WO2010014349A1 - Immunoassay for detection of neurotoxic amino acid associated with neurological disorders - Google Patents
Immunoassay for detection of neurotoxic amino acid associated with neurological disorders Download PDFInfo
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- WO2010014349A1 WO2010014349A1 PCT/US2009/049581 US2009049581W WO2010014349A1 WO 2010014349 A1 WO2010014349 A1 WO 2010014349A1 US 2009049581 W US2009049581 W US 2009049581W WO 2010014349 A1 WO2010014349 A1 WO 2010014349A1
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- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/68—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids
- G01N33/6803—General methods of protein analysis not limited to specific proteins or families of proteins
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- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/44—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material not provided for elsewhere, e.g. haptens, metals, DNA, RNA, amino acids
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/30—Immunoglobulins specific features characterized by aspects of specificity or valency
- C07K2317/33—Crossreactivity, e.g. for species or epitope, or lack of said crossreactivity
Definitions
- the present invention relates to antibodies that bind to ⁇ -N-methylamino-L-alanine (BMAA), and immunoassays and kits for screening samples to detect the presence of BMAA in the samples.
- BMAA ⁇ -N-methylamino-L-alanine
- BMAA non-protein amino acid ⁇ -N-methylamino-L-alanine
- BMAA can be found in flour made from cycad seeds, BMAA has been considered a candidate neurotoxin associated with a unique neurological disease identified decades ago among the Chamorro people of Guam, known as amyotrophic lateral sclerosis-Parkinsonism dementia complex of Guam (ALS-PDC) because of the combination of symptoms having clinical similarity to features of amyotrophic lateral sclerosis (ALS), Parkinsonism, and dementias, where occurrence of the disease has been linked with a diet that includes BMAA-containing cycad flour, ⁇ inter alia, Spencer et al (1987) Science 237:517-522; Kisby et al (1992) N eur ode generation 1:73-82).
- ALS-PDC amyotrophic lateral sclerosis-Parkinsonism dementia complex of Guam
- Biomagnification of BMAA in food chains has been demonstrated, e.g. in Guam, where BMAA produced by cyanobacterial symbionts in cycad roots is taken up by the cycad host and accumulated in structures such as the seed sarcotesta and seed gametophyte that are eaten by flying foxes (bats) or people that further accumulate BMAA in their tissues, with a dramatic biomagnification seen when flying foxes (bats) with high accumulated levels of BMAA are eaten by people, (inter alia, Bannack et al (2003) Neurology 61387-389; Cox et al (2002) Neurology 58: 956-959; Cox et al.
- BMAA has since been detected in tissues of subjects who have not eaten cycads or flying foxes, where some subjects with detectable levels of BMAA had clinical diagnoses (based on symptoms) or confirmed diagnoses (e.g., based on autopsy of brain tissue) of neurological disorders such as Alzheimer's disease, ALS, and progressive supranuclear palsy (PSP), while other subjects with detectable levels of BMAA were asymptomatic for neurological disorders.
- the present invention provides an immunoassay for screening a sample to detect the presence of ⁇ -N-methylamino-L-alanine (BMAA).
- BMAA ⁇ -N-methylamino-L-alanine
- the present invention provides an immunoassay wherein free BMAA is detected, or wherein protein-bound BMAA is detected, or wherein both free BMAA and protein-bound BMAA is detected.
- the immunoassay as provided herein can be an enzyme-linked immunosorbent assay (ELISA), where the ELISA can be, but is not limited to, an antibody capture assay, an indirect competitive ELISA, or a direct ELISA.
- the immunoassay provided herein may be an immunoblot assay.
- the present invention provides an immunoassay for screening a sample to detect the presence of BMAA, wherein the immunoassay includes an antibody that binds to BMAA.
- the present invention provides an immunoassay for screening a sample to detect the presence of BMAA, that includes an antibody that binds to BMAA and does not substantially bind to an amino acid selected from the group consisting of L-alanine, L-glutamine, L-tyrosine, glycyl-glycine, L-glycine, L-leucine, L-phenylalanine, gamma-aminobutyric acid (GABA), L-glutamic acid, and L-aspartic acid.
- GABA gamma-aminobutyric acid
- the present invention provides an immunoassay that includes an antibody that binds to BMAA, wherein the antibody can be a polyclonal antibody, a monoclonal antibody, or an antibody fragment.
- the present invention provides an immunoassay that includes an antibody that binds to BMAA, wherein the antibody can be detectably labelled, wherein the label can be, but is not limited to, a radiolabel, a fluorescent moiety, a luminescent moiety, a chemiluminescent moiety, a colloidal gold label, a dye moiety, a paramagnetic compound, a detectable enzyme, biotin, avidin, or streptavidin.
- the present invention provides an immunoassay that includes an antibody that binds to BMAA, wherein the antibody can be an antibody that is not detectably labelled, and wherein the immunoassay further includes a detectably labelled secondary antibody that binds to the unlabelled antibody that binds to BMAA, wherein the label can be, but is not limited to, a radiolabel, a fluorescent moiety, a luminescent moiety, a chemiluminescent moiety, a colloidal gold label, a dye moiety, a detectable enzyme, a detectable ligand, biotin, avidin, or streptavidin.
- the secondary antibody can be labelled with horseradish peroxidase (HRP).
- the present invention provides an immunoassay for screening a sample to detect the presence of BMAA, wherein the immunoassay further includes an amplification step.
- the present invention provides methods for screening a sample to detect the presence of BMAA using an immunoassay as provided herein, by contacting the sample with an antibody that binds to BMAA, and detecting the antibody.
- the present invention provides methods for screening a tissue sample from a subject to detect the presence of BMAA in the tissue sample, using an immunoassay as provided herein, wherein the presence of a detectable amount of BMAA in the sample indicates exposure of the subject to an environmental source of BMAA.
- the present invention provides methods for screening a sample to detect the presence of BMAA in tissue samples including, but not limited to neurological tissue or non-neurological tissue, where neurological tissue can be keratinous tissue such as hair, skin, nail, claw, or hoof.
- the present invention provides methods for screening a sample to detect the presence of BMAA using an immunoassay as provided herein, by detecting protein-bound BMAA on an immunoblot of the tissue sample.
- the present invention provides methods for screening an environmental sample to detect the presence of BMAA in the environmental sample, using an immunoassay as provided herein, wherein the environmental sample can be, but is not limited to, a water sample or a sample from a food item.
- the present invention provides methods for screening an environmental sample to detect the presence of BMAA in the environmental sample, using an immunoassay as provided herein, wherein the methods can further include screening the sample to detect cyanobacterial material in the sample.
- the present invention provides methods for screening an environmental sample by detecting the presence of protein-bound BMAA on an immunoblot of the environmental sample, and further detecting cyanobacterial proteins on the immunoblot.
- the present invention provides an antibody that binds to BMAA.
- the present invention provides an antibody that binds to BMAA and does not substantially bind to an amino acid selected from the group consisting of L-alanine, L-glutamine, L-tyrosine, glycyl- glycine, L-glycine, L-leucine, L-phenylalanine, gamma-aminobutyric acid (GABA), L- glutamic acid, or L-aspartic acid.
- GABA gamma-aminobutyric acid
- the present invention provides an antibody that binds to BMAA, wherein the antibody can binds to free BMAA, or wherein the antibody binds to protein-bound BMAA, or wherein the antibody binds to both free BMAA and protein-bound BMAA.
- the present invention provides an antibody that binds to BMAA, wherein the antibody binds to the L-BMAA isomer and does not substantially bind the D-isomer of BMAA.
- An antibody that binds to BMAA as provided herein can be a a polyclonal antibody, or a monoclonal antibody, or an antibody fragment.
- An antibody that binds to BMAA as provided herein can be detectably labelled.
- An antibody that binds to BMAA as provided herein can be labelled for use in in vivo diagnostic imaging.
- kits for screening a sample to detect the presence of BMAA where the kit includes a carrier means (carrier) that is compartmentalized to receive one or more container means (containers), and the kit includes at least one container means with an antibody that binds to BMAA.
- a carrier means carrier
- container means containers
- an antibody that binds to BMAA an antibody that binds to BMAA
- kits can further include at least one container means
- kits as provided herein an antibody that binds to BMAA can be unlabelled, and can further include at least one container means with a labelled secondary antibody that binds to the unlabelled antibody, and can further include a container means with means for detecting the labelled secondary antibody bound to the unlabelled antibody bound to the sample.
- Kits as provided herein can include a container means with a control sample containing a known amount of BMAA.
- Kits as provided herein can include means for preparing the sample to detect the presence of BMAA, where such means may include, but are not limited to, means for mechanically disrupting the sample and means for chemically disrupting the sample.
- kits for screening a tissue sample from a subject to detect the presence of BMAA where the tissue sample can be, but is not limited to, a keratinous tissue sample such as hair or skin.
- the present invention provides kits for screening an environmental sample to detect the presence of BMAA, wherein the environmental sample can be, but is not limited to, a water sample or a sample from a food item. Kits as provided herein can contain means for screening a plurality of sample types.
- Figure 1 shows an outline of the conjugation and immunization procedures used for production and testing of antibodies against BMAA, where KLH is keyhole limpet hemocyanin, BSA is bovine serum albumin, GLU is glutaraldehyde, and EDC is carbodiimide.
- Figure 2 shows results from antibody capture immunoassays to measure reactivity of antisera raised against BMAA conjugates (EDCl-I, EDC2-1, GIu 1, Glu2, Glu3, Glu4) and null serum (NSl, NS2), with BMAA at a coating concentration of 20 ⁇ g/ml on MAXISORPTM (Figure 3A), MEDISORPTM ( Figure 3B), and MULTISORPTM ( Figure 3C) plates in the presence of buffers having different pH values as shown.
- BMAA conjugates EDCl-I, EDC2-1, GIu 1, Glu2, Glu3, Glu4
- NSl, NS2 null serum
- Figure 3 shows results from antibody capture immunoassays to measure the reactivity of antisera raised against the BMAA conjugate KLH-GLU-BMAA (anti- KGB, bleed 3) at 1/1000 dilution (Panel A) and 1/2000 dilution (Panel B) with glutaraldehyde-linked BMAA, L-alanine (L-AIa), L-glutamine (L-GIn), L-tyrosine (L-Tyr), glycyl-glycine (gly), L- glycine (L-GIy), L-leucine (L-leu), L-phenylalanine (L-Phe), gamma-aminobutyric acid (GABA), L-glutamic acid (L-GIu), and L-aspartic acid (L-Asp), at coating concentrations, from left to right, 0.2 mM, 0.5 mM, 1 mM and 10 mM.
- Figure 4 shows an image of an immunoblot of BSA-BMAA conjugates probed with antisera raised against KLH-BMAA conjugates, where Lane 1 of each blot contains BSA-
- BGB BSA-EDC-BMAA
- BEB BSA-EDC-BMAA
- Lane 3 of each blot contains native BSA
- Blot A is probed with anti-KGB antiserum at 1/100 dilution
- Blot B is probed with anti-KGB antiserum at 1/200 dilution
- Blot C is probed with anti-KGB antiserum at 1/500 dilution
- Blot D is probed with anti-KEB antiserum at 1/100 dilution
- Blot E is probed with anti-KEB antiserum at 1/200 dilution
- Blot F is probed with anti-KEB antiserum at 1/500 dilution.
- Figure 5 shows an image of an immunoblot of total protein extracts of Cylindrospermopsis raciborskii strain CR3 ("CR3 protein") probed with antisera raised against BMAA conjugates, where Lane 1 of each blot contains BSA, Lane 2 of each blot contains CR3 protein, and Lane 3 of each blot contains CR3 protein pre-incubated with BMAA, and where Blot A was probed with anti-KGB antiserum at 1/100 dilution, Blot B was probed with anti-KGB antiserum at 1/200 dilution, Blot C was probed with anti-KGB antiserum at 1/500 dilution, Blot D was probed with anti-KEB antiserum at 1/100 dilution, Blot E was probed with anti-KEB antiserum at 1/200 dilution, and Blot F was probed with anti-KEB antiserum at 1/500 dilution.
- CR3 protein Cylindros
- Figure 6 shows an image of an immunoblot of total protein extracts of C. raciborskii strain CR3 ("CR3 protein"), and side-by-side BSA controls, probed with antisera raised against BMAA conjugates, where odd-numbered lanes contain native BSA and even- numbered lanes contain CR3 total protein, where Lanes 3-10 were probed with anti-KGB antiserum, Lanes 12-10 were probed with anti-KEB antiserum, and Lanes 2 and 12 were probed with null serum as follows: Lane 2, CR3 protein probed with null serum at 1/200 dilution; Lane 3, BSA probed with anti-KGB antiserum at 1/200 dilution; Lane 4, CR3 protein probed with anti-KGB antiserum at 1/200 dilution; Lane 5, BSA probed with anti- KGB antiserum at 1/500 dilution; Lane 6, CR3 protein probed with anti-KGB antiserum at 1/500 dilution; Lane 7, B
- Figure 7 shows an image of an immunoblot of total protein extracts (20 ⁇ g protein per lane) of pure strains of Cylindrospermopsis raciborskii strain CR3 ("CR3 protein"), E. coli strain HK29 (“E. coli HK 29 protein”), Chlorella vulgaris (“Chlorella protein”) and Tetraselmis sp. (“Tetraselmis protein”) probed with antisera raised against BMAA conjugates, where Lanes 1 and 11 contain molecular weight markers (100-1000Da), Lanes 2, 6, 12, and 16 contain CR3 protein, Lanes 3, 7, 13,and 17 contain E.
- CR3 protein Cylindrospermopsis raciborskii strain CR3
- E. coli strain HK29 E. coli HK 29 protein
- Chlorella vulgaris Chlorella protein
- Tetraselmis protein Tetraselmis protein
- Lanes 4, 8, 14, and 18 contain Chlorella protein, and Lanes 5, 9, 15, and 19 contain Tetraselmis protein, and Lanes 2-5 were probed with null serum at 1/500 dilution, Lanes 6-9 were probed with anti- KEB antiserum at 1/500 dilution, Lanes 12-15 were probed with anti-KEB antisera at 1/1000 dilution, and Lanes 16-19 were probed with anti-KGB antisera at 1/500 dilution.
- the present disclosure provides immunoassays, antibodies, and kits for screening samples to detect neurotoxic amino acids associated with neurological disorders.
- the present invention provides immunoassays, antibodies, and kits to detect the presence of BMAA in a sample, comprising contacting the sample with an antibody that binds to BMAA, and detecting the antibody bound to the sample.
- Immunoassays, antibodies, and kits are provided to screen samples to detect ⁇ -N-methylamino-L-alanine (BMAA) in the samples.
- Immunoassays, antibodies, and kits are provided to screen a subject to detect exposure to an environmental source of BMAA.
- Immunoassays, antibodies, and kits are provided to screen environmental samples to identify environmental sources of BMAA.
- the present invention provides immunoassays, antibodies, and kits to detect the presence of BMAA in a tissue sample from a subject by contacting the tissue sample with an antibody that binds to BMAA, and detecting the antibody bound to the tissue sample.
- immunoassays, antibodies, and kits are provided for screening a subject for exposure to an environmental source of BMAA using an immunoassay of the invention to detect BMAA in a tissue sample from the subject, wherein the presence of a detectable amount of BMAA in the tissue sample indicates the subject has been exposed to an environmental source of BMAA, such that BMAA has accumulated to a detectable level in the tissue being screened.
- immunoassays, antibodies, and kits are provided for screening a subject for exposure to a neurotoxic amino acid associated with neurological disorders, in particular BMAA, using an immunoassay of the invention to detect BMAA in a tissue sample from the subject, wherein the presence of a detectable amount of BMAA in the tissue sample indicates the subject has been exposed to a neurotoxic amino acid associated with neurological disorders.
- immunoassays, antibodies, and kits are provided for screening a subject having or at risk of having a neurological disease, using an immunoassay of the invention to detect BMAA in a tissue sample from the subject.
- the present invention provides immunoassays, antibodies, and kits to determine the presence of BMAA in an environmental sample by contacting the environmental sample with an antibody that binds to BMAA, and detecting the antibody bound to the environmental sample, hi accordance with one aspect of the invention, immunoassays, antibodies, and kits are provided for screening for an environmental source of BMAA using an immunoassay of the invention to detect BMAA in the environmental sample, wherein the presence of a detectable amount of BMAA in an environmental sample indicates the sample is an environmental source of BMAA. In accordance with another aspect, immunoassays, antibodies, and kits are provided for screening environmental samples for neurotoxic amino acids associated with neurological disorders, in particular BMAA.
- the present invention provides an immunoassay for detecting the presence of BMAA in environmental samples that may be, or have been, ingested by a subject.
- the environmental samples may include, but are not limited to, water samples or food items.
- antibody or “antibodies” is understood to originally refer to a polypeptide substantially encoded by an immunoglobulin gene or fragments thereof, that specifically binds and recognizes an antigen target
- the term “antibody” or “antibodies” as used herein encompasses immunoglobulins, immunoglubulin fragments, intact antibodies, polyclonal antibodies, monoclonal antibodies, sera reactive against an antigen (i.e., antisera raised against an antigen), antibodies produced by expression of endogenous genetic sequences, recombinant antibodies, humanized antibodies, chimeric antibodies, synthetic antibodies (synthesized de novo), multivalent antibodies, single chain antibodies, antibody fragments, antibody subsequences, any antibody portion that retains capacity to bind antigen, monovalent Fab fragments, bivalent F(ab')2 fragments, Fd fragments, dAb fragments, Fv fragments (variable fragments), single chain Fv fragments (scFvs), isolated complementarity determining regions (C
- BMAA detectable level or amount of BMAA in a sample
- determining BMAA levels or determining BMAA levels or a similar phrase, is understood to encompass determining or quantifying the level or amount of BMAA in a sample.
- immunoassays are provided that only confirm the presence or absence of a detectable level of BMAA is present in the sample.
- immunoassays are provided that provide means for determining or quantifying the level or amount of BMAA in a sample or sample fraction. In other non-limiting embodiments, immunoassays are provided that permit analysis and comparison of multiple samples, e.g. to determine whether the level of BMAA in one sample is elevated or decreased in comparison with the levels detected in other samples.
- Screening or “screening” or a similar phrase as used herein includes, but is not limited to screening to detect the presence of neurotoxic amino acids associated with neurological disorders and screening to determine the level or amount of neurotoxic amino acid, and encompasses screening a tissue sample from a subject to determine actual or potential exposure of a subject to neurotoxic amino acids associated with neurological disorders, in particular BMAA, and screening to identify environmental samples containing neurotoxic amino acids associated with neurological disorders, in particular BMAA.
- Binding specificity refers to the substantial recognition of, and substantial binding to, a first molecule for a second molecule.
- the invention provides antiserum raised against BMAA conjugated to carrier proteins (anti-BMAA antiserum) having the capacity for substantial recognition of, and substantial binding to, BMAA, i.e., anti-BMAA antiserum having binding specificity for, and specific binding to, BMAA.
- the present invention provides antibodies having binding specificity for and specific binding to BMAA, wherein an antibody of the present invention includes but is not limited to, a polyclonal antibody, a monoclonal antibody, or an antibody fragment, e.g., a Fv, single chain
- substantially binding refers to an amount of specific binding or recognizing or reactivity between molecules in an assay mixture under particular assay conditions.
- substantial binding relates to the difference between an antibody's capability of binding or recognizing BMAA (target molecules), and the antibody's lack of capability of binding one or more different molecules, e.g., amino acids that are structurally similar to BMAA (non-target molecules), such that the difference is sufficient to allow a meaningful assay for detecting BMAA to be conducted under a particular set of assay conditions.
- Assay conditions that may affect binding or reactivity between molecules include, but are not limited to, the relative concentrations of the target and non-target molecules, and the time and temperature of an incubation.
- substantial binding relates to the difference between an antibody's reactivity with BMAA, and the antibody's lack of reactivity with one or more different molecules, e.g., amino acids that are structurally similar to BMAA, such that the difference is sufficient to allow a meaningful assay for detecting BMAA to be conducted under a particular set of assay conditions.
- does not substantially bind or “does not substantially cross-react” as used herein, generally refers to an amount of binding or recognizing between molecules in an assay mixture under particular assay conditions wherein an antibody capable of binding or recognizing BMAA is substantially incapable of binding or recognizing another molecule such as a structurally similar amino acid, i.e., an antibody capable of binding or recognizing BMAA is substantially incapable of cross-reacting with other molecules such as structurally similar amino acids.
- An antibody having reactivity with BMAA may have a binding capacity or cross-reactivity with structurally similar amino acids that is less than 25%, preferably less than 10%, more preferably less than 5% of the reactivity exhibited toward BMAA under a particular set of assay conditions, which includes the relative concentration and incubation of the molecules.
- An antibody having reactivity with BMAA that "does not substantially bind" structurally similar amino acids may show detectable binding to structurally similar amino acids, or may not show detectable binding to structurally similar amino acids under a particular set of assay conditions.
- a subject may be any organism suitable for practicing the methods of the present invention.
- a subject is a mammal, more particularly a primate, even more particularly a human.
- a subject is an experimental animal that is exposed to a neurotoxic amino acid or neurotoxic derivative thereof associated with neurological disorders.
- Such experimental animals include, but are not limited to, a mouse, rabbit, rat, bat, pig, sheep, cow, monkey, ape, or other animal suitable for research on neurological disorders.
- methods of the present invention are carried out using an experimental animal for which an animal model of one or more neurological diseases exists.
- methods of the present invention are carried out using an experimental animal as part of developing an animal model of one or more neurological diseases.
- methods of the present invention are carried out using an experimental animal in which the effects of exposure to a neurotoxic amino acid or neurotoxic derivative thereof associated with neurological disorders are measured by studies of brain chemistry, structure, or function.
- a subject is a human.
- a subject is a human suffering from one or more neurological disorders.
- a subject is a human who is asymptomatic for one or more neurological disorders.
- a subject is a human who has been identified as being at risk for developing a neurological disorder.
- a subject is a human who is known or suspected of having been exposed to at least one neurotoxic amino acid or neurotoxic derivative thereof associated with neurological disorders.
- immunoassays, antibodies, and kits are provided for detecting the presence of one or more forms of neurotoxic amino acid associated with neurological disorders, in particular BMAA.
- immunoassays and kits are provided for detecting the presence of a neurotoxin in a subject by analyzing a tissue sample from a subject to detect the presence of one or more forms of neurotoxic amino acids, in particular BMAA, that may be indicative of the presence of a neurotoxin.
- immunoassays and kits are provided for detecting an environmental source of a neurotoxin by analyzing an environmental sample to detect the presence of one or more forms of neurotoxic amino acids, in particular BMAA, that may be indicative of the presence of a neurotoxin.
- neurotoxic amino acids in a sample can be present in a "free” form (e.g., cytosolic, circulating, unbound, easily released), "protein- bound” forms (e.g., bound to the surface of a protein or incorporated into the polypeptide chain of a protein), and both "free” and “protein-bound” forms may be associated with other cellular components (e.g., conjugated to sugars, lipids, or polymers (e.g., cellulose, chitin, amylose, proteoglycan), and may be modified, derivatized, or otherwise linked to other sample components (e.g., carbamate adduct).
- a free form e.g., cytosolic, circulating, unbound, easily released
- protein- bound forms e.g., bound to the surface of a protein or incorporated into the polypeptide chain of a protein
- both "free” and “protein-bound” forms may be associated with other cellular components (e.g., conjugated to
- BMAA can exist in a tissue sample or an environmental sample in a free (unbound) form, or can exist in a protein-bound form, where the protein-bound form includes, but is not limited to, BMAA bound to the surface of a protein (e.g. by conjugation, covalent linkage, non-covalent linkage, as a side group, linkage via spacer groups, etc.) or BMAA incorporated into the amino acid chain forming the polypeptide backbone of a protein.
- both free and protein-bound BMAA levels are determined.
- BMAA levels are determined.
- levels of protein-bound BMAA are determined.
- the total BMAA in a sample is determined after a sample is treated, e.g. by hydrolysis or digestion, such that all forms of BMAA present in the sample are released as "free" BMAA.
- one of skill in the art can determine one or more BMAA conjugates of interest in a sample, and can determine whether the immunoassay or antibody being used is suitable to detect the BMAA conjugate(s) and whether the sample is to be treated to make the BMAA conjugate(s) available for detection.
- immunoassays are provided such that additional amino acids, proteins, or other components are determined in addition to BMAA. It is understood that immunoassays, antibodies, and kits provided herein can be utilized by one of skill in the art to analyze any sample in accordance with the present invention, including but not limited to, tissue samples from a subject, and environmental samples used in environmental screening. It is understood that one of skill in the art can modify methods of the invention as necessary to accommodate specific features of a sample, e.g., as necessary to prepare a keratinous tissue sample for analysis, or to prepare an environmental sample that includes material having cellulose, chitin or proteoglycan cell walls.
- the present invention provides antibodies that bind neurotoxic amino acids and neurotoxic derivatives thereof, and further provides methods and kits for utilizing these antibodies for detecting the presence of at least one neurotoxic amino acid or neurotoxic derivative thereof in a sample.
- the invention provides antibodies that bind BMAA, and methods and kits for utilizing these antibodies for detecting the presence of BMAA in a tissue sample.
- the invention provides methods and kits for utilizing these antibodies for detecting the presence of BMAA in an environmental sample.
- the invention provides immunoassay for determining BMAA in a tissue sample or an environmental sample.
- antibody encompasses immunoglobulins, immunoglubulin fragments, intact antibodies, single chain antibodies, antibody fragments, sera reactive against an antigen (antisera raised against an antigen), naturally occurring antibodies (i.e., resulting from expression of endogenous genetic sequences), recombinant antibodies, humanized antibodies, chimeric antibodies, synthetic antibodies (synthesized antibodies), where an antibody can be, but is not limited to, a polyclonal antibody, a monoclonal antibody, an Fv (variable fragment), a single chain Fv
- polyclonal antibodies may be prepared by immunizing a host animal with an antigen, recovering sera after immunization, and characterizing sera having binding specificity for the antigen (antisera against the antigen). It is understood that monoclonal antibodies may be prepared by recovering spleen cells from immunized animals and immortalizing the cells using methods known in the art, e.g. by fusion with myeloma cells, following by screening for clones expressing antibodies with desired specificity and affinity (Kohler and Milstein, 1975, Nature 256:495-497), and monoclonal antibodies can be further modified or optimized using recombinant DNA technology.
- antibody can refer in its original sense to a polypeptide substantially encoded by an immunoglobulin gene or fragments thereof, that specifically binds and recognizes an antigen target, e.g., as described at length in Paul, ed., Fundamental Immunology (3rd ed. 1993).
- antibody or “antibodies” includes antibody fragments such as fragments resulting from enzymatic or chemical cleavage of an intact antibody (polyclonal or monoclonal), or fragments that can be synthesized de novo, either by use of recombinant DNA methodology or by chemical synthesis, e.g., Fv or scFv.
- antibody or “antibodies” includes recombinant antibodies including chimeric antibodies, humanized antibodies, recombinant monoclonal antibodies, etc.
- hapten is generally understood to refer to a smaller molecular weight compound conjugated to an immunogenic carrier compound, where it is understood that in the hapten-carrier configuration, the hapten can function as an antigen even when the smaller molecular weight compound may not be immunogenic by itself.
- a hapten-carrier conjugate is then used to immunize a recipient animal (e.g., mouse, rat, sheep, goat, or rabbit) according to well-known methods, to elicit an immune response in the recipient animal.
- a recipient animal e.g., mouse, rat, sheep, goat, or rabbit
- Optional steps include mixing the hapten-carrier conjugate with an adjuvant (e.g., complete Freund's adjuvant, CFA) for the initial immunization, or multiple initial immunizations, and one or more "booster" immunizations.
- CFA complete Freund's adjuvant
- the products of the immune response are then collected and analyzed to identify antibodies reactive against the hapten.
- Protocols for selecting immunogenic carrier compounds and conjugating haptens to immunogenic carrier compounds are well known in the art, e.g., as described in Harlow and
- Immunogenic carrier compounds can include, but are not limited to, thyroglobulin, ⁇ -galactosidase, dextran, polylysine, tuberculin derived protein, ovalbumin (OVA), serum albumins such as bovine serum albumin (BSA), sheep serum albumin, goat serum albumins, or fish serum albumin, and keyhole limpet hemocyanin (KLH). Immunogenic carrier compounds can be selected that presumably do not occur in the sample that will be analyzed to determine the presence of the hapten (e.g., the neurotoxic amino acid or derivative thereof)- This allows the antiserum to be used without having to isolate the anti-hapten antibodies from the anti-carrier antibodies.
- hapten e.g., the neurotoxic amino acid or derivative thereof
- KLH a respiratory protein found in mollusks
- KLH a respiratory protein found in mollusks
- BMAA or a BMAA derivative is conjugated to a carrier protein selected on the basis that it presumable does not occur in the samples that will be analyzed to determine the presence of BMAA or a BMAA derivative.
- the carrier protein is KLH.
- the carrier protein is BSA.
- 6,608,178 describes the preparation and use of antibodies specific for the serotonin metabolite 5- hydroxytryptophol (5-HTOL) to detect recent alcohol consumption., where antibodies were developed that were specific for 5-HTOL or a glucuronide or sulphate conjugate of 5-HTOL, and had no specific binding activity to other compounds such as serotonin (5- hydroxytryptamine, 5-HT), the serotonin metabolite 5- hydroxyindole-3 -acetic acid (5- HIAA), and structurally related indoles and other glucuronides.
- 5-HT serotonin hydroxytryptamine
- 5-HIAA the serotonin metabolite 5- hydroxyindole-3 -acetic acid
- polyclonal and monoclonal antibodies against various amino acids and amino acid derivatives such as neurotransmitters are known in the art and commercially available, e.g., polyclonal anti-aspartate, polyclonal anti-GABA, polyclonal anti-glutamate, polyclonal anti- serotonin; monoclonal anti-GABA, monoclonal anti-aspartate, and monoclonal anti- glutamate, all available from Sigma Aldrich Co., St. Louis, MO., or polyclonal antibodies against amino acids available from Signature Immunologies (Salt Lake City UT).
- haptens based on single molecules coupled to carrier compounds nearly always present linear determinants, which are molecular configurations in space that are characterized by adjacent interaction sites with restricted mobilities.
- Linear determinants present a very restricted set of targets to the immune system, such that antibodies that bind hapten targets virtually always attack the same or overlapping linear epitopes to the extent that binding is mutually exclusive.
- anti-hapten antibodies produced by polyclonal methods very often have monoclonal properties as far as molecular selectivity is concerned.
- a neurotoxic amino acid or neurotoxic derivative thereof is conjugated to an immunogenic carrier compound to form an immunogenic hapten-carrier conjugate that is administered to a recipient animal, an immune response is generated against the hapten-carrier conjugate, and the products of the immune response are then analyzed to identify antibodies reactive against the neurotoxic amino acid or neurotoxic amino acid derivative of interest.
- BMAA is conjugated to an immunogenic carrier protein to form an immunogenic BMAA-carrier protein conjugate that is administered to a recipient animal, an immune response is generated against the BMAA-carrier protein conjugate, and the products of the immune response are then collected and analyzed to identify antibodies reactive against BMAA or the BMAA derivative.
- BMAA is conjugated to KLH as the carrier protein to form a KLH-BMAA conjugate that is administered to a recipient animal, an immune response is generated against the KLH-BMAA conjugate, and the products of the immune response are then analyzed to identify antibodies reactive against BMAA or the BMAA derivative.
- BMAA or a BMAA derivative is conjugated to BSA as the carrier protein to form a BSA-BMAA conjugate.
- antibodies raised against an immunogenic hapten-carrier conjugate are then tested against the hapten conjugated to a second carrier that is distinct from the carrier used in the immunogenic hapten-carrier conjugate.
- a second carrier that is distinct from the carrier used in the immunogenic hapten-carrier conjugate.
- one of skill in the art can choose a second, distinct, carrier relying on the assumption that it is unlikely that the recipient animal would be immunoreactive against the second carrier, such that analysis of the products of the immune response against an immunogenic hapten-carrier conjugate can be performed in such a way that only the reactivity of antibodies that bind the hapten are detected.
- KLH-BMAA conjugates are used to generate an immune response in rabbits, i.e., antisera raised against KLH-BMAA conjugates. Antisera are collected after immunization, and the antisera raised against KLH- BMAA conjugates are then evaluated using BSA-BMAA conjugates to detect and characterize antibodies that bind BMAA. As demonstrated in non-limiting exemplary embodiments in the Examples below, BSA-BMAA conjugates can be used in immunoassays to test antisera raised against KLH-BMAA conjugates, e.g., BSA-BMAA conjugates are used to coat microtiter plates for antibody capture assays to test antisera for antibodies that react with BMAA.
- Conjugating the hapten to the immunogenic carrier compound depends on the type and number of reactive groups available on the hapten and the carrier. Conjugating the hapten to the immunogenic carrier compound may further include introducing a conjugating linker or spacer between the hapten and the carrier compound.
- Linkers and spacers may be selected by one of skill in the art according to various criteria including, but not limited to, minimizing changes to the structural conformation of the hapten during conjugation and subsequent presentation to the recipient animal immune system, and facilitating presentation of the hapten for recognition by antibodies in immunoassays.
- Linkers and spacers include, but are not limited to, glutaraldehyde (GIu or GLU) and carbodiimide (Edc or EDC) linkers.
- glutaraldehyde can be used to couple amino groups to amino groups
- MBS m-maleimidobenzoic acid-N-hydroxysuccinimide
- carbodiimide can be used to couple amino groups to carboxyl groups.
- BMAA or a BMAA derivative is conjugated to KLH as the carrier protein using glutaraldehyde (GLU) to form a KLH-GLU-BMAA (KGB) conjugate that is administered to a recipient animal, an immune response is generated against the KGB conjugate, and the products of the immune response (antisera) are then analyzed to identify antibodies reactive with BMAA or the BMAA derivative, hi one embodiment, BMAA or a BMAA derivative is conjugated to KLH as the carrier protein using carbodiimide (EDC) to form a KLH-EDC-BMAA (KEB) conjugate that is administered to a recipient animal, an immune response is generated against the KEB conjugate, and the products of the immune response (antisera) are then analyzed to identify antibodies reactive with BMAA.
- GLU glutaraldehyde
- KGB KLH-GLU-BMAA
- BMAA or a BMAA derivative is conjugated to BSA as the carrier protein using glutaraldehyde (GLU) to form a BSA-GLU-BMAA conjugate that is administered to a recipient animal, an immune response is generated against the BSA-GLU- BMAA conjugate, and the products of the immune response are then analyzed to identify antibodies reactive with BMAA or the BMAA derivative, hi one embodiment, BMAA or a BMAA derivative is conjugated to BSA as the carrier protein using carbodiimide (EDC) to form a BSA-EDC-BMAA conjugate that is administered to a recipient animal, an immune response is generated against the BSA-EDC-BMAA conjugate, and the products of the immune response are then analyzed to identify antibodies reactive with BMAA or the BMAA derivative.
- GLU glutaraldehyde
- Figure 1 presents the outline of a non-limiting exemplary embodiment in which BMAA or a BMAA derivative is conjugated to KLH as the carrier protein using GLU to form a KLH-GLU-BMAA (KGB) conjugate, or EDC to form a KLH-EDC-BMAA (KEB) conjugate, and each KLH-BMAA conjugate is administered to a recipient animal to generate an immune response against the KLH-BMAA conjugate.
- KGB KLH-GLU-BMAA
- KB KLH-EDC-BMAA
- BMAA or a BMAA derivative is also conjugated to BSA as the carrier protein using GLU to form a BSA-GLU-BMAA (BGB) conjugate, or EDC to form a BSA-EDC- BMAA (BEB) conjugate, and the BSA-BMAA conjugates are used in analyzing the products of the immune response against the KLH-BMAA conjugates (antisera), to identify antibodies reactive with BMAA or the BMAA derivative.
- antibodies raised against an immunogenic hapten-carrier conjugate prepared using a defined cross-linker (e.g., GLU or
- ECD ECD
- Antibodies reactive with neurotoxic amino acids and neurotoxic derivatives thereof must have an acceptably high affinity and specificity for the hapten target, combined with an acceptable level of selectivity.
- An acceptable level of selectivity includes binding to the hapten target, and having an acceptably low level of cross-reactivity with other antigens, in particular structurally similar antigens.
- the affinity of an antibody for a hapten of interest can be determined using methods known in the art, such as antibody capture assays using differing coating concentrations of hapten, or measurement of competitive inhibition of binding by adding increasing amounts of hapten to a sample for which a baseline level of binding has been determined.
- the selectivity of an antibody for an antibody for a hapten of interest can be determined using methods known in the art, such as competitive assays in which other antigens are added to a sample for which a baseline level of binding to the hapten has been determined.
- Cross-reactivity is sometimes seen when the products of the immune response, e.g. antisera or other antibody compositions, contain multiple antibodies targeting multiple similar antigens, often binding with different affinities and often targeting different epitopes.
- hapten immunogens present very small, linear antigenic determinants, and anti-hapten antibodies generally attack the same or overlapping targets (linear epitopes) to the extent that binding is mutually exclusive and thus, anti-hapten antibodies produced by polyclonal methods very often have monoclonal properties as far as molecular selectivity is concerned Cross-reactivity is sometimes due to the property of a single antibody that a target or steric space that can be formed by more than one distinct molecule.
- selectivity for the hapten of interest, and cross-reactivity with other antigens can be determined for a sample such as an antiserum or other antibody composition, using methods known in the art.
- antiserum raised against a neurotoxic amino acid or derivative thereof wherein the antiserum shows an acceptably high affinity and specificity for the hapten target, combined with an acceptably low level of cross- reactivity with other antigens, such that the serum is used in methods and kits of the invention without extensive purification or enrichment.
- antiserum raised against BMAA-carrier protein conjugates shows an acceptably high affinity and specificity for BMAA, combined with an acceptably low level of cross-reactivity with other antigens.
- antiserum raised against BMAA-carrier protein conjugates substantially binds BMAA conjugates and free BMAA and does not substantially bind (i.e., does not bind in a significant amount, or does not bind in a detectable amount) to structurally similar amino acids.
- antiserum raised against BMAA-carrier protein conjugates shows reactivity with BMAA conjugates and with free BMAA and does not substantially bind to, detectably bind to, or substantially cross-react with structurally similar amino acids, even when the structurally similar amino acids are present at relatively high concentrations.
- antiserum raised against BMAA-carrier protein conjugates shows reactivity with BMAA conjugates and with free BMAA and does not substantially cross-react with structurally similar amino acids including alanine, glutamine, tyrosine, glycyl-glycine, glycine, leucine, phenylalanine, gamma-aminobutyric acid (GABA), glutamic acid, and aspartic acid, even when the structurally similar amino acids are present at relatively high concentrations, hi accordance with one aspect of the invention, the anti- BMAA antiserum provided herein can be used in immunoassays and kits of the invention without extensive purification or enrichment.
- purification steps may be taken to remove undesirable material such as nonspecific antibodies or non-antibody proteins before the antiserum is used to determine the neurotoxic amino acid or neurotoxic amino acid derivative of interest, hi accordance with one aspect of the invention, a desired degree of specificity or purity can be achieved by enriching the products of an immune response such as antiserum raised against a neurotoxic amino acid or derivative thereof, using methods known in the art.
- Methods for purification and/or enrichment include, but are not limited to, use of Protein A/G chromatography, ammonium sulfate precipitation, and affinity chromatography.
- antiserum raised against BMAA or a BMAA derivative conjugated to an immunogenic carrier protein is subjected to partial purification by ammonium sulfate precipitation
- antiserum raised against BMAA or a BMAA derivative conjugated to KLH is subjected to partial purification by immunoprecipitation with KLH to remove anti-KLH antibodies
- antiserum raised against BMAA or a BMAA derivative conjugated to an immunogenic carrier protein is subjected to affinity purification using an affinity column having BMAA or a BMAA derivative coupled to the column matrix.
- Immunoassays, antibodies, and kits are provided for distinguishing isomers of the same compound, e.g., for distinguishing L and D forms of an amino acid, or for distinguishing a neurotoxic isomer from the non-neurotoxic isomer of the same compound or compounds.
- antibodies are provided that can distinguish L-BMAA from D-BMAA.
- antibodies having high affinity for target haptens and low cross-reactivity for similar haptens are known in the art.
- certain commercially available polyclonal antibodies from Signature Immunologies, Inc. (Salt Lake City UT) have high target specificity and low cross-reactivity for the free (unbound) form of certain amino acids.
- antibodies are provided that have acceptably high affinity for the target neurotoxic amino acid or neurotoxic amino acid derivative, and low cross-reactivity with other amino acids.
- antibodies are provided that have acceptably high affinity for BMAA or a BMAA derivative, and low cross-reactivity with other amino acids.
- antibodies are provided that are reactive with the free (unbound) form of a neurotoxic amino acid or neurotoxic amino acid derivative, or with the protein-bound form of a neurotoxic amino acid or neurotoxic amino acid derivative, or with both forms of a neurotoxic amino acid or neurotoxic amino acid derivative.
- antisera are provided that include antibodies specific for the free form, and antibodies specific for protein-bound forms.
- antibodies capable of recognizing both the free form and the protein-bound form are provided.
- protein-bound forms of a neurotoxic amino acid or neurotoxic amino acid derivative include, but are not limited to, the protein-bound form of a neurotoxic amino acid or neurotoxic amino acid derivative incorporated into the protein, e.g., into the polypeptide chain(s), and/or the protein-bound form of a neurotoxic amino acid or neurotoxic amino acid derivative otherwise associated with the protein, e.g., attached to the protein by covalent or noncovalent linkages, or conjugated to the protein through a spacer or linker group.
- polyclonal antibodies may include antibodies that recognize different epitopes. It is understood that antibodies may be provided that recognize the free (unbound) form of BMAA or a BMAA derivative, and that antibodies may be provided that recognize the protein-bound form(s) of BMAA or a BMAA derivative, and that antibodies may be provided that can recognize both the free (unbound) form and the protein-bound form(s) of BMAA or a BMAA derivative.
- protein-bound forms of BMAA or a BMAA derivative include, but are not limited to, BMAA or a BMAA derivative incorporated into the protein, e.g., into the polypeptide chain(s), and/or BMAA or a BMAA derivative otherwise associated with the protein, e.g., attached to the protein by covalent or noncovalent linkages, or conjugated through a spacer or linker group.
- an anti-BMAA polyclonal antibody, or an antiserum containing antibodies raised against BMAA may be reactive with free BMAA, with conjugated BMAA, and with protein-bound BMAA.
- one of skill in the art can screen antibody-producing hosts or clones individually to identify those clones having the desired level of steric specificity for neurotoxic amino acids or neurotoxic amino acid derivatives.
- the affinity of an antibody for different haptens having similar steric configurations will be mapped, to determine the relative affinities for different targets and the affinity for neurotoxic amino acids or neurotoxic amino acid derivatives.
- Antibodies as provided herein can be used in immunoassays by one of skill in the art to detect the presence, level (amount), and location of neurotoxic amino acids and neurotoxic amino acid derivatives in samples such as tissue samples or environmental samples.
- Immunoassays of the present invention can be carried out to analyze free ⁇ e.g., unbound, unconjugated, cytosolic, circulating) forms of neurotoxic amino acids or neurotoxic derivatives thereof, protein-bound forms of neurotoxic amino acids or neurotoxic derivatives thereof, or conjugated forms of neurotoxic amino acids or neurotoxic derivatives thereof associated with neurological disorders (e.g., sugar conjugates, lipid conjugates, or carbamate adducts), where any or all of these forms may be analyzed.
- neurological disorders e.g., sugar conjugates, lipid conjugates, or carbamate adducts
- One of skill in the art can determine which forms of neurotoxic amino acid(s) or neurotoxic derivative(s) thereof are present in a sample, and which forms are of diagnostic or predictive interest for a given embodiment.
- Antibodies and immunoassays as provided herein may be used in conjunction with physico-chemical methods for determining the presence, levels, and location of neurotoxic amino acids and neurotoxic amino acid derivatives described elsewhere in the present disclosure.
- Suitable immunoassays and immunoassay formats for use with the antibodies provided herein are well known in the art. Homogeneous immunoassay formats that do not require separation of the bound antibody-neurotoxic amino acid complex from the rest of the assay components, are suitable for determining the presence, levels, and location of neurotoxic amino acids and neurotoxic amino acid derivatives as provided herein. Heterogeneous immunoassay formats that require at least one separation step, often utilizing a solid phase reagent such as a magnetic particle or plastic bead, to remove the bound antibody-neurotoxic amino acid complex from the rest of the assay components, are suitable for determining the presence, levels, and location of neurotoxic amino acids and neurotoxic amino acid derivatives as provided herein.
- Suitable immunoassay formats include, but are not limited to, agglutination-based assays, precipitation-based assays ("Ouchterlony” assays), radioimmunoassays, fluoroimmunoassays, chromogenic or colorimetric immunoassays, heterogeneous enzyme immunoassays, heterogeneous fluorescent immunoassays, homogeneous immunoassays including techniques such as fluorescence quenching or enhancement, fluorescence polarization, enzyme substrate-labeled immunoassays, prosthetic group-labeled immunoassays, enzyme modulator-labeled immunoassays (e.g., using inhibitor labels), enzyme-labeled immunoassays, energy transfer immunoassays, chemically-excited fluorescence immunoassays, and double antibody steric hindrance immunoassays, or other immunoas
- Immunoassay formats for use in an immunoassay to detect neurotoxic amino acids and neurotoxic amino acid derivatives, in particular BMAA include but are not limited to enzyme-linked immunosorbent assays (ELISA) using antibodies or antigens in an assayable detection system, where suitable ELISA formats may include antibody capture ELISA, competitive ELISA, or indirect competitive ELISA, as described e.g., in Crowther, 1995. "ELISA. Theory and Practice” Methods MoI. Biol. 42:1-223, Engvall and Perlmann, 1971, "Enzyme-linked immunosorbent assay (ELISA).
- ELISA enzyme-linked immunosorbent assays
- antibodies as provided herein are unlabelled antibodies that are used as "primary" antibodies in traditional immunoassay formats. Accordingly, antibodies as provided herein will be detected and measured by a detectable secondary antibody that recognizes the primary antibody.
- Suitable detectable secondary antibodies can be coupled to an enzyme such as horseradish peroxidase (HRP), alkaline phosphatase, lysozyme, glucose-6-phosphate dehydrogenase and the like, where coupling can be accomplished by conventional techniques using various cross-linking agents such as glutaraldehyde, dimaleimide or thiol reagents as described by Freytag et al. (1984, Clin. Chem.
- antibodies as provided herein may be directly labelled, e.g., radiolabeled antibodies, or antibodies labelled with fluorescent moieties (fluorophores), luminescent moieties, chemiluminescent moieties, colloidal gold, dye moieties, enzyme-coupled antibodies, biotin-labelled antibodies, avidin-labelled antibodies, streptavidin-labelled antibodies, or antibodies labelled with other detectable moieties, in accordance with protocols that are well-known in the art, for direct detection and quantitation of the binding of antibodies to neurotoxic amino acids or derivatives thereof.
- labelled anti-BMAA antibodies are provided, e.g., biotin- labelled anti-BMAA antibodies.
- an antibody capture immunoassay is provided to determine the presence and affinity of antibodies as provided herein, i.e., antibodies reactive with a neurotoxic amino acid or a neurotoxic amino acid derivative.
- known amounts of unlabelled neurotoxic amino acid or derivative are coupled to a solid support, e.g., by coating a series of wells of a multi-well microtiter plate with serial dilutions of a stock solution, such that each well contains a known amount of neurotoxic amino acid or derivative, and antibodies as provided herein ("primary antibodies) are added to assay wells and "captured" on the solid support by binding to neurotoxic amino acid or derivative coupled to the solid substrate, and detected by a detectable secondary antibody that recognizes the primary antibody.
- the amount of primary antibody bound to ("captured by") the neurotoxic amino acid or derivative bound to solid support in each assay is determined by measuring the amount of detectable secondary antibody bound to the primary antibody, by methods known in the art.
- antiserum raised against a neurotoxic amino acid or a neurotoxic amino acid derivative are used in an antibody capture assay to detect the level of antibodies reactive with neurotoxic amino acid or a neurotoxic amino acid derivative that are present in the antiserum.
- antiserum raised against BMAA or a BMAA derivative is used in the antibody capture assay and antibodies binding to BMAA or a BMAA derivative coupled to the solid support are measured.
- an indirect competitive ELISA is provided to determine the ability of antibodies as provided herein to bind the free (unbound) form of the neurotoxic amino acid or neurotoxic amino acid derivative used to generate the antibodies.
- known amounts of unlabelled neurotoxic amino acid or derivative are coupled to a solid support, e.g., by coating a series of wells of a multi-well microtiter plate with serial dilutions of a stock solution, such that each well contains a known amount of neurotoxic amino acid or derivative.
- Antibodies as provided herein are used as "primary" antibodies, and free neurotoxic amino acid or neurotoxic amino acid derivative are added to the assay wells, and antibody capture in the presence of known amounts of the free neurotoxic amino acid or neurotoxic amino acid derivative are compared with antibody capture in the absence of free neurotoxic amino acid or neurotoxic amino acid derivative.
- indirect competitive ELISA can be performed to determine the reactivity of antisera raised against BMAA conjugates with free BMAA, to establish that antibodies that bind to free BMAA are provided.
- an immunoblot assay is provided to determine the ability of antibodies as provided herein to bind neurotoxic amino acids or neurotoxic amino acid derivatives in a sample.
- immunoblot assays can be performed using a "dot blot" format on a total cell extract or a protein preparation from the sample to determine whether antibodies as provided herein are reactive with any components present in the sample.
- immunoblot assays can be performed in a "Western blot" format wherein proteins in a protein-containing extract of a sample are separated, e.g., using SDS-PAGE to separate proteins on the basis of size and/or charge, after which the separated proteins are transferred to a membrane, e.g., nylon or nitrocellulose, and antibodies as provided herein as used in an immunoassay to detect protein- bound neurotoxic amino acids or neurotoxic amino acid derivatives on the membrane.
- antibodies raised against BMAA BMAA-KLH conjugates
- BMAA-KLH conjugates as provided herein are used to detect BMAA or BMAA derivatives on a Western blot of a protein preparation from a tissue sample or an environmental sample.
- protein extracts are prepared from tissue samples or environmental samples, and an immunoassay for BMAA or BMAA derivatives is performed on the protein extract as provided herein, where recognition of protein bands by antibodies is understood to indicate that the sample may contain protein-bound BMAA or BMAA derivatives.
- a subject is screened for exposure to an environmental source of BMAA by obtaining a tissue sample from the subject, contacting the tissue sample with an antibody composition including at least one antibody that binds BMAA under conditions that allow binding of the antibody to BMAA, and detecting antibody bound to BMAA in the tissue sample, wherein antibody binding to the tissue sample indicates that the tissue contains BMAA, thus indicating that the subject has been exposed to an environmental source of BMAA.
- an environmental source of BMAA is detected by obtaining an environmental sample, contacting the environmental sample with an antibody composition including at least one antibody that binds BMAA under conditions that allow binding of the antibody to BMAA, and detecting antibody bound to BMAA in the environmental sample, wherein antibody binding to the environmental sample indicates that the environmental sample contains BMAA and thus is an environmental source of BMAA.
- a cyanobacterial source of BMAA in an environmental sample is detected by contacting the environmental sample with an antibody composition including at least one antibody that binds BMAA under conditions that allow binding of the antibody to BMAA, detecting antibody bound to BMAA in the environmental sample, and comparing the antibody binding to the environmental sample with antibody binding to samples of cyanobacteria, and determining whether the antibody binding to the environmental sample indicates the presence of a cyanobacterial source of BMAA.
- an immunoblot (“Western blot") assay of a protein extract of a tissue sample is performed using an antibody composition including at least one antibody that binds BMAA (e.g., antiserum raised against BMAA), and protein bands recognized by antibodies are identified.
- an immunoblot or "Western blot” assay of a protein extract of an environmental sample is performed using an antibody composition including at least one antibody that binds BMAA (e.g., antiserum raised against BMAA), and protein bands recognized by antibodies are identified.
- an immunoblot or "Western blot" assay of a protein extract of a keratinous tissue sample is performed, and protein bands recognized by antibodies of the present invention are identified.
- an immunoblot or "Western blot" assay of a protein extract of a neurological tissue sample is performed, and protein bands recognized by antibodies of the present invention are identified.
- antibodies that are reactive with protein-bound BMAA are used for in situ labelling or imaging applications, e.g. in immunohistochemical applications wherein the antibodies bind to lesions containing protein-bound neurotoxic amino acids or neurotoxic amino acid derivatives.
- Protocols for immunocytochemistry to detect small molecules such as amino acids in histological specimens are known in the art, e.g., high performance immunocytochemistry on epoxy-embedded specimens using rabbit polyclonal antibodies from Signature Immunologies, Inc. (Salt Lake City UT) and gold- conjugated or fluorophore conjugated anti-rabbit secondary antibodies, for example as described at hltp://www. immunologics.com/hpi.htmL
- Amplification can be used to enhance the strength and/or selectivity of the signal.
- One of skill in the art can likewise modify neurotoxic amino acids and neurotoxic amino acid derivatives to yield labelled conjugates detectable by the immunoassay of the present invention.
- Immunoassay and antibodies as provided herein can be used by one of skill in the art to analyze samples for neurotoxic amino acids and neurotoxic derivatives thereof, where samples include but are not limited to, tissue samples and environmental samples. Immunoassays as provided herein can be used to analyze tissue samples obtained from a living subject (ex vivo, in vitro), tissue samples present in a living subject (in vivo), or preserved specimens such as stored tissue, biopsy and/or autopsy samples, or museum specimens. Stored tissue may be frozen tissue, histological specimens, tissue dried on solid storage media, or other forms of stored tissue.
- Antibodies as provided herein can be used in vivo, in imaging and diagnostic applications to detect neurotoxic amino acids and neurotoxic derivatives thereof in a subject.
- antibodies as provided herein can be used for in vivo diagnostic imaging to detect neurotoxic amino acids or neurotoxic derivatives thereof in bodily fluids, or in a body lumen, or in other body tissues.
- antibodies reactive with protein-bound BMAA are introduced into a body lumen such as the spinal cord, a blood vessel, a ureter, a urethra, an esophagus, a cervix, a uterus or a bladder, wherein antibodies can bind to proteins containing BMAA in bodily fluids in the lumen, or to proteins containing BMAA in tissues on the walls of the lumen.
- antibodies reactive with protein-bound BMAA are introduced into a tissue or organ, e.g., by perfusion, wherein antibodies can bind to proteins containing BMAA in situ in the tissue or organ.
- Antibodies of the invention are given in a dose that is diagnostically effective to enable detection of protein-bound BMAA for a particular application.
- the antibody may be labelled or otherwise coupled to a detectable marker so that the antibody can be directly detected.
- a detector such as a secondary antibody is introduced into the body lumen and detects the antibody bound to BMAA.
- Detectable markers that can be coupled to antibodies of the invention include radioisotopes such as 131 I, 125 I, 123 I, 18 F, 19 F, 11 C, 13 C, 14 C, 75 Br, 76 Br, or H. Markers may be paramagnetic compounds, e.g., compounds including lanthanides.
- Markers may be contrast agents suitable for detection by contrast-enhanced ultrasound, e.g., microbubbles having a suitable biocompatible shell and a core of heavy gas (perfluorocarbon or nitrogen) conjugated to the antibody.
- the type of detection instrument to be used is a major factor in selecting the detectable marker, such that markers may be selected for X-ray (e.g., 125 I, 57 Co, Technetium-99m ( 99m Tc)), ultrasound (e.g., perflutren microbubble), MRI (e.g., gadolinium, 19 F, 1 H), PET ( 18 F), computer assisted tomography (CAT), magnetic resonance spectroscopy (MRS), single-photo emission computed tomography (SPECT, bioluminescence image(BLI) or other applications.
- X-ray e.g., 125 I, 57 Co, Technetium-99m ( 99m Tc)
- ultrasound e.g., perflutren microbubble
- MRI e
- the labelled antibody bound to BMAA is detected or measured locally in an organ or tissue. In some embodiments, the labelled antibody bound to BMAA is measured systemically, by scanning all or a portion of the subject using imaging methods such as X-ray, ultrasound, PET, or MRI.
- imaging methods such as X-ray, ultrasound, PET, or MRI.
- Pharmaceutical compositions suitable for administration for in vivo imaging and diagnostic applications are provided, wherein the pharmaceutical compositions include antibodies reactive with protein-bound BMAA and a detectable marker that allows detection of the antibody bound to BMAA. Protocols for introducing and detecting markers such as antibodies to detect lesions are found in US Patent Nos. 5,716,595; 6,375,925; and 6,782,289, herein incorporated by reference.
- immunoassays, antibodies, and kits of the present invention may include preparation steps to accommodate specific features of a sample, e.g., steps to prepare a tissue sample for analysis, or to prepare a subject for in vivo measurement/imaging, or to prepare an environmental sample for analysis.
- Sample preparation may include, but is not limited to, mechanical or chemical disruption of the sample, where chemical disruption includes but is not limited to hydrolysis (e.g., acid hydrolysis), enzymatic digestion, or solvent extraction (solvent partitioning), to release BMAA from the sample for detection by immunoassays and antibodies as provided herein.
- a keratinous tissue such as hair is hydrolyzed using strong acid and heating and an immunoassay for BMAA is performed on the neutralized hydrolysate.
- hair is enzymatically digested using a protease mixture containing reductants and detergents, e.g., as described in US Patent No. 6,949,344, and an immunoassay for BMAA is performed on the digest.
- neurological tissue such as brain tissue is first homogenized under acidic conditions (e.g., 0.1 N trichloroacetic acid) and centrifuged to release free amino acids and precipitate proteins, then the pellet is subjected to hydrolysis using strong acid and heat (e.g., 6N HCl at 110 0 C for 24 hours), after which an immunoassay of the neutralized supernatant is carried out to determine free BMAA in the sample and an immunoassay of the neutralized pellet hydrolysate is carried out to determine the protein-bound BMAA that was released from the pellet by hydrolysis.
- acidic conditions e.g., 0.1 N trichloroacetic acid
- strong acid and heat e.g., 6N HCl at 110 0 C for 24 hours
- an environmental sample including cellulose is treated with cellulase to release cell contents and cell wall material for determination of BMAA.
- an environmental sample including chitin is treated with chitinase to release cell contents and cell wall material for determination of BMAA.
- a sample may be treated to yield a plurality of sample fractions, and immunoassays of the present invention are used to determine BMAA in one or more of the resulting sample fractions, hi one embodiment, a sample can be treated to yield a protein fraction and a soluble fraction, e.g. as disclosed in US Patent No. 7,256,002, wherein cyanobacteria, cycad seed tissue, flying fox (bat) hair and skin, and human brain tissue samples were treated to remove free amino acids (from a soluble or cytosolic fraction) and yield a protein fraction assumed to contain protein-bound BMAA, after which the protein fraction was hydrolyzed and BMAA in the hydrolysate was determined using HPLC.
- a protein fraction and a soluble fraction e.g. as disclosed in US Patent No. 7,256,002, wherein cyanobacteria, cycad seed tissue, flying fox (bat) hair and skin, and human brain tissue samples were treated to remove free amino acids (from a soluble
- a sample may be extracted with solvents of different polarities, e.g. to yield aqueous and lipophilic fractions.
- the sensitivity of the BMAA immunoassay may be enhanced by sample concentration and/or sample clean-up prior to the immunoassay, in order to increase the BMAA concentration in a sample to a level amenable to current immunoassay procedures, and to remove potentially interfering substances.
- commercially available solid phase extraction (SPE) sorbents were assessed for their ability to retain BMAA from solution, and to then release BMAA in an elution step.
- a sample is subjected to preliminary clean-up using SPE sorbents prior to immunoassay of the sample as provided herein.
- a plurality of SPE phases is used in a multiphasic approach for retention and clean-up of BMAA from samples using serial SPE extraction of the sample prior to immunoassay as provided herein.
- the present invention provides immunoassays, antibodies, and kits for screening subjects having or at risk of having neurological disorders, by screening at least one tissue sample from the subject to detect the presence of BMAA.
- neurological disorders also known as neurologic disorders, or neurologic diseases, or neurological diseases
- central nervous system brainstem and cerebellum
- peripheral nervous including cranial nerves
- autonomic nervous system parts of which are located in both central and peripheral nervous system. It is understood that neurological disorders may have complex etiologies, such that one or more environmental or genetic factors may contribute to development of a neurological disorder in a subject.
- Neurological disorders include well-characterized disorders or syndromes such as Alzheimer's disease, amylotropic lateral sclerosis (ALS), or Parkinson's disease, or may be signs (e.g., aphasia) or symptoms (e.g., tremors) that are observed in multiple disorders. It is further understood that the development of a neurological disorder in a subject may be due to one factor or a combination of factors. Likewise, it is understood that a particular neurological disorder in a subject may be due to different factors or different combinations of factors that resulted in the same neurological disorder in other subjects. Immunoassays as provided herein are suitable for use in screening for neurological disorders wherein one or more environmental or genetic factors may play a part.
- Screening methods include but are not limited to, methods for diagnosing one or more neurological disorders in a subject, methods for confirming a diagnosis of one or more neurological disorders in a subject, methods for predicting the risk or likelihood of developing one or more neurological disorders in a subject, methods for predicting the severity of a neurological disorder in a subject, and methods for determining exposure of a subject to neurotoxic amino acids or neurotoxic derivatives thereof associated with developing neurological disorders.
- Methods of the present invention include methods for carrying out repeated testing to generate time series data on the presence and levels of neurotoxic amino acids or neurotoxic derivatives thereof in a subject, and/or the presence and levels of neurotoxic amino acids or neurotoxic derivatives thereof in environmental samples.
- Methods include correlating the presence or absence of a neurotoxic amino acid or neurotoxic derivative thereof in tissue samples from a subject, with other physical or psychological determinations relevant to assessing neurological disorders. Methods further include correlating the levels of a neurotoxic amino acid or neurotoxic derivative thereof measured in one or more tissue samples from a subject, with other physical or psychological determinations relevant to assessing neurological disorders.
- tissue samples are obtained from a subject diagnosed as having a neurological disorder, BMAA levels are determined, and these results are compared with other physical or psychological measurements of the subject, as part of a method for diagnosing one or more neurological disorders.
- immunoassays of the present invention are performed to detect the presence of BMAA in tissue samples from a subject who is currently asymptomatic for one or more neurological disorders. In another embodiment, immunoassays of the present invention are performed to detect BMAA levels in tissue samples from a subject who is currently symptomatic for one or more neurological disorders.
- immunoassays of the present invention are performed to detect the presence of BMAA in tissue samples from a subject suspected of having a neurological disorder, and these results are compared with other physical or psychological measurements of the subject, as part of a method for diagnosing one or more neurological disorders.
- immunoassays of the present invention are repeatedly performed to measure BMAA levels in tissue samples over time, to identify subjects who may be at risk of developing a neurological disorder and may be in need of additional monitoring.
- immunoassays of the present invention are performed to detect the presence of BMAA in one or more tissue samples, and one of skill in the art can correlate BMAA levels with other measurements such as physical or psychological determinations relevant to assessing neurological disorders, and/or with genetic analysis of the subject (e.g., family history and/or genotyping tissue samples) to determine the risk or likelihood of having or developing a neurological disease.
- methods are provided for longitudinal studies of neurological disorders by taking tissue samples at repeated intervals over a period of time and performing immunoassays to detect the presence of BMAA in each tissue sample, providing time series data on BMAA levels useful for longitudinal studies.
- immunoassays of the present invention are repeatedly performed to detect the presence of
- BMAA in tissue samples from a subject over a period of time where the level or amount of BMAA in each sample provides data on BMAA accumulation in tissues over time, which is useful for predicting the likelihood and/or timing and/or severity of future onset of one or more neurological disorders.
- immunoassays of the present invention are repeatedly performed to detect the presence of BMAA in tissue samples from a subject over a period of time, where the level or amount of BMAA in each sample provides data on BMAA release from tissues over time, which is useful for predicting the likelihood and/or timing and/or severity of future onset of one or more neurological disorders.
- the invention provides immunoassays, antibodies, and kits for use in screening for neurological disorders including but not limited to, Parkinson's disease (PD), Alzheimer's disease (AD), progressive supranuclear palsy (PSP), amyotrophic lateral sclerosis (ALS), and the neuropathological disease known as ALS-PDC (also known as ALS-PDC of Guam, or lytico-bodig disease).
- PD Parkinson's disease
- AD Alzheimer's disease
- PSP progressive supranuclear palsy
- ALS amyotrophic lateral sclerosis
- ALS-PDC also known as ALS-PDC of Guam, or lytico-bodig disease
- teachings of the present disclosure provide sufficient guidance to identify other neurological disorders for which the present invention provides screening methods, where one of skill in the art can practice the methods of the present invention to detect the presence and determine the levels of BMAA in tissue samples from a subject, then compare these levels with other indicia of neurological disease in the subject, and ascertain whether a correlation exists between levels of BMAA in the sample and indicia of a particular neurological disease.
- immunoassays, antibodies, and kits of the present invention may be suitable for use as part of an initial screening for neurological disease, wherein the results of the immunoassay-based initial screening are relied upon for determining what further tests are needed for a thorough assessment.
- subjects with ALS-PDC can have symptoms similar to Alzheimer's disease or Parkinson's disease, or both diseases, and although ALS-PDC is considered a separate disorder, it is also possible for a subject with ALS-PDC to also suffer from Alzheimer's disease or Parkinson's disease.
- subjects with Alzheimer's disease and subjects with other forms of dementia may have some similar symptoms, but may differ in the BMAA content of various tissues. Accordingly, measurement of BMAA levels in a subject may aid in identifying which neurological disorders are present are contributing to the signs and symptoms observed in the subject.
- immunoassays of the invention can be performed using any tissue sample from a subject.
- a tissue sample is analyzed to detect the presence of BMAA.
- detecting the presence of BMAA includes determining the amount of BMAA present in the tissue sample.
- a tissue sample may be analyzed to detect not only the presence of BMAA, but also the location of BMAA in the tissue in vivo or ex vivo.
- a tissue sample is treated to yield at least two sample fractions and at least one fraction is analyzed to detect the present of BMAA.
- Levels (amounts) of free BMAA and/or protein-bound BMAA may be determined (quantified), according to the nature of the tissue sample and the question to be answered in a particular embodiment. In some embodiments, it may be desirable to determine both free and protein-bound BMAA levels. In other embodiments, it may be desirable to determine only free BMAA levels. In other embodiments, it may be desirable to determine only protein-bound BMAA levels. In some embodiments, the tissue may be completely chemically disrupted (e.g., by hydrolysis) such both free and protein-bound BMAA are collected in a single sample fraction (hydrolysate) that is analyzed to determine the total BMAA level in the sample.
- Tissue samples may be obtained from a living subject, may be present in a living subject, or may be obtained from a preserved specimen such as stored tissue, biopsy and/or autopsy samples, or museum specimens.
- Stored tissue may be frozen tissue, histological specimens, tissue dried on solid storage media, or other forms of stored tissue.
- Suitable tissue samples include but are not limited to neurological tissue or non-neurological tissue.
- Neurological tissue can be associated with the central nervous system (CNS), including brain tissue or cerebral-spinal fluid (CSF), or may be associated with the peripheral nervous system (PNS).
- Neurological tissue can include tissue present in a living subject, including but not limited to cerebral-spinal fluid (CSF) suitable for in vivo imaging and diagnostics.
- Non- neurological tissue can be keratinous tissue, or non-keratinous tissue including but not limited to, blood, serum, lymph, saliva, or urine.
- Non-neurological tissue can be analyzed ex vivo or in vivo.
- ex vivo analysis of blood can involve removing blood from a subject and analyzing the blood sample
- in vivo analysis of blood can involve detecting and imaging of blood in a body lumen such as a blood vessel.
- Keratinous tissue includes, but is not limited to, hair, skin, nail, including fingernail or toenail, feather, claw, hoof, or horn.
- samples of keratinous tissue from a subject collected at multiple time points can be analyzed to detect the present of BMAA and, if desired, to determine BMAA levels.
- hair is analyzed to detect the presence of BMAA.
- hair is analyzed to detect the total level (amount) of BMAA in the sample, hi one embodiment, hair is analyzed to detect free BMAA and protein-bound BMAA separately (e.g.
- hair is analyzed to detect only free BMAA.
- hair is analyzed to detect only protein-bound BMAA.
- skin is analyzed to detect BMAA.
- skin is analyzed to detect the total level (amount) of BMAA in the sample.
- skin is analyzed to detect free BMAA and protein-bound BMAA separately (e.g. in separate sample fractions), where the levels of free BMAA and protein-bound BMAA may also be determined.
- skin is analyzed to detect only free BMAA levels.
- skin is analyzed to detect only protein-bound BMAA levels.
- brain tissue is analyzed to detect the presence of BMAA, where brain tissue may be analyzed to determine BMAA levels in the tissue
- samples of cerebrospinal fluid (CSF) are analyzed in vivo or ex vivo to detect the presence of BMAA, where CSF may be analyzed to determine BMAA levels in the fluid.
- Brain or CSF tissue may be analyzed to determine the levels of protein-bound BMAA, free BMAA, or both protein-bound and free BMAA, wherein protein-bound BMAA may be bound to neuroproteins or to other proteins.
- immunoassays, antibodies, and kits are provided for screening for environmental factors associated with neurological disorders by detecting the presence of BMAA in environmental samples. Screening as provided herein includes, but is not limited to, testing environmental samples to determine actual or potential exposure of a subject to a neurotoxic amino acid or neurotoxic derivative thereof associated with neurological disorders.
- An environmental sample may be obtained from material that is ingested, e.g. a water sample or a food sample.
- An environmental sample may be material that is deliberately ingested, e.g., water used for drinking, or plants or animals that are part of the food supply or food chain.
- an environmental sample may be obtained from material that is incidentally ingested, e.g., material from an organism whose contents or secretions become associated with other ingested material, such as cyanobacterial symbionts present in plants used for food, or cyanobacteria in water used for washing or drinking.
- material that is incidentally ingested e.g., material from an organism whose contents or secretions become associated with other ingested material, such as cyanobacterial symbionts present in plants used for food, or cyanobacteria in water used for washing or drinking.
- immunoassays, antibodies, and kits of the present invention are provided to determine (quantitate) BMAA levels in environmental samples, to determine the actual or potential exposure of a subject to BMAA. Measurements of BMAA levels in environmental samples leads to a determination of potential or actual exposure to BMAA, and these measurements can be used to predict the likelihood that neurological disorders will develop in a subject exposed to these environmental samples.
- HPLC analysis of samples from an archive of cyanobacteria showed that nearly all the strains that were tested produced BMAA. Further as disclosed in US Patent No.
- the BMAA found in cycad tissues appears to be produced by cyanobacterial symbionts taken up by the cycads, such that other organisms that feed on cycads, such as human and "flying foxes" (bats), appear to ingest BMAA of cyanobacterial origin.
- an environmental sample is water known to contain cyanobacteria.
- an environmental sample is water suspected of containing cyanobacteria.
- an environmental sample is water whose contents are unknown.
- an environmental sample may be a food animal that ingests cyanobacteria-containing water, e.g., a fish, bird, deer, or domesticated animal.
- an environmental sample may be lichen or moss or liverworts that contain or live in symbiosis with cyanobacteria.
- an environmental sample may be a marine or freshwater alga or a marine or freshwater fungus that contain or live in symbiosis with cyanobacteria.
- an environmental sample may be a marine or freshwater invertebrate that contains or lives in symbiosis with cyanobacteria.
- an environmental sample may be a stromatolite, or a petrochemical deposit, or a mineral deposit left by cyanobacteria.
- an environmental sample may be a food animal that ingests a plant, lichen, moss, alga, marine invertebrate, that contain cyanobacteria or a stromatolite, petrochemical deposit, or mineral deposit left by cyanobacteria, e.g. a reindeer, caribou, deer, moose, marine or freshwater fish, bird, reptile, or domesticated animal.
- cyanobacteria e.g. a reindeer, caribou, deer, moose, marine or freshwater fish, bird, reptile, or domesticated animal.
- an environmental sample is screened to determine if the sample is associated with a neurological disorder, by detecting the presence of cyanobacteria that produce a neurotoxic amino acid, in particular BMAA, in the environmental sample.
- Immunoassays, antibodies, and kits of the invention are performed to detect the presence of cyanobacteria of genera including, but not limited to, Nostoc and Anabena.
- a plurality of environmental samples is tested to determine the presence and levels of neurotoxic amino acids associated with neurological disorders, in particular BMAA, at different levels throughout a food chain.
- biomagnification of factors associated with neurological disorders e.g., BMAA
- BMAA neurotoxic amino acids associated with neurological disorders
- biomagnification of factors associated with neurological disorders can occur by accumulation of a factor in tissues of organisms at different trophic levels, with the result that consumption of an organism from a higher trophic level may give a much higher exposure to a neurotoxin than consumption of an organism from a lower trophic level.
- a plurality of environmental samples is tested in a food chain, including cycad coralloid roots, cycad leaves, cycad seeds, and tissue samples from flying foxes (bats) known to eat cycad seeds.
- a plurality of environmental samples is tested in a food chain, including water, aquatic plants, food animals that ingest the water or aquatic plants, e.g., fish birds, a wild or domesticated animal, and carnivores that ingest plant-eating animals.
- a plurality of environmental samples can be tested to determine whether a factor such as BMAA is found in a particular food chain. After testing a plurality of environmental samples, levels of a neurotoxic amino acid, e.g. BMAA, can be compared and analyzed for evidence of accumulation or biomagnification in the food chain.
- a tissue sample from a subject is also analyzed, in addition to testing environmental samples for a neurotoxic amino acid associated with neurological diseases. Screening at least one tissue sample from a subject provides data useful for determining accumulation or biomagnification of environmental factors (neurotoxic amino acids, in particular BMAA) in a food chain, and correlating levels of these environmental factors (e.g., BMAA) in each step of the food chain with the frequency or severity of neurological disorders in subjects that consume material from various trophic levels of the food chain.
- a tissue sample from a subject with symptoms of, or a diagnosis of, a neurological disorder is analyzed to detect a neurotoxic amino acid associated with neurological diseases, in particular BMAA.
- a tissue sample from a subject asymptomatic for a neurological disorder is analyzed to detect a neurotoxic amino acid associated with neurological diseases, in particular BMAA.
- BMAA neurotoxic amino acid associated with neurological diseases
- U.S. Patent No. 7,256,002 disclosed that elevated BMAA levels were detected in brain tissues of subjects who died of ALS-PDC after known exposure to food sources that were known or suspected to contain BMAA — i.e., the subjects who died of ALS-PDC were Chamorros who had eaten a traditional Chamorro diet at some time in their life, which likely included cycad flour and may have included flying foxes (bats), where measurements of BMAA levels in specimens of flying foxes showed high concentrations of BMAA, leading to the prediction that consumption of a single flying fox would have resulted in a dose of BMAA equivalent to the dose obtained by eating 174 - 1,014 kg of processed cycad flour.
- bats flying foxes
- BMAA levels were detected in one Chamorro subject who was asymptomatic for ALS-PDC and died of other causes, congruent with findings of neurofibrillary tangles in brain tissue of both affected (ALS-PDC) and unaffected (asymptomatic) Chamorros.
- ALS-PDC affected-PDC
- asymptomatic unaffected
- Another aspect of the invention provides methods for detecting environmental contamination by environmental factors associated with neurological disorders.
- U.S. Patent No. 7,256,002 disclosed that elevated BMAA levels were found in brain tissue of non-Chamorro (Canadian) subjects who had suffered from Alzheimers disease and in a non-Chamorro (Canadian) suffering from progressive supranuclear palsy (PSP), indicating that these subjects had been exposed to environmental sources of BMAA at some time in their life.
- PPSP progressive supranuclear palsy
- bioaccumulation of cyanobacterial BMAA may occur through food chains, resulting in accumulation in tissues of subjects.
- environmental screening as provided herein can be carried out to investigate possible environmental sources of BMAA or other environmental factors associated with neurological disorders.
- Environmental screening as provided herein can be carried out to prevent or minimize exposure of other subjects to BMAA or other environmental factors associated with neurological disorders, thereby decreasing the risk of developing a neurological disorder associated with BMAA or other factors.
- immunoassays, antibodies, and kits of the invention can be used to protect a subject from exposure to environmental factors associated with neurological disorders, by screening environmental samples prior to ingestion by the subject, hi one embodiment, immunoassays, antibodies, and kits are provided to test food samples, including plant or animal matter, for BMAA. In another embodiment, immunoassays, antibodies, and kits are provided to test water supplies for BMAA. Kits for environmental screening for BMAA include materials for practicing methods of the invention to test water supplies, food supplies, and other environmental samples, to protect subjects from exposure to BMAA.
- immunoassays, antibodies, and kits of the invention can be used for public health purposes, e.g., to indicate contamination of a water supply or food source with cyanobacteria that produce BMAA. Kits for screening for neurotoxic amino acids
- kits comprising means for performing immunoassays of the present invention.
- the present invention provides a kit for screening a subject having or at risk of having a neurological disorder, wherein the kit includes an immunoassay for determining the presence of BMAA in a tissue sample from the subject.
- the present invention provides a kit for screening environmental samples for environmental factors associated with neurological disorders by determining the presence of BMAA in the sample, wherein the kit includes an immunoassay for determining the presence of BMAA in an environmental sample.
- Kits of the invention may include means for analyzing a plurality of types of samples, e.g. kits may include means for analyzing tissue samples from a subject as well as environmental samples such as water or food samples. Alternately, kits of the invention may only include means for analyzing one or a few types of samples, e.g. a kit may only include means for analyzing keratinous tissue samples such as hair.
- kit may comprise a carrier means compartmentalized to receive one or more container means such as vials, tubes, and the like, each of the container means comprising one of the separate elements to be used in the method.
- container means such as vials, tubes, and the like
- one of the container means may comprise an antibody that binds BMAA, where the constituents may be present in liquid or lyophilized form, as desired.
- the kit may include additional container means comprising separate elements for detecting antibody binding to BMAA. If the antibody that binds BMAA is detectably labelled, then the kit may include one or more additional container means comprising reagents necessary to detect labelled antibody bound to BMAA, as well as any container means required to carry out detection reactions.
- a container means may comprise avidin or streptavidin reporter molecules, and reagents for allowing biotin-avidin or biotin- streptavidin to occur, while another container means may comprise reagents for removing unbound antibody and reporter molecules.
- a kit may include additional container means comprising separate elements for detecting antibody binding to BMAA using a detectably labelled secondary antibody, including the reagents necessary to detect secondary antibody binding to the antibody that binds BMAA.
- the kit may include an addition container means comprising a second antibody labelled with horseradish peroxidase (HRP), in liquid or lyophilized form, as desired.
- Another container means comprises reagents for incubating the secondary antibody with the sample and the antibody that binds BMAA, while another container means comprises reagents for removing unbound antibodies after incubation.
- Another container means comprises reagents for detecting HRP activity, e.g., HRP substrate.
- an additional container means comprising means for visualizing HRP product.
- the sample may be planed into the container means for a particular step, or the contents of the container may be removed for use.
- kits of the invention include all components and reagents necessary to carry out an immunoassay as provided herein, e.g., vessels for manipulating samples and for carrying out reactions, and reagents for inducing an observable or otherwise measurable reaction to determine BMAA in the sample.
- kits may comprise a carrier means compartmentalized to receiver container means comprising all the elements provided with the kits.
- Kits of the invention may also include "control" antibodies, e.g. null serum or an antibody that do not bind BMAA.
- Kits of the invention may include a "positive control” sample known to contain BMAA.
- Kits of the invention may include a "negative control” sample that is known to not contain BMAA.
- Kits of the invention may include a panel of
- Kits may include means for analyzing a plurality of samples, and may include means for performing immunoassays at repeated intervals that may stretch over days, months, or years, e.g., for use in longitudinal studies as described above.
- Kits may further include means for collecting samples.
- Means for collecting a tissue sample from a subject are known in the art, e.g. scissors or clippers to obtain a hair or nail sample, or a device for obtaining a skin sample such as a plastic stick or buccal swab, or a device for obtaining a fluid sample such as a lancet to produce a blood sample or a hollow needle to withdraw CSF.
- Means for collecting environmental samples are also known in the art, e.g., sealable vessels for collecting liquid samples.
- Means for collecting samples may further include means for storing samples, e.g.
- Kits of the invention may include means for sample preparation as described elsewhere.
- the kit may contain means for preparing the tissue sample for analysis, such as means for mechanically disrupting the tissue sample or means for chemically disrupting the tissue sample using, e.g., strong acid, enzyme, detergents, and the like, as described elsewhere in the disclosure.
- Means for sample preparation may include means for treating a sample to yield different fractions, thereby providing means for separately analyzing protein- bound BMAA (e.g. in a protein fraction) and free BMAA (e.g.
- Means for sample preparation may include means for total sample extraction, and may include means for analyzing both protein-bound BMAA and free BMAA in the total sample extract. It is understood that one of skill in the art can prepare a kit suitable for use in any particular immunoassay, the precise physical embodiment of which will depend upon the type of assay contemplated.
- a preferred kit is a mercantile unit prepared for determining the presence of BMAA in a tissue sample from a subject.
- Another preferred kit is a mercantile unit for determining the presence of BMAA in an environmental sample.
- the components of such a kit may include, for example, various diluents and buffers in addition to the antibody or antibodies, microtiter plates, standards, reagents and the like, as described previously.
- This kit may also contain a neurotoxic amino acid conjugate bound to a solid support, or an antibody bound to a solid support.
- the solid support may be a surface such as a microtiter plate, or a material that allows a sample applied to the material to diffuse or be transported along one or more of its dimensions, such as a "dipstick.” or a permeable material wherein neurotoxic amino acids and neurotoxic derivatives thereof bind to antibodies and form detectable complexes while unbound material pass through, such as beads in a column.
- This kit may also contain a labeled antibody or a labeled conjugate of one or more neurotoxic amino acids and neurotoxic derivatives thereof being analyzed.
- a kit includes one or more compositions for use in practicing at least one method of the invention, packaged into suitable packaging material.
- a kit of the present invention includes a label and/or a packaging insert for practicing at least one method of the invention.
- packaging material refers to a physical structure housing the components of the kit.
- the packaging material can maintain the components in a sterile and/or stable condition, and can be made of material commonly used for such purposes (e.g., paper, corrugated fiber, glass, plastic, foil, ampules, etc.).
- label and “packaging insert” refer to appropriate instructions for practicing at least one method of the invention.
- the instructions may be written instructions in one or more languages, schematic instructions represented by drawings, photos, diagrams or the like, recorded oral instructions, instructions encoded on a fixed computer-readable medium, or any other instruction format suitable for conveying instructions for using the kit components to practice at least one method of the invention.
- a kit of the invention includes a label, and/or a packaging insert for detecting the presence of a neurotoxin in a subject or an environmental sample by determining the presence of BMAA or a BMAA derivative.
- a kit includes instructions for treating a subject in vitro, in vivo, or ex vivo, hi additional embodiments, a kit includes a label or packaging insert including instructions for treating a subject in vivo, or ex vivo.
- Instructions can include instructions for practicing immunoassays of the invention as described herein.
- the instructions may be on "printed matter," e.g., on paper or cardboard within the kit, on a label affixed to the kit or packaging material, or attached to a vial or tube containing a component of the kit.
- Instructions may comprise voice or video tape which can optionally be included on a computer readable medium, such as a disk (floppy diskette or hard disk), optical CD such as CD- or DVD-ROM/RAM, magnetic tape, electrical storage media such as RAM and ROM and hybrids of these such as magnetic/optical storage media.
- Invention kits can also include one or more detection means (e.g., detection enzymes and detection enzyme substrates, or other labelling moieties such as biotin and biotin-binding moieties, colloidal gold, fluorophores, dye groups, and the like) for detecting neurotoxic amino acids or derivatives according to the methods of the invention.
- Invention kits can additionally include a buffering agent, a preservative, or a stabilizing agent.
- the kit can further include control components for preparing standard curves and calibrating assays. Each component of the kit can be enclosed within a separate individual container.
- a kit can include a single unit for detecting a neurotoxic amino acid, in particular BMAA, in a subject.
- kits can include multiple units for detecting neurotoxic amino acids in multiple samples.
- a kit can include multiple units for detecting multiple neurotoxic amino acids, in a single sample or in multiple samples.
- Kit components can be in a mixture of one or more containers and all of the various containers can be within single or multiple packages.
- kits in one embodiment, includes one or more compositions for detecting the presence of a neurotoxin in a subject by measuring BMAA or a BMAA derivative in a tissue sample, packaged into suitable packaging material. In another embodiment, a kit includes one or more compositions for detecting the presence of a neurotoxin in an environmental sample by measuring BMAA or a BMAA derivative, packaged into suitable packaging material.
- BMAA molecular weight 118Da
- GLU-BMAA glutaraldehyde
- EDC-BMAA carbodiimide linkers
- GLU-BMAA and EDC-BMAA were each conjugated to keyhole limpet haemocyanin (KLH) or bovine serum albumin (BSA) to produce the following BMAA conjugates: BSA-GLU-BMAA (BGB); BSA-EDC-BMAA (BEB); KLH-EDC-BMAA (KEB); and KLH-GLU-BMAA (KGB).
- glutaraldehyde-coupled BMAA conjugates were prepared as follows. A 5mg/ml solution of BMAA was prepared by adding an equal volume of double strength PBS to a 50 ⁇ l aliquot of BMAA (10mg/ml in water). For KLH-GLU-BMAA (KGB), a solution of KLH was prepared at a concentration of 10 mg/ml in PBS. Forty (40) ⁇ l of BMAA was added to ImI KLH solution (10 mg/ml), followed by addition of 960 ⁇ l PBS. A 0.2% glutaraldehyde solution in PBS (-25% stock) was prepared.
- BGB BSA-GLU-BMAA
- EDC-coupled BMAA conjugates were prepared as follows. Fifty (50) ⁇ l of the BMAA stock (5 mg/ml) was added to a microcentrifuge tube. A solution of EDC (l-ethyl-3- (3-dimethylaminopropyl) carbodiimide hydrochloride at a concentration of 11.1 mg/ml in PBS was prepared, and 450 ⁇ l of the EDC solution was added to the BMAA solution and adjusted to pH 8 using 0.1 M NaOH. The mixture was incubated for 5 minutes at room temperature, and the pH was checked and adjusted with NaOH if necessary.
- KLH-EDC- BMAA For KLH-EDC- BMAA (KEB), one (1) ml of a solution containing the KLH carrier protein at a concentration of 10 mg/ml was added to the EDC-BMAA solution and the mixture was incubated at room temperature for 4 hours. The reaction was stopped by adding sodium acetate (pH 4.2) to a final concentration of 10OmM (for 1.1 M stock, 150 ⁇ l was added). The mixture was incubated at room temperature for 1 hour. The KEB conjugate was separated from other reactants by dialysis against PBS (four changes of 2L overnight). After dialysis, the protein concentration of the solution containing the KLH conjugate was determined and KEB was stored in 500 ⁇ g aliquots at -20 0 C.
- BEB BSA-EDC-BMAA
- the same procedure was used, starting with a 10mg/ml solution of BSA.
- BEB conjugates were separated from other reactants after coupling by dialysis as described above, the protein concentration of the solution containing the BSA conjugate was determined, and BEB was stored in 500 ⁇ g aliquots at -20°C.
- KLH-BMAA conjugates i.e., KLH-EDC-BMAA (KEB) and KLH-GLU-BMAA
- BSA-BMAA conjugates i.e., BSA-EDC-BMAA (BEB) and BSA-GLU-BMAA (BGB), were used for coating immunoassay plates to test antisera and develop immunoassays.
- New Zealand White rabbits were injected with KLH-EDC-BMAA (KEB) or KLH- GLU-BMAA (KGB) in accordance with standard protocols (Metcalf et al., 2000). Briefly, a rabbit received a subcutaneous primary injection of a solution containing BMAA-KLH conjugate (KEB or KGB) and Freund's Complete Adjuvant, and an intravenous booster injection 2 weeks later. Additional antigen booster injections were performed at 1 -month intervals, with serum harvesting (approx. 20 ml blood) at one week after each booster injection. The harvested blood was allowed to clot and stored overnight, prior to separation of serum from red blood cells.
- KB KLH-EDC-BMAA
- KGB KLH- GLU-BMAA
- Isolated serum underwent three (3) ammonium sulphate precipitations prior to dialysis against PBS. Aliquots (100 ⁇ l) of each serum sample, including pre-immune serum ("null serum”), were stored at -20 0 C until required. One rabbit was immunized with KGB, and serum was harvested at eight (8) different time points (8 "bleeds").
- Antibody capture immunoassays similar to those shown to be successful for characterizing antisera raised against microcystins were used to characterize the antisera raised against BMAA conjugates prepared as described above.
- binding of rabbit antibodies was detected using anti-rabbit secondary antibodies labelled with horseradish peroxidase (HRP), and the chromogenic synthetic HRP substrate 3,3',5,5'-tetramethylbenzidine (TMB).
- HRP substrate 3,3',5,5'-tetramethylbenzidine
- the plates were incubated at 37°C for 1 hour before further washing, followed by application of primary antibody (in PBS). After addition of primary antibody and incubation, each plate was washed and goat-anti-rabbit IgG-HRP (Sigma) at a 1/10000 dilution in PBS was added to the wells (lOO ⁇ l per well). The plates were then incubated for 1 hour at 37°C, and then washed. HRP substrate TMB was added to each well (lOO ⁇ l per well) and the plates were allowed to develop for 30 minutes at room temperature. The HRP-TMB reaction was stopped by the addition of lOO ⁇ l IM HCl, and the absorbance at 450nm (A 450 ) of each well was measured to determine the amount of bound antibody in each well.
- BSA-BMAA conjugates were coated on wells of immunoassay plates at various coating concentrations, samples of antisera raised against the BSA-BMAA conjugates prepared by the same method were added to the immunoassay plates ⁇ i.e., antisera raised against BEB was added to BEB-coated wells, and the same pattern for BGB), and antibodies were captured by binding to the BSA-BMAA conjugates coated on the plates, wherein antibody binding was measured using goat-anti-rabbit-IgG-HRP secondary antibodies, TMB substrate, and measurement of A4 50 for each well.
- BMAA-coated wells were also probed using null serum obtained from a rabbit prior to immunization with the BMAA conjugate that was used to coat the wells, where null sera were purified as described above.
- BMAA was bound directly to the surfaces of the wells (i.e. not through BSA or KLH conjugates), and anti-BMAA antibody binding was measured as described above.
- the effect of pH and plate format on antibody capture was measured using solutions having different pH values, and with BMAA directly bound to multi-well plastic plates of various formats known to have different binding characteristics at different pH values.
- BMAA (20 ⁇ g/ml) was dissolved in buffers having different pH values: acetate at pH 4; PBS at pH 7.4; carbonate at pH 9.6.
- BMAA solution was then coated on plates known to have pH-specific binding characteristics: Nunc brand MAXISORPTM, Nunc brand MEDISORPTM, and Nunc brand MULTISORPTM plates (Thermo Fisher Scientific). An aliquot of antiserum raised against a BMAA conjugate, or null serum (pre-immune serum), each at 1/1000 dilution, was then added to each well, in a design that tested each serum sample against each plate format/pH combination.
- null serum pre-immune serum
- the following serum samples were tested for binding to different plates formats at different pH values: two (2) null serum samples from two different rabbits (NSl, NS2); two (2) antisera raised against KLH-EDC-BMAA in different rabbits, where EDCl-I was the first bleed from first BMAA-EDC-immunized rabbit before it died, and EDC2-1 was the first bleed from second BMAA-EDC-immunized rabbit; and four (4) successive "bleeds" of antisera raised against KLH-GLU-BMAA (Glul, Glu2, Glu3, Glu4), taken at monthly intervals from the same rabbit.
- Antisera raised against BMAA conjugates were tested to verify the presence of BMAA-specific antibodies, i.e., to verify the presence of antibodies that react with the BMAA portion of the BMAA conjugates used to induce the immune reaction to produce the antisera.
- antisera raised against KLH-BMAA conjugates were tested for the ability to bind to BSA-BMAA conjugates synthesized using the "opposite" cross-linking chemistry.
- BSA-BMAA conjugates were used to detect BMAA-specific antibodies because it was expected that the rabbit antisera raised against KLH-conjugated immunogens would not have antibodies against BSA.
- each antiserum showed a positive reaction against BSA-BMAA conjugated via the "opposite" cross-linking chemistry. That is, antisera raised against EDC-linked BMAA conjugates (KEB) showed a positive reaction against GLU-linked BSA-BMAA (BGB). Likewise, antisera raised against GLU- linked BMAA conjugates (KGB) showed a positive reaction against EDC-linked BSA- BMAA (BEB).
- each antiserum showed a positive reaction against BSA-BMAA conjugated via the same cross-linking chemistry as the BMAA conjugate that was used to raise the antiserum. It was noted that antisera raised against KGB appeared to react more strongly to EDC-cross-linked samples, compared with antisera raised against KEB reacting to GLU-cross-linked samples.
- the first animal immunized with KEB yielded antiserum (KLH- EDCl-BMAA) that produced a better response than the antiserum of the second animal immunized with this conjugate (KLH-EDC2-BMAA)
- antibody capture immunoassay was carried out generally as described above for plates with BSA-BMAA conjugates bound to the wells, except that free BMAA (unbound and unconjugated) and antisera were added to each well at the same time, such that free BMAA in solution and bound BSA-BMAA conjugates on the wells competed for antibody binding.
- each assay well was coated by addition of 100 ⁇ l of BSA-BMAA (BGB or BEB) in PBS, pH 7.4, and incubation for 1 hour at 37 0 C, using BSA-BMAA concentrations of 2 ⁇ g/ml, 1 ⁇ g/ml, or 0.5 ⁇ g/ml. Wells were then blocked with 1% (w/v) dried milk powder in PBS (Marvel brand, 180 ⁇ l per well).
- Primary antibody solution containing included free BMAA (50 ⁇ l/well L-BMAA, 10 ⁇ g ml “1 in MiIIiQ water) and antiserum against KLH-conjugated BMAA (anti-KEB or anti-KGB, 50 ⁇ l/well diluted in PBS ) was added to each well, using antiserum at dilutions of 1/1000, 1/5000, 1/10000, 1/50000, and 1/1000000 (i.e., 1/lxlO 6 ).
- %Bo value of less than 100 indicated that in the test samples, some of the antibody had bound to free BMAA in solution and the amount of antibody binding to the BSA-BMAA conjugates coated on the wells was thereby reduced. That is, a value of %Bo ⁇ 100 indicated that antibodies in the antiserum had detected and bound free BMAA.
- Preliminary assessments were performed using antiserum raised against KLH-BMAA conjugates and wells coated with BSA-BMAA conjugates having the same cross-linking chemistry and different cross-linking chemistry as the KLH-BMAA conjugate.
- Assays using the same cross-linking chemistry were carried out using: (A) anti-KGB antiserum from bleed 3 (GLU AS) added to wells coated with BGB; and (B) anti-KEB antiserum from EDC rabbit 2, bleed 2 (EDC 2 AS) added to wells coated with BEB.
- Assays using different cross-linking chemistry were carried out using: (A) anti-KGB antiserum from bleed 3 (GLU AS) added to wells coated with BEB; and (B) anti-KEB antisemm from EDC rabbit 2, bleed 2 (EDC 2 AS) added to wells coated with BGB. Free BMAA, antiserum dilutions, coating concentrations, and reaction conditions were as described above.
- Immunoprecipitation using KLH was carried out to remove antibodies against KLH as follows: a 1 ⁇ g aliquot of KLH was added to a stabilized antiserum preparation (antibody solution); the mixture was allowed to react for 30 minutes at 37°C; the mixture was centrifuged and the supernatant was transferred to fresh tubes for the next immunoprecipitation using a fresh 1 ⁇ g aliquot of KLH. At each immunoprecipitation, an aliquot of the antiserum was removed and tested for reactivity against KLH and against BSA- BMAA conjugates.
- KLH-cleaned antiserum was tested for reactivity against free BMAA in solution (1 ⁇ g/ml), using assay wells coated with BSA-BMAA conjugates having the same and different cross-linking chemistries, using the indirect competitive ELISA format to test for reactivity with free BMAA described previously.
- diluted antiserum was tested using free BMAA at l ⁇ g/ml in wells coated with: (1) BSA-BMAA conjugates with the same cross- linking chemistry as the cross-linking chemistry used to conjugate the KLH-BMAA used to raise the antiserum, and (2) BSA-BMAA conjugates of the opposite cross-linking chemistry as the cross-linking chemistry used to conjugate the KLH-BMAA used to raise the antiserum.
- the antisera were tested at dilutions of from 1/1000 to 1/lxlO 6 . Partially purified antisera detected free BMAA, as indicated by %Bo values of 80-100%, compared to controls.
- the partially purified antisera could react with free BMAA, it was further determined that the partially purified antisera had much greater affinity for BMAA conjugates.
- the partially purified antisera showed reactivity against free BMAA, with %Bo values of between 80-100% compared with controls. It was further determined that the partially purified antisera had an affinity for BMAA conjugates greater than the affinity for free (unconjugated) BMAA.
- BMAA is a derivative of alanine, and also has a structure similar to glutamic acid
- experiments were carried out to determine whether antisera raised against BMAA showed reactivity with BSA-alanine and BSA-glutamic acid conjugates.
- BGA BSA-GLU-alanine
- BEA BSA-EDC-alanine
- BGG BSA-GLU-glutamic acid
- BEG BSA-EDC-glutamic acid
- both the "normal" and KLH- cleaned antisera showed reactivity with BSA-alanine and BSA-glutamate conjugates, in addition to the expected reactivity with BSA-BMAA conjugates.
- Both the normal and the KLH-cleaned samples of antisera raised against KGB ⁇ i.e. GLU-linked BMAA) had higher affinity for GLU-linked BMAA conjugates than for GLU-linked alanine or GLU-linked glutamic acid conjugates.
- both normal and KLH-cleaned antisera against KEB ⁇ i.e., EDC-linked BMAA) recognized all three EDC-linked conjugates equally.
- normal and KLH-cleaned antisera raised against KGB were tested for reactivity with free BMAA (1 ⁇ g/ml) in wells coated with BGB, BGA, or BGG.
- Normal and KLH-cleaned antisera against KEB were tested for reactivity with free BMAA (1 ⁇ g/ml) in wells coated with BEB, BEA, and BEG.
- the normal (non-immunoprecipitated) antiserum was able to detect free BMAA in solution, with %B 0 values of between 80% and 100%.
- KLH-cleaned antisera did not perform as well as normal (non-immunoprecipitated) antisera to detect free BMAA in solution, although free BMAA was detected in some assays.
- BSA-BMAA BSA-alanine
- BSA- glutamic acid BSA-alanine conjugates of both cross-linking chemistries
- KLH-cleaned antisera prepared as described above (antiserum raised against KGB, bleed 3, after 15 rounds on immunoprecipitation; antiserum raised against KEB, second EDC rabbit, bleed 2, after 15 rounds of immunoprecipitation with KLH) were then subjected to an additional 14 rounds of immunoprecipitation with BSA-alanine.
- each antiserum was tested for reactivity with BSA-BMAA conjugates, BSA-alanine conjugates, and BSA-glutamic acid conjugates, by adding antiserum to wells coated with the various BSA-amino acid conjugates and measuring antibody binding using the ELISA format described previously.
- Antisera produced as described above were tested using an adaptation of the immunoassay method of Ordronneau et al. (1991), representing an alternative method of coating amino acids and other haptens to microtiter plates for enzyme immunoassays.
- Ordronneau et al. disclosed that previous methods used assay substrates wherein the carrier proteins were coupled to the substrate and the amino acid or hapten was conjugated to the carrier protein, resulting in inconsistencies and difficulties in reproducibility and accuracy.
- GIu immunoassay for glutamate
- Ordronneau et al. was carried out using MAXISORPTM and MULTISORPTM plates coated with BMAA and glutamic acid, and anti-BMAA antisera (anti-KGB, bleed 3) at various dilutions from 1/1000 to 1/100,000, in the presence of BMAA at concentrations from 0 to 1 mM, or in the presence of glutamic acid at concentrations from InM to 1 mM.
- MULTISORPTM plates showed higher absorbance values and better glutaraldehyde binding and subsequent BMAA binding.
- Antiserum raised against KGB was tested for cross-reactivity with BMAA and other amino acids, to test specificity for BMAA. Plates were coated, via glutaraldehyde linking, with BMAA, L-alanine (L-AIa), L-glutamine (L-GIn), L-tyrosine (L-Tyr), glycyl-glycine (glygly), L-glycine (L-GIy), L- leucine (L-leu), L-phenylalanine (L-Phe), gamma-aminobutyric acid (GABA), L-glutamic acid (L-GIu), and L-aspartic acid (L-Asp), at coating concentrations of 0.2 rnM, 0.5 mM, 1 niM and 10 mM.
- L-AIa L-alanine
- L-GIn L-glutamine
- L-Tyr L-tyrosine
- GABA gamma
- anti-KGB antiserum at both dilutions (1/1000 and 1/2000) showed strong recognition of BMAA and little cross-reactivity with the other amino acids tested.
- BMAA recognition by anti-KGB antiserum at 1/1000 dilution ( Figure 3A) increased with BMAA coating concentrations from 0.1 to 10 mM, i.e., signal strength increased with increasing BMAA to bind.
- BMAA recognition by anti-KGB antiserum at 1/2000 dilution (Figure 3B) reached a plateau at 1 mM BMAA coating concentration, indicating that saturation binding had been reached at that concentration.
- anti-KGB antiserum only showed slight reactivity with GABA at 10 mM, and L-aspartic acid at 0.2 mM. It was not determined whether conformational changes in these molecules upon binding to glutaraldehyde affected subsequent recognition by antibodies and further testing of "free" amino acids may be required for confirmation of these findings.
- Example 5 Specificity of anti-BMAA antisera for BMAA from different sources; determination of isomer-specific reactivity
- BMAA one batch from a fresh lot of commercially available BMAA from Sigma (Lot
- BMAA from each of the new batches i.e., the fresh lot of BMAA from Sigma (Sigma-Aldrich, Lot 065K4707), and synthetic BMAA obtained from Peter Nunn (University of Portsmouth, UK ), were carried out using the glutaraldehyde capture (glutaraldehyde-linked antibody capture form as described above), to measure the ability of various antisera to bind various targets such as BMAA from different batches.
- the plate was washed three times with 180 ⁇ l 10OmM Na 2 HPO 4 (pH 8) each wash. An aliquot of lOO ⁇ l of 0.1M ethanolamine prepared in 10OmM Na 2 HPO 4 (pH 8) was added to each well and the plate was incubated at 37°C for 1 hour. The plate was washed three times with 0.05% Tween 20/PB S (PBST) each wash. An aliquot of 180 ⁇ l of 1% "Marvel" brand dry milk power in PBS was added to each well and incubated at 37°C for 1 hour. The plate was washed three times with PBST. Dilutions of primary antibody in PBS were prepared, and lOO ⁇ l of (diluted) primary antibody was added to each well.
- the plate was incubated at 37°C for 1 hour. The plate was washed three times with PBST. For detection, lOO ⁇ l of IgG-HRP (1/10000, Sigma goat- anti-rabbit IgG-HRP) was added to each well and the plate was incubated for 1 hour at 37°C. The plate was washed three times with PBST. For quantitation, HRP synthetic chromogenic substrate TMB was added (lOO ⁇ l per well) and color was allowed to develop for 30 minutes at room temperature. The reaction was stopped by addition of lOO ⁇ l IM H 2 SO 4 and absorbance at 450nm was measured for each well of the plate.
- IgG-HRP 1/10000, Sigma goat- anti-rabbit IgG-HRP
- antiserum raised against KGB anti-KGB antiserum
- bleed 3 KBG3
- KLH-cleaned anti-KGB antiserum at dilutions of 1/1000, 1/2000, 1/4000, 1/8000, 1/16000, and 1/32000, was added to plates with glutaraldehyde-linked BMAA from each of the two new batches of BMAA, at coating concentrations from 1 ⁇ M to 5 mM BMAA, and antibody binding to the plates measured.
- the anti-KGB antisera showed increasing signal strength (reactivity) with increasing BMAA coating concentration, which confirmed that the anti-KGB antiserum contained antibodies specific for BMAA.
- the immunoassay used here had a detection limit of 10 ⁇ M BMAA, and maximal reactivity (maximal absorbance) was measured at a BMAA coating concentration of 0.5mM for both BMAA batches.
- the signal strength (reactivity) of different antiserum dilutions for each BMAA coating concentration was determined for each of the two different batches of BMAA, and correlation coefficients were calculated from a plot of the values from the fresh lot of BMAA from Sigma on jc-axis, against the values from synthetic BMAA from P. Nunn on y-axis.
- BMAA coating concentration was twice as high for the fresh lot of BMAA from Sigma as the signal obtained using the synthetic BMAA from P. Nunn (University of Portsmouth, UK).
- the 1/1000 dilution had a regression line slope of 0.65
- the 1/2000 dilution had a regression line slope of 0.56
- the 1/4000 dilution had a regression line slope of 0.49.
- 097H4746 which was predominantly L-isomer (> 94% L-isomer), preferentially bound to glutaraldehyde-captured L-BMAA isomer, and showed little reactivity with the D-isomer of BMAA. Under these conditions, the antisera bound to L-isomer of BMAA and did not substantially bind the D-isomer of BMAA.
- Both the unpurified "normal” anti- KGB antiserum and the partially purified KLH-cleaned anti-KGB antiserum showed increased binding to BMAA-coated plates with increasing BMAA coating concentrations up to 0.5 mM BMAA. Both dilutions (1/1000 and 1/2000) of unpurified "normal” anti-KGB antiserum showed slight decreases in binding at coating concentrations of about 0.5 mM BMAA. Both dilutions of KLH-cleaned anti-KGB antiserum showed a plateau in binding at coating concentrations between 0.5 mM to 5 mM BMAA, which may have indicated limited antibody accessibility and/or binding saturation at coating concentrations above 0.5 mM BMAA.
- alanine-cleaned anti-KEB antiserum at dilutions of 1/1000 and 1/2000, showed no detectable binding to BMAA (i.e. to BMAA-coated plates) at any coating concentration from 1 ⁇ M to 5 mM BMAA.
- Unpurified "normal" anti-KGB antiserum (bleed 3) was tested to determine its ability to bind free BMAA, using the glutaraldehyde-capture immunoassay described above, modified for an indirect competitive binding assay. Test wells were coated with glutaraldehyde-linked BMAA coating concentrations of 50 ⁇ M, 200 ⁇ M, 500 ⁇ M, 1 mM, and
- %Bo value was calculated as described above to determine the reactivity of antisera with free BMAA.
- antisera were able to detect (react with) free BMAA (i.e., %Bo ⁇ 100) in the majority of assays.
- the results showed a general trend in which the %Bo value appeared to decrease with increasing BMAA coating concentration, or with increasing antiserum concentration (lower antiserum dilution).
- the largest %Bo value measured was 56%, indicating a 44% reduction in antibody binding to the BMAA coated on the wells, due to antibody binding to free BMAA.
- Example 6 Amplification systems for detecting anti-BMAA antibody binding
- antisera raised against BMAA conjugates included antibodies that have apparent isomer-specific reactivity with L-BMAA and little cross-reactivity with other amino acids, wherein the antiserum could be used to detect free BMAA at a concentration of approximately 500 ⁇ M (59 ⁇ g ml-1).
- Experiments as described below were carried out to evaluate various amplification systems for their ability to improve the signal and detectability of free BMAA without the requirement for further purification of the antisera.
- Immunoassay sensitivity was increased by using a VECTASTAINTM ABC-Peroxidase kit (VECTASTAINTM ABC Elite kit for rabbit IgG, Cat. No. PK-6101, Vector Laboratories, Burlingame CA) to generate a horseradish peroxidase (HRP) detection complex with a higher number of detection enzymes, resulting in greater color development (stronger signal) upon addition of substrate, and a higher absorbance value compared to standard assay using HRP-coupled IgG (IgG-HRP).
- VECTASTAINTM ABC-Peroxidase kit VECTASTAINTM ABC Elite kit for rabbit IgG, Cat. No. PK-6101, Vector Laboratories, Burlingame CA
- HRP-coupled IgG IgG-HRP
- VECTASTAINTM By using the VECTASTAINTM system with increasing BMAA coating concentrations in an antibody capture immunoassay, measurement of a significantly stronger (increased) signal was possible, as compared with the signal measured with a standard IgG-HRP as described in experiments above. However, the background signal was also significantly enhanced by the VECTASTAINTM system, necessitating the development of appropriate controls to be used when assessing antisera.
- the VECTASTAINTM system was used in a glutaraldehyde-linked antibody capture assay as described above, in an indirect competitive assay format, to measure the effect of different glutaraldehyde concentrations, different free BMAA concentrations, and different antiserum dilutions, on the ability of unpurified normal anti-KGB antiserum to detect free BMAA.
- the two glutaraldehyde concentrations tested for effects on BMAA coating were 0.2% glutaraldehyde and 0.5% glutaraldehyde.
- Wells were coated with BMAA, through a glutaraldehyde linkage, using BMAA coating solutions of 100 rnM, 50 mm, and 20 mM BMAA.
- Antiserum raised against KGB, third bleed (KGB 3) was used at concentrations of 1/8000, 1/16000, and 1/20000.
- Free BMAA was added to wells at concentrations of 1 ⁇ g/ml and 10 ⁇ g/ml; controls wells had no free BMAA added.
- antiserum at 1/8000 was tested for reactivity with both levels of free BMAA, i.e. the experiment included antiserum at 1/8000 incubated with 1 ⁇ g/ml free BMAA and antiserum at 1/8000 incubated with 10 ⁇ g/ml free BMAA.
- Antiserum at 1/16000 dilution and 1/20000 dilution were only incubated with 10 ⁇ g/ml free BMAA.
- VECTASTAINTM amplification system was used as described above, to amplify the results. %Bo values were calculated with and without correcting for blanks.
- the assay showed that free BMAA at concentrations of 1 ⁇ g/ml and 10 ⁇ g/ml could be detected by the immunoassay, both before and after correcting %Bo values for blanks.
- Biotin-avidin amplification in combination with VECTASTAIN is one of the highest affinity reactions known, and biotinylated probes can be quickly and specifically attached to enzymes or solid phases using avidin systems.
- Biotinylated BMAA probes were produced as described below, and used in combination with the avidin- HRP complex from the VECTASTAINTM kit, in an attempt to improve the sensitivity and specificity of the BMAA immunoassay. Reactivity of biotin-BMAA with anti-BMAA antisera using direct ELISA
- Biotinylated BMAA was tested using an ELISA design in which the wells were coated with antiserum at various dilutions, various amounts of biotinylated BMAA was added to the wells, and the binding of biotinylated BMAA to immobilized antibody was measured. Because the purpose of the assay was to determine whether biotin-BMAA conjugates were feasible for use in a BMAA immunoassay, and to determine whether biotinylated BMAA would bind to antisera raised against BMAA conjugates, the ELISA was a straightforward antibody binding assay, and no free BMAA was used.
- biotin- BMAA probe at various dilutions was added to the antiserum-coated wells, and biotin- BMAA binding to immobilized antibody in each well was measured using avidin conjugated to a chromogenic marker, e.g. HRP.
- Biotinylated BMAA was prepared as follows. A solution of BMAA at a concentration of 1.18mg/ml in PBS was prepared. A biotin (with linker) solution was prepared using sufficient EZ-link Sulfo-NHS-LC-LC -biotin to prepare a solution of 6.99 mg ml "1 in PBS. For mixing and labelling, 1 ml of BMAA was mixed with ImI biotin solution, and the components were allowed to react at room temperature before being used in ELISA. A IM stock solution of BMAA-biotin (biotinylated BMAA) was prepared, and dilutions were made on a volume basis.
- anti-KEB antiserum sixth bleed from the second rabbit immunized with KEB (EDC6, sixth bleed from rabbit KLH-EDC2-BMAA); anti-KGB antiserum, ninth bleed (GLU9).
- Each antiserum represented a single harvest (a single "bleed") and was subjected to an initial partial purification by ammonium sulphate precipitation.
- Antisera were diluted to 1/1000, 1/5000, and 1/10000 in PBS before being used in ELISA as described below.
- BMAA-binding to immobilized antibodies showed a strong signal-dose response, where the signal strength decreased (A 45 o indicating antibody binding to BMAA- biotin probes) decreased as the "dose" of BMAA-biotin probe decreased.
- Both antisera anti- KEB and anti-KGB at all dilutions (1/1000, 1/5000, and 1/10000) showed the same signal- dose pattern of decreasing signal strength with decreasing BMAA-biotin (i.e. increasing BMAA-biotin dilution).
- Different detection probes single (unamplified) avidin-HRP probes.
- different commercially available single (unamplified) HRP-avidin probes were used to detect BMAA-biotin probes bound to immobilized antibodies from anti-KGB antiserum, as an alternative to using the VECTASTAINTM HRP-avidin complex.
- ELISA was carried out as described above. Briefly, anti-KGB antiserum (bleed 9, see above), was coated on assay plates at a dilution of 1/1000, and biotin-BMAA at dilutions of from 1/100 (0.0 IM) to 1/100000 (0.00001M) as above, was added to wells.
- HRP-avidin probe at 1/1000 dilution, i.e., the highest concentration of HRP-avidin probe.
- Assay wells were coated with biotin-BMAA at different dilutions, and commercially available single HRP-avidin probes at different dilutions, were used in an indirect competitive ELISA format to detect reactivity of anti-KGB and anti-KEB antisera with free BMAA at a concentration of 5 ⁇ g/ml. Both anti-KGB and anti-KEB antisera showed reactivity with 5 ⁇ g/ml free BMAA, as demonstrated by measured values of %Bo ⁇ 100, with the strongest reaction seen with anti-KGB antisera having a %Bo value as low as 78%.
- BMAA may be associated with peptides and proteins in various ways, including physical attachment to or association with the surface of peptides, and/or incorporation of BMAA into polypeptide chains.
- antisera raised against KLH-BMAA conjugates anti-KGB and anti-KEB antisera
- anti-KGB and anti-KEB antisera were capable of recognizing BMAA-BSA conjugates. Therefore, anti-KGB and anti-KEB antisera were used to probe Western blots of BSA and various BSA-BMAA conjugates. The following samples were subjected to SDS gel electrophoresis and were transferred to a membrane for Western blot (immunoblot) analysis: BSA-GLU-BMAA (BGB), BSA-EDC-
- BMAA (BEB), and unconjugated BSA (native protein).
- results from immunoblots using antisera raised against KLH-conjugated BMAA to probe blots of BSA-BMAA conjugates showed promising indications for detection of BMAA chemically bound (conjugated) to the surface of large molecular weight proteins (e.g. BSA) on immunoblots.
- BSA large molecular weight proteins
- Proteins were loaded on a polyacrylamide gel (lO ⁇ g protein per lane) and subjected to electrophoresis through a 4% stacking gel followed by a 12% separating gel, at 200V for approximately 40 minutes, using a BioRad Mini-PROTEAN® II (BioRad, Hercules CA). Proteins were transferred from polyacrylamide gels to nitrocellulose membranes overnight at room temperature (BioRad Mini Trans-Blot® , BioRad, Hercules CA) as follows. Transfer buffer (3.03g Tris, 14.4g glycine, 200ml methanol; made up to IL with water) was prepared and stored at 4°C.
- nitrocellulose membrane was cut to fit the dimensions of the gel from which proteins were to be transferred. All components were pre- wetted and equilibrated prior to transfer by soaking the gel(s), nitrocellulose membranes, filter paper, and fiber pads in transfer buffer.
- the "sandwich” was prepared by opening the holder cassette with the outer (grey) side on a clean surface, placing a pre-wetted fiber pad on the grey side of the cassette, placing a sheet of filter paper on the fiber pad, placing the equilibrated gel on the filter paper, taking care to remove bubbles, placing the pre-wetted nitrocellulose membrane on the gel, taking care to remove air bubbles, placing filter paper on the nitrocellulose membrane, adding the last fiber pad, and closing the holder cassette.
- membranes were removed from the transfer unit (or, removed from Ponceau S de-staining solution if appropriate), and incubated in 0.1% dry milk powder (Marvel brand)/PBST for 1 hour. Membranes were then washed three times, for 5 minutes per wash (3 x 5) with PBST. As needed, nitrocellulose membranes were cut into strips corresponding to sample lanes. Membranes were incubated with primary antibody at various dilutions for 2h, and then washed three times, for 5 minutes per wash (3 x 5) with PBST.
- anti-KGB antiserum, bleed 9 (GLU 9 AS) and anti-KEB antiserum, second EDC rabbit, bleed 6 (EDC6 AS), at dilutions of 1/100, 1/200, and 1/500 were used as primary antibodies.
- membranes were incubated with IgG-HRP (1:250) for 2 hours, and then washed three times, for 5 minutes per wash (3 x 5) with PBST.
- Peroxidase substrate was prepared by mixing a solution of 15mg 4-chloronapthol in 5ml cold methanol, and a solution of 15 ⁇ l H 2 O 2 in 25ml PBS.
- chromogenic peroxidase substrate was prepared by mixing the two solutions together and applying them to washed membranes. The reaction was monitored as bands were allowed to develop (usually approximately 5-10 minutes). Further development was stopped by addition of water. Membranes (whole membranes and/or strips) were then blotted dry The results from Ponceau S staining of nitrocellulose membranes to visualize all the transferred BSA-containing proteins on a membrane, were compared with immunoblot (Western blot) results showing antibody binding to the transferred proteins on same membrane. Results from Western blots showed similarities and differences with the Ponceau blots.
- the BGB conjugate showed antibody staining that was consistent with the Ponceau staining previously observed for the sample, where BGB samples showed intense staining of bands at positions corresponding to 191, 85 and 7OkDa ( Figure 4, Lane 1 of Blots A, B, and C).
- Figure 4 Lane 1 of Blots A, B, and C.
- the lack of reactivity with the native BSA controls indicates that the reactivity of the anti-KGB antiserum was specific for BMAA and/or the GLU cross-linker, and was not a non-specific reactivity with BSA.
- Example 8 Immunoblot analysis of cyanobacterial protein preparation from Cylindrospermopsis raciborskii strain CR3
- Cylindrospermopsis raciborskii strain CR3 was harvested from mass culture at the University of Dundee and prepared as follows. A sample of 175ml of late log phase culture of the filamentous cyanobacterium was removed and the gas vacuoles were collapsed by mechanical shock (banging full centrifuge tubes on the bench).
- the filaments were centrifuged for 10 minutes at 3500rpm (Heraeus Labofuge 400). The supernatant was removed and the pellets were resuspended and transferred to 1.5ml microcentrifuge tubes for further centrifugation at 4000 rpm (2.5 minutes, Eppendorf centrifuge 5415D). The supernatant was again removed and the pellets were resuspended in 5OmM Tris buffer at pH 7.5 to a final volume of ImI. The suspension was ultrasonicated on ice for approximately 1 minute to disrupt cells and release proteins.
- the suspension was again centrifuged and the protein concentration of the supernatant was analyzed using a dye-binding protein reagent (Sigma) and measuring absorbance at 595nm (Bradford, 1976, Anal Biochem 72:248-254).
- the supernatant was then modified by addition of EDTA to a final concentration of ImM and glycerol to a concentration of 10% (v/v).
- Anti-KGB antiserum reacted with proteins having molecular weights ranging from 10 to 120 kDa.
- Anti-KEB antiserum reacted with protein having molecular weights ranging from 21 to 196kDa.
- Pre- incubating ("spiking") the CR3 protein preparation with free BMAA had no detectable effect on antiserum reactivity (Lane 3, all blots). These results indicated that the CR3 cyanobacterial protein preparation contained proteins with epitopes that are recognized by anti-BMAA antisera.
- Anti-KGB antiserum (KGB9) was used as a primary antibody at dilutions of 1/200,
- Anti-KEB antiserum EDC6
- EDC6 Anti-KEB antiserum
- Null serum (NS) collected from a rabbit prior to immunization was used as a primary antibody at a dilution of 1/200.
- Anti-KEB antiserum at 1/200 dilution showed reactivity with BSA in a region corresponding to a molecular weight of between about 54 and 66 kDa.
- Anti-KGB antiserum showed strong reactivity with CR3 proteins in a region corresponding to an average molecular weight of about 50 kDa.
- Null serum also showed reactivity with CR3 proteins in the same region, corresponding to an average molecular weight of about 50 kDa.
- the NS reacted with a band of between 50 and 6OkDa (Lanes 2, 12).
- null serum (NS) was used as a control indicator for Western blots, such that the color development reaction was stopped when bands begin to appear in the membrane incubated with the null serum (NS) control. That is, when bands begin to appear in the sample probed with NS, the color development reaction is stopped because it is understood that specific reactions have probably reached completion and any further color development is probably due to nonspecific reactions.
- anti-KEB antisera appeared to react with a greater variety of CR3 protein bands, and the bands were more defined than the anti-KGB-reactive proteins, it was decided that anti-KEB antisera would be used at more dilutions than anti-KGB antiserum in the analyses described below. Furthermore, because the use of more concentrated antiserum solutions (e.g., dilutions of 1/100) appeared to result in increased non-specific binding, lower concentrations (higher dilutions) of primary antibody were used in the analyses described below, to improve the likelihood of specific detection of BMAA-containing proteins.
- Protein extracts were prepared from additional cyanobacterial strains for immunoblot analysis using anti-KGB and anti-KEB antisera, in order to compare protein profiles and antiserum reactivity.
- Total protein extracts were prepared from Microcystis strain PCC7820,
- Cylindrospermopsis raciborskii strain CR3 (“CR3") were included in the analysis for comparison and as positive controls. Samples from each strain were loaded (29 ⁇ g protein/lane) on a gel for SDS-PAGE, and the gel composition (e.g. 4% stacking, 12% separating), running conditions, transfer conditions and immunoblot conditions were as described above. SDS-PAGE gels were stained for protein using Coomassie stain to show the protein profile for each cyanobacterial protein preparation.
- Blots of the four cyanobacterial protein extracts were probed with anti-KEB antiserum and anti-KGB antiserum to determine whether antisera raised against BMAA conjugates would react with proteins in these extracts, and to indirectly explore whether any specific cyanobacterial proteins appeared to be BMAA-associated. Blots of the four cyanobacterial protein extracts were also probed with null serum (NS) to test for non-specific reactivity. Staining patterns and results from protein stains and immunoblots were compared.
- NS null serum
- cyanobacteria showed strain-specific differences in reactivity of anti-BMAA antisera (see above), other organisms were assessed by immunoblot analysis to ascertain their potential reactivity with the anti-BMAA antisera.
- Commercially available supplements of baker's yeast (Saccharomyces cerevisiae) and "green algae” (Chlorella sp.) dietary supplements were tested for their reactivity with the anti-BMAA antisera by immunoblotting. Protein preparations from Chlorella dietary supplements reacted strongly with the anti- BMAA antisera and the baker's yeast (Saccharomyces cerevisiae) preparations showed slight reactivity.
- Anti-KEB antiserum (EDC 6 AS) at 1/500 dilution, labelled bands in the CR3 sample corresponding to proteins having molecular weights of about 124, 89, 59 and 35kDa ( Figure 7, Lane 6) and at 1/1000 dilution, anti-KEB antiserum labelled bands in the CR3 corresponding to proteins having molecular weights of about 121, 94, 79 kDa ( Figure 7, Lane 12).
- Anti-KEB antiserum at 1/500 showed strong labelling of bands in the E.
- null serum labelled bands corresponding to proteins having molecular weights of about 91, 13 and 12kDa ( Figure 7, Lane 3).
- ha Tetraselmis null serum labelled a band corresponding to a protein having a molecular weight of about 10 kDa ( Figure 7, Lane 5).
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KR101413580B1 (en) | 2012-10-19 | 2014-07-02 | 원광대학교산학협력단 | Motor neuron disease diagnostic strip and kit |
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CA2730015A1 (en) | 2010-02-04 |
AU2009276946B2 (en) | 2015-04-09 |
EP2313776B1 (en) | 2013-10-30 |
JP6293583B2 (en) | 2018-03-14 |
EP2677319A1 (en) | 2013-12-25 |
JP2014159489A (en) | 2014-09-04 |
DK2313776T3 (en) | 2014-01-27 |
AU2009276946A1 (en) | 2010-02-04 |
JP5832287B2 (en) | 2015-12-16 |
DK2677319T3 (en) | 2016-03-07 |
IL210382A (en) | 2014-11-30 |
EP2677319B1 (en) | 2015-12-30 |
US20110223624A1 (en) | 2011-09-15 |
US8603753B2 (en) | 2013-12-10 |
EP2313776A1 (en) | 2011-04-27 |
IL210382A0 (en) | 2011-03-31 |
JP2011527757A (en) | 2011-11-04 |
JP6660103B2 (en) | 2020-03-04 |
EP2313776A4 (en) | 2011-09-21 |
CA2730015C (en) | 2018-05-01 |
JP2015145884A (en) | 2015-08-13 |
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