Immunoassays are bioanalytical methods based on antibodies. These include ELISA, EIA, RIA, Western blotting, protein arrays, lateral flow assays, more
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Immunoassays are bioanalytical methods based on antibodies. These include ELISA, EIA, RIA, Western blotting, protein arrays, lateral flow assays (immuno-chromatography), immunohistochemistry or immuno-PCR. Antibodies detect the substances (analytes) in immunoassays. This detection is always highly specific and only the analytes are detected and bound. This is the theory! Practically any antibody not only binds its analyte. It also binds several other substances, but with very different affinities. Additionally antibodies can be bound or masked by several substances derived from biological specimen. They can also be cross-linked by some substances. Heterophilic antibodies like human anti mouse antibodies (HAMAs) are probably the best known example of such cross-linkers. But also rheumatoid factors are cross-linkers, which occur regularly in patient’s samples. Not only antibodies, but also analytes can be bound by other molecules and therefore masked. This masking can avoid binding by the antibodies. The c-reactive protein (CRP), which occurs sometimes in quite high concentrations, is only one example for such masking molecules. Such masking molecules are not only known in human diagnostics, but also in nearly any kind of complex biological matrix even in animal derived or vegetable specimen. Not only human diagnostics, but also veterinary diagnostics, medical, biological and pharmaceutical research, toxicological testing or even food diagnostics are affected negatively by those effects. Therefore we want to show a short overview of different groups of interferences as well as a widely working approach to solve those problems. Examples show the successful use of the modern assay diluent LowCross-Buffer® for avoiding interferences caused by heterophilic antibodies, HAMAs, rheumatoid factors but also by unknown or unclear problems. Reliability of results and precision of immunoassays can be enhanced significantly. Levels of detection can be optimized.
Fig. 1 shows schematically different reasons for interferences like matrix effects, cross-reactivities and others. A more detailed explanation can be found in a translated article, originally published in the German lab techniques magazine LABORWELT. This translated article can be found on www.candor-bioscience.de for downloading. Here you can find a detailed legend for fig. 1.
Some kinds of interferences are explained in brief:
Interferences caused by labels for immunoassays
Labeling of detector antibodies with enzymes like horse radish peroxidase (HRP) or alkaline phosphatase (AP), labeling with biotinylation, with DNA (for use in immuno-PCR) or with dyes like fluorescence dyes can lead to interference effects. Labeling can change the binding characteristics of antibodies. This is noted especially with high label-rates (many labeling molecules per one antibody molecule). But also the labels themselves can bind each other, can bind antibodies or sometimes can bind unspecifically parts of the specimen or matrix. Especially fluorescence dyes are well-known for their hydrophobic interactions leading to agglutination of antibodies. Those unwanted binding effects worsen assay performance.
Interference caused by cross-reactivies and non-specific binding
Cross-reactivity means that the antibody binds other molecules than the wanted analyte. This binding shows in many cases lower affinity than the binding to the analyte. But even this is part of the signal of the assay and falsifies results of measurements. Cross-reactivities of secondary antibodies are extraordinary unpleasant. Some secondary antibodies can cross-react with antibodies of different species and show sometimes high affinities of these cross-reactions. Only using pre-adsorbed secondaries can solve this problem.
Non-specific binding and cross-reactivities cause similar effects on assay results. Non-specific binding only affects the assay, if higher concentrations of those non-specific binders are present. Non-specific binding to surfaces like plastics of ELISA plates is well-known. This can be blocked optimally by modern consistently cleaved casein based blockers (e.g. The Blocking Solution of CANDOR Bioscience). But also albumins, immunoglobulins or generally all substances in specimen, which are present in solution in medium to high concentrations, can show non-specific binding. Those solved substances in high concentration can bind non-specifically analytes or assay antibodies and therefore falsify results. Non-specific binding of substances in solutions cannot be avoided by surface-blockers.
Matrix effects are the sum of all interferences of the components of a specimen, which can affect the measurement of a targeted analyte. If the molecular reason for assay imprecision is not known, but it can be associated with the composition of the sample, then it is simply called a matrix effect. Unclear interferences can be called matrix effects. They can be effects of anti-animal-antibodies, heterophilic antibodies, endogenous interferers and also influences of viscosity, pH-value or salt concentrations.
Interference of anti-animal-antibodies
Human anti-animal-antibodies (HAAA) can be of the IgG, IgA, IgM or IgE type. They are part of the humoral response on the contact with immunoglobulins of animal origin. HAAA’s are important interferers of many diagnostical immunoassays. Some clinical studies have shown up to 80% of all patient’s samples contained such HAAA’s in concentrations of up to some milligram per milliliter. There is a high sequence homology between antibodies of different species. Therefore HAMAs can affect even assays, which don’t use mouse antibodies, but assay antibodies of different species. The same kind of cross-linking of assay antibodies is reported from heterophilic antibodies and also from so-called rheumatoid factors. The frequency of those problems in diagnostics increases significantly during the last years due to rising numbers of patients with autoimmunity, rheumatoid or allergic disorders. Additionally the therapeutic use of antibodies especially in oncology boosts the frequency of this kind of interference in diagnostics. Some of those oncology mAB drugs are blockbusters and therefore numbers of patients are quite high. The need for facing this problem of cross-linkers is nowadays much more important for manufacturers of immunodiagnostics than several years ago. Until now most producers use the so-called HAMA-blockers. But that means, that biological active substances are added to the tests – enhancing the risk of negative effects. And the HAMA-blocker are solely effective against HAMAs and show less effectiveness to other cross-linkers. The modern antibody diluent LowCross-Buffer® can not only minimise negative effects of heterophilic antibodies, but also the negative effects of other cross-linkers like rheumatoid factors and others. It is used effectively as assay buffer, as antibody diluent or even as sample buffer or sample preparation buffer.
Interference by endogenous components of samples
Even naturally occuring proteins in specimen can interfere with immunoassays. Well-known interferers in human sera are albumins, complement, lysozyme, fibrinogen or proteins like c-reactive protein or alpha-1-antitrypsin. Especially analytes of low molecular weight can bind to albumins. In that case some antibodies cannot bind any longer their analytes. Many hormones are bound to specific transport proteins for hormones and therefore they are not free for binding of assay antibodies. Many other proteins bind other proteins or substances due to their fundamental biological function. Albumins, complement factors and CRP are natural receptors for many substances. Therefore – similar to the situation with antibodies – non-specific binding and cross-reactivities occur, which sometimes can affect the detection of analytes in assays. Endogenous proteins can either bind and mask the assay antibodies or even mask the target analyte. For example lysozymes bind non-specifically proteins with a low isoelectric point. Therefore antibodies which have an isoelectric point of about 5 can be bound and build a bridge formation between capture and detector antibody. An important aspect, which should be mentioned, is the interference by strongly lipid containing specimen. Some analytes are fat-soluble and as the case may be the binding between antibody and analyte can be affected by lipids.
The Hook effect
The Hook effect leads to false negative determinations. Unlike other interference effects, it does not arise from interactions with interfering factors. A Hook effect can appear in assays, where the specimen is mixed directly with the assay antibodies and the analyte appears in very high concentration. When the concentration of the analyte exceeds the concentration of the assay antibodies, capture and detector antibodies can be saturated. Thus high concentrations simulate far lower concentration in the assay and lead to a significant underestimation of the true concentration in the assay. The Hook effect can be avoided in practice by using higher concentrations of the assay antibodies or by dilution of the specimen. Alternatively a systematic dilution of the test has to assure, that the measured value is not subjected to a Hook effect. Known clinical parameters, which can be subjected to a Hook effect, are for example CRP, AFP, CA 125, PSA, Ferritin, Prolactin and TSH.
Prevention of interference by LowCross-Buffer
The reasons for the described interference effects are similar. There are unwanted low up to medium affinity interactions of the interfering factors with the assay antibodies or the analytes. These interference effects have something in common which the newly developed LowCross-Buffer® makes use of: The interference reaction is weaker than the specific binding of the real analytes to the assay antibodies. LowCross-Buffer® was developed to eliminate weak and medium affinity binding without affecting negatively high affinity binding with high specificity in any way. Figures 2 to 4 show examples of typical interferences which can be prevented by using LowCross-Buffer®.
Figure 2 shows an ELISA against immunoglobulins from guinea pig (data kindly provided by Dr. C. Specht, PARA Bioscience, Gronau), which is used for immune toxicological studies with guinea pig. False positives in specifity control (row of A1-A12) as well as in the blank values (H1-H12) spoiled the interpretation and evaluation. The use of LowCross-Buffer® prevented the false positive signals and moreover made the detection of the concentration possible in the rows of B to G 1-6 or B to G 7-12. Details can be found in the article of LABORWELT mentioned above.
Fig. 3 shows in a precision profile the significant enhancement of reliability of results. The precision profile of an ELISA is shown which detects a protein from blood specimen for using in pharmaceutical reserach. This ELISA was validated according to FDA Guidance for Industry: Bioanalytical Method Validation. The required precision over the whole measurement range could only be achieved by using LowCross-Buffer®.
Fig. 4 shows prevention of interference derived from HAMAs and rheumatoid factors. The effectiveness of LowCross-Buffer® towards HAMA and RF derived interferences has been quantified in a CE-certified ELISA (HAMA-ELISA, medac, Germany) using commercial HAMA and RF positive human blood samples (in.vent diagnostica, Germany and Scantibodies, USA). The complete available panels were evaluated. Representative results obtained with and without LowCross-Buffer® are shown. LowCross Buffer® reduced interferences in all HAMA and RF positive samples to background levels (< 40 ng/ml according to HAMA-ELISA manual).
At current state of the technological development many interference effects can be minimized and LowCross-Buffer® makes an essential contribution to this. It is new that different interference effects with different molecular principles can be minimized with the same strategy. The above-mentioned results show a section of different interference effects in different methods, which could be minimized or avoided with LowCross-Buffer®. Furthermore LowCross-Buffer® could prevent interference effects by HAMAs and rheumatoid factors, nonspecific bindings in immunohistochemical applications as well as false positive results in immuno-PCR. Altogether the time consuming and expensive effort for optimisation strategies can be reduced and simplified significantly. Improvements in reliability are reached simultaneously. HAMA blocker can be substituted. LowCross-Buffer® is used in several preclinical and clinical studies as well as for production of diagnostics with enhanced reliability.
Detector conjugates have to be stored at 4°C for long time periods for use in ELISA kits and similar products. Therefore CANDOR has combined its new stabilization technology for HRP conjugates together with the LowCross-effect in the new product LowCross-HRP®. This combination in one solution enables kits with so far unknown reliability and at the same time outstanding long-term stability for several years. Safe and stable long-term storage of conjugates at 4°C is even possible, when they are stored directly in extremely low end-user concentrations – saving pre-dilution steps.
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