF per mg of APTS.
- APTS 3-Aminopropyltriethoxysilane
- APTS was added to the reaction vessel and stirred for 12 hours in darkness at room temperature. Due to the minute quantities, the fluorescent dye-core adducts were not isolated from the reaction medium before the silica shell was deposited.
- TEOS was added in small aliquots intermittently, such as 300 microliters in about 10 to 15 minute intervals, and stirred overnight at room temperature in darkness. Molar ratio of de-ionized water to monomer was kept maintained at about at least 6-fold but not more. To better monitor water content in the reaction mixture, 2.0 M ammonia was used as the catalyst source, dissolved in ethanol, methanol or isopropanol, depending on the primary solvent of the synthesis, such as 2.0 M ammonia in ethanol.
- tetraethyl orthosilicate monomer was added intermittently, such as 300 microliters every 10 minutes to grow the siliceous shell.
- the smaller particle size procedure for particles below about 70 nm
- the TEOS monomer was added intermittently.
- the alternative procedure for preparing silica shell coated fluorescent nanoparticles was devised because the size distribution of silica nanoparticles prepared by the known Stöber procedure (J. Colloid and Interface Sci., 26 62-69 (1968)) has a self-sharpening characteristic as particle size increases beyond 70 nm as more monomer is added to the reaction mixture.
- silica nanoparticles smaller than 70 nm generally have a much broader size distribution. Therefore, the first mentioned procedure of Example 3, was modified as described thereafter to obtain nanoparticles with a narrower size distribution than what might be expected for particle sizes in the range of about 10 to about 70 nm.
- Nanoparticle Ligation (coupling) with IgE by Adsorption Silica coated fluorescent nanoparticles of Example 3 were diluted (1: 10-1:20) with phosphate buffered saline (PBS) or Tyrodes buffer at pH 7.
- Immunoglobulin E (IgE) (0.85 mg/mL stock concentration) was adsorbed onto the fluorescent nanoparticles by incubating with IgE for about 3 hours at room temperature to provide, for example, nanoparticle-IgE ratios of from about 1:1 to about 1:4. For nanoparticles greater than about 50 nm, unbound IgE was removed by centrifugation.
- the unbound IgE was removed by adding 100 microliters (in a total volume of 500 microliters nanoparticles-IgE) of 0.25 wt % latex particles of size 1:2 microns. Unbound IgE stuck to the large latex particles which then settled out of suspension if undisturbed in several hours, for example, with overnight incubation at 4° C. The residual pellet mass was confirmed to be primarily latex particles bound with IgE and discarded. The resulting supernatant containing the IgE coupled-nanoparticle (IgE ligated-fluorescent nanoparticle) was carefully separated and placed in a vial.
- the resulting IgE coupled-nanoparticle samples (i.e. IgE adsorbed onto nanoparticles) were stored at 4° C. for cell binding experiments.
- the IgE coupled nanoparticles were diluted in Tyrodes-BSA before cell binding. The dilution was according to the IgE coupled-nanoparticle number density desired per cell.
- Nanoparticle Surface Functionalization The surface of the nanoparticles can be further chemically modified to improve the versatility and stability of the nanoparticles, for example, introducing carboxylic acid groups or like chemical functional groups.
- Introducing functional groups, such as carboxylic acid groups, to the surface of silica coated nanoparticles can provide attachment points to enable covalent attachment of bio-molecules, for example, proteins and antibodies, to the surface of the nanoparticles.
- Surface functional groups, especially ionizable groups provide other desirable properties to the nanoparticles, such as charge stabilization in buffered media. Charged carboxylate surface groups can maintain the nanoparticles as single particle colloidal dispersions which avoid or minimize nanoparticle agglomeration.
- Nanoparticle surface functionalization procedures are known and include, for example, carbodiimide modification and as illustrated herein.
- APDMES 3-aminopropyldimethylethoxysilane
- MSA Methyl N-succinimidyl adipate
- Nanoparticle surface functionalization was accomplished as follows. A 20 mL suspension of nanoparticles with a diameter of 25 nm, as described in Table I, was used. The nanoparticle concentration was 4.33 mg/mL as determined by fluorescence correlation spectroscopy, and by drying and weighing known volumes of the suspension. Other nanoparticle sizes and concentrations can be surface modified according to this procedure when appropriately adapted in view of differences in particle size, surface area, concentration, and like considerations.
- Fluorescent nanoparticles having a silica shell were cleaned by dialysis after their initial preparation described above.
- concentration of the silica shelled nanoparticle suspension was determined by drying aliquots of the nanoparticle suspension in a vacuum oven and weighing, or by fluorescence correlation spectroscopy. Assuming a density of 2 g/mL and knowing the size of the nanoparticles, the number of particles per mL of suspension was calculated to be about 1.78 ⁇ 10 16 .
- the density of silanol groups can be estimated as about 1.4 —OH groups per square nanometer according to literature values (e.g. R.
- APDMES The Chemistry of Silica ), and hence there is about 7.78 ⁇ 10 ⁇ 5 moles of —OH groups available for reaction with APDMES for 100% amine coverage.
- APDMES was added in a 2 molar excess with about 5 mg of ammonium fluoride as a catalyst, and allowed to react for about 12 hours at ambient temperature and shielded from ambient light. Excess unreacted APDMES was dialyzed away in phosphate buffer at pH 7 over 12 hours. The resulting aminated nanoparticles suspended in phosphate buffer pH 7 were then reacted with 2-molar excess of MSA dissolved in dimethyl sulfoxide at ambient temperature for about 2 to 6 hours.
- the nanoparticle products at each functionalization step described above were characterized by Fourier Transform Infra-Red (FTIR) spectroscopy.
- FTIR Fourier Transform Infra-Red
- the vibration bands of the mono-substituted amide groups at 1500-1600 cm ⁇ 1 indicated the linkage between amine groups of the silane compound APDMES and the succinimidyl ester groups of the MSA compound, as well as the carboxylic acid signature at 1700 cm ⁇ 1 .
- the observed spectroscopic changes compared to the starting nanoparticles were indicative of successful surface functionalization reactions.
- Nanoparticle Ligation (coupling) by Covalent Conjugation Other surface functionalization examples can be accomplished by covalent conjugation of fluorescent nanoparticles with various biomolecules as described above.
- Confocal microscope images showed, for example, the top surface of the cells decorated with the red nanoparticles, and the antibody IgE is labeled with a green fluorophore to show co-localization of the antibody with the nanoparticles.
- Another set of images, taken from the equitorial view of the cells showed an alternative confocal view where diffusive motions of the antibody receptors marked by the fluorescent nanoparticles can be monitored via SPT. Appropriate controls were performed to check for non-specific binding as follows. Control cells were pre-sensitized overnight using IgE, so that all the receptor sites were blocked.
- FIGS. 2A and 2B there is illustrated an example of high biomolecular binding specificity of, for example, 100 or 300 nanometer diameter fluorescent nanoparticles of the present invention (FIG. 2A) compared to polystyrene latex beads (FIG. 2B) as measured by cell counting statistics.
- rat basophilic leukemia (RBL) mast cells coupled with IgE coupled-nanoparticles and cells coupled with polystyrene latex beads are comparable whereas less desirable or undesired non-specific interactions (represented by the right-side of the bar pairs), such as “sticking” interactions, were greater for polystyrene latex beads and cells compared to IgE coupled-nanoparticles and cells.
- RBL basophilic leukemia
- IgE M refers to mouse IgE which will bind specifically to IgE receptors of rat basophilic leukemia (RBL) mast cells;
- control: IgE H refers to human IgE which will not bind to IgE receptors of the aforementioned rat cells
- control: particles alone refers to the respective binding of IgE coupled-fluorescent nanoparticles with cells, and binding of polystyrene latex beads with cells.
- SPT Single fluorescent nanoparticle Tracking
- Single particle tracking evaluates lateral diffusion of individual components on cell surfaces. This method is based on direct observation of bright fluorescent probes that are specifically conjugated to macromolecules of interest. Tracking of individual components reveals a variety of interesting and useful behaviors including confinement to a small region or movement along a track. This information enables an understanding of how components interact within cells, on cell membranes and like structures or components. However, the method is highly dependent on the quality of the probes. A significant shortcoming of the method has been nonspecific binding of the particles to cells.
- the fluorescent nanoparticles and the ligated-fluorescent nanoparticles of the present invention provide enhanced brightness and high conjugation specificity to a component of interest. The ligated-fluorescent nanoparticles were demonstrated to be biocompatible and minimize non-specific binding interactions.
- the HDTB serves as a templating agent around which the silica shell's formation is ordered and perturbed to enable pore formation by subsequent removal of the HDTB associated with the surface. Subsequent cleaning or removal of the HDTB from the nanoparticle provides fluorescent nanoparticles having a mesoporous silica shell.
- a vacuum distillation was carried out to exchange ethanol solvent with dimethyl sulfoxide (DMSO). Final concentrations were determined by drying an aliquot of the suspension and weighing the solid mass. The resulting meso-porous nanoparticles in DMSO were suitable for loading therapeutic agent as illustrated below.
- DMSO dimethyl sulfoxide
- Sonication was done at 15% power with a pulse rate of 1.0 second on and 1.0 second off for 30 seconds of pulsing or until the solution appeared homogenous. The centrifugation was done at 25° C. at 3,000 rpm for 5 minutes. Therapeutic agent loaded particles were stored at room temperature.
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US10/306,614 US20040101822A1 (en) | 2002-11-26 | 2002-11-26 | Fluorescent silica-based nanoparticles |
KR1020057009511A KR20050103186A (ko) | 2002-11-26 | 2003-11-26 | 형광의 실리카-기초 나노입자들 |
CNB2003801092528A CN100443295C (zh) | 2002-11-26 | 2003-11-26 | 基于二氧化硅的荧光纳米颗粒 |
ES03815995T ES2709398T3 (es) | 2002-11-26 | 2003-11-26 | Nanopartículas fluorescentes a base de sílice |
AU2003303290A AU2003303290A1 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
ES11156074T ES2753144T3 (es) | 2002-11-26 | 2003-11-26 | Nanopartículas fluorescentes a base de sílice |
JP2004568576A JP2006514708A (ja) | 2002-11-26 | 2003-11-26 | シリカ系蛍光ナノ粒子 |
EP03815995.0A EP1572445B1 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
PCT/US2003/037793 WO2004063387A2 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
EP03815190.8A EP1604031B1 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
JP2004566499A JP4965804B2 (ja) | 2002-11-26 | 2003-11-26 | シリカ系の蛍光ナノ粒子 |
CNA200380109241XA CN1742094A (zh) | 2002-11-26 | 2003-11-26 | 基于二氧化硅的荧光纳米颗粒 |
KR1020057009530A KR20050109455A (ko) | 2002-11-26 | 2003-11-26 | 형광 실리카-기초 나노입자 |
EP20110162895 EP2364840A1 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
CNA200810170588XA CN101387639A (zh) | 2002-11-26 | 2003-11-26 | 基于二氧化硅的荧光纳米颗粒 |
PCT/US2003/037963 WO2004074504A2 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
EP11156074.4A EP2369342B1 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
AU2003303309A AU2003303309B2 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
US10/536,569 US8298677B2 (en) | 2002-11-26 | 2003-11-26 | Fluorescent silica-based nanoparticles |
US12/579,302 US8409876B2 (en) | 2002-11-26 | 2009-10-14 | Fluorescent silica-based nanoparticles |
JP2009285153A JP2010070768A (ja) | 2002-11-26 | 2009-12-16 | シリカ系蛍光ナノ粒子 |
JP2010262238A JP2011052228A (ja) | 2002-11-26 | 2010-11-25 | シリカ系蛍光ナノ粒子 |
JP2014023357A JP2014133893A (ja) | 2002-11-26 | 2014-02-10 | シリカ系蛍光ナノ粒子 |
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US10/306,614 US20040101822A1 (en) | 2002-11-26 | 2002-11-26 | Fluorescent silica-based nanoparticles |
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US11/536,569 Continuation US20070026044A1 (en) | 2002-05-06 | 2006-09-28 | Use of VEGF For Treating Bone Defects |
US12/579,302 Continuation US8409876B2 (en) | 2002-11-26 | 2009-10-14 | Fluorescent silica-based nanoparticles |
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US12/579,302 Expired - Fee Related US8409876B2 (en) | 2002-11-26 | 2009-10-14 | Fluorescent silica-based nanoparticles |
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US12/579,302 Expired - Fee Related US8409876B2 (en) | 2002-11-26 | 2009-10-14 | Fluorescent silica-based nanoparticles |
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US (3) | US20040101822A1 (ja) |
EP (4) | EP1572445B1 (ja) |
JP (5) | JP4965804B2 (ja) |
KR (2) | KR20050103186A (ja) |
CN (3) | CN101387639A (ja) |
AU (2) | AU2003303290A1 (ja) |
ES (2) | ES2753144T3 (ja) |
WO (2) | WO2004074504A2 (ja) |
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