In situ antigen localization with fluorescamine-conjugated antibodies: a new method.

A simple and rapid procedure for the preparation of fluorescent antibodies with fluorescamine is described. The major advantage of the method is that labeled antibody requires no further purification following conjugation. The utility of the method is illustrated by fluorescent staining of virus-specific cytoplasmic and nuclear antigens, those of vesicular stomatitis virus and adenovirus, respectively. The intensity of fluorescence permits short photographic exposure times, and the stained preparations have retained their fluorescence for more than 9 months.     

Ultrabright fluorescein-labeled antibodies near silver metallic surfaces

Fluorescein-labeled antibodies are widely used in clinical assays and fluorescence microscopy. The fluorescent signal per labeled antibody is limited by fluorescein self-quenching, which occurs when the antibody is heavily labeled with multiple fluoresceins. We examined immunoglobulin G (IgG) when labeled with 0.7 to about 30 fluoresceins per antibody molecule. The extent of self-quenching was decreased, and the signal increased, when the labeled antibody was in close proximity to metallic silver particles. Time-resolved measurements showed that the intensity increase was due in part to a silver-induced increase in the radiative decay rate. These results suggest the use of labeled antibodies conjugated to silver particles as ultrabright probes for imaging or analytical applications.     

MUC1 Selectively Targets Human Pancreatic Cancer in Orthotopic Nude Mouse Models

The goal of this study was to determine whether MUC1 antibody conjugated with a fluorophore could be used to visualize pancreatic cancer. Anti-MUC1 (CT2) antibody was conjugated with 550 nm or 650 nm fluorophores. Nude mouse were used to make subcutaneous and orthotopic models of pancreatic cancer. Western blot and flow cytometric analysis confirmed the expression of MUC1 in human pancreatic cancer cell lines including BxPC-3 and Panc-1. Immunocytochemistry with fluorophore conjugated anti-MUC1 antibody demonstrated fluorescent areas on the membrane of Panc-1 cancer cells. After injecting the conjugated anti-MUC1 antibodies via the tail vein, subcutaneously transplanted Panc-1 and BxPC-3 tumors emitted strong fluorescent signals. In the subcutaneous tumor models, the fluorescent signal from the conjugated anti-MUC1 antibody was noted around the margin of the tumor and space between the cells. The conjugated anti-MUC1 antibody bound the tumor in orthotopically-transplanted Panc-1 and BxPC-3 models enabling the tumors to be imaged. This study showed that fluorophore conjugated anti-MUC1 antibodies could visualize pancreatic tumors in vitro and in vivo and may help to improve the diagnosis and treatment of pancreatic cancer.     

Development of a quantitative diagnostic method of estrogen receptor expression levels by immunohistochemistry using organic fluorescent material-assembled nanoparticles

The detection of estrogen receptors (ERs) by immunohistochemistry (IHC) using 3,3′-diaminobenzidine (DAB) is slightly weak as a prognostic marker, but it is essential to the application of endocrine therapy, such as antiestrogen tamoxifen-based therapy. IHC using DAB is a poor quantitative method because horseradish peroxidase (HRP) activity depends on reaction time, temperature and substrate concentration. However, IHC using fluorescent material provides an effective method to quantitatively use IHC because the signal intensity is proportional to the intensity of the photon excitation energy. However, the high level of autofluorescence has impeded the development of quantitative IHC using fluorescence. We developed organic fluorescent material (tetramethylrhodamine)-assembled nanoparticles for IHC. Tissue autofluorescence is comparable to the fluorescence intensity of quantum dots, which are the most representative fluorescent nanoparticles. The fluorescent intensity of our novel nanoparticles was 10.2-fold greater than quantum dots, and they did not bind non-specifically to breast cancer tissues due to the polyethylene glycol chain that coated their surfaces. Therefore, the fluorescent intensity of our nanoparticles significantly exceeded autofluorescence, which produced a significantly higher signal-to-noise ratio on IHC-imaged cancer tissues than previous methods. Moreover, immunostaining data from our nanoparticle fluorescent IHC and IHC with DAB were compared in the same region of adjacent tissues sections to quantitatively examine the two methods. The results demonstrated that our nanoparticle staining analyzed a wide range of ER expression levels with higher accuracy and quantitative sensitivity than DAB staining. This enhancement in the diagnostic accuracy and sensitivity for ERs using our immunostaining method will improve the prediction of responses to therapies that target ERs and progesterone receptors that are induced by a downstream ER signal.     

Simultaneous localization of myosin and tubulin in human tissue culture cells by double antibody staining

We have studied the distribution of myosin and tubulin molecules inside the same tissue culture cells by using two antibodies labeled with contrasting fluorochromes. Antimyosin raised against human platelet myosin was labeled with rhodamine. Antitubulin raised against sea urchin vinblastine-induced tubulin crystals was labeled with fluorescein. The two antibodies stained entirely different structures inside the same flat interphase cell: antimyosin bound to stress fibers and antitubulin bound to thin, wavy fibers thought to be individual microtubules. Compact interphase cells stained diffusely with both antibodies. From prophase through early anaphase both antibodies stained the mitotic spindle, although the fluorescence contrast between the spindle and the cytoplasm was much higher with antitubulin than with antimyosin. From anaphase through telophase, strong antimyosin staining occurred in the cleavage furrow, while antitubulin stained the region between the separated chromosomes. This study established the feasibility of high-resolution fluorescent antibody localization of pairs of motility proteins in the cytoplasm of single cells, an approach which will make it possible to map out the sites of the various contractile protein interactions in situ.     

Single laser three color immunofluorescence staining procedures based on energy transfer between phycoerythrin and cyanine 5.

Monoclonal antibodies specific for phycoerythrin (PE) were covalently labeled with the fluorescent dye cyanine 5 (Cy5). Excitation at 488 nm of immune complexes obtained by mixing Cy5-anti-PE with PE resulted in a 4-fold reduction of PE fluorescence measured at 565 nm and an increase of fluorescence measured at 655 nm. The observed energy transfer between PE and Cy5-anti-PE was used to develop three color immunofluorescence staining procedures for flow cytometers equipped with an Argon laser tuned at 488 nm. Mouse IgG1 monoclonal antibodies specific for cell surface antigens were cross-linked with either unlabeled or Cy5 labeled mouse IgG1 anti-PE using F(ab')2 fragments of monoclonal rat anti-mouse IgG1. PE was added to these immune complexes in sufficient amounts to saturate all PE binding sites. Cells were incubated with PE-labeled and PE/Cy5-labeled tetrameric antibody complexes together with FITC labeled antibodies and analyzed by flow cytometry. The emission from FITC, PE and PE/Cy5 could be readily separated and bright three color immunofluorescence staining of mononuclear cells from human peripheral blood and bone marrow was observed. The results of these experiments demonstrate that useful probes for single laser three color staining of cell surface antigens can be readily obtained by mixing of selected reagents. Compared to standard procedures for the covalent labeling of PE (tandem) molecules to antibodies, the non-covalent procedures described in this report provide significant advantages in terms of the amount of reagents, time and equipment required to obtain suitable reagents for three color immunofluorescence staining.     

The application of anti‐ESAT‐6 monoclonal antibody fluorescent probe in ex vivo near‐infrared fluorescence imaging in mice with pulmonary tuberculosis

Here, we aimed to assess the feasibility of anti‐ESAT‐6 monoclonal antibody (mAb) coupling with IR783 and rhodamine fluorescent probe in the detection of ESAT‐6 expression in tuberculosis tissue of mice using near‐infrared fluorescence imaging. IR783 and rhodamine were conjugated to the anti‐ESAT‐6 mAb or IgG. Mice in the experimental group were injected with fluorescence‐labeled mAb probe, and mice in the control group were injected with fluorescence‐labeled non‐specific IgG antibody. Twenty‐four hours later, the lung tissue of mice was examined using ex vivo near‐infrared fluorescence imaging. In addition, the contrast‐to‐noise ratio (CNR) was calculated by measuring the signal intensities of the pulmonary lesions, normal lung tissue and background noise. The frozen lung tissue section was examined under fluorescence microscopy and compared with hemoxylin and eosin (HE) staining. The ex vivo near‐infrared fluorescence imaging showed that the fluorescence signal in the lung tuberculosis lesions in the experimental group was significantly enhanced, whereas there was only a weak fluorescence signal or even no fluorescence signal in the control group. CNR values were 64.40 ± 7.02 (n = 6) and 8.75 ± 3.87 (n = 6), respectively (t = 17.01, p < 0.001). The fluorescence accumulation distribution detected under fluorescence microscopy was consistent with HE staining of the tuberculosis region. In conclusion, anti‐ESAT‐6 mAb fluorescent probe could target and be applied in specific ex vivo imaging of mice tuberculosis, and may be of further use in tuberculosis in living mice. Copyright © 2013 John Wiley & Sons, Ltd.     

Immunohistochemical studies on electron transport proteins associated with cytochromes P-450 in steroidogenic tissues. II. Microsomal NADPH-cytochrome c reductase in the rat adrenal.

NADPH-cytochrome c reductase (NADPH : ferricytochrome oxido-reductase, EC 1.6.2.4), the flavoprotein which mediates the NADPH-dependent reduction of cytochromes P-450 in adrenocortical microsomes, has been localized immunohistochemically at the light microscopic level in rat adrenal glands. Localization was achieved through the use of sheep antiserum produced against purified, trypsin-solubilized rat hepatic microsomal NADPH-cytochrome c reductase in both an unlabeled antibody peroxidase-antiperoxidase technique and an indirect fluorescent antibody method. The sheep antibody to rat hepatic microsomal NADPH-cytochrome c reductase concomitantly inhibited the NADPH-cytochrome c reductase and progesterone 21-hydroxylase activities catalyzed by isolated rat adrenal microsomes. When sections of rat adrenal glands were exposed to the reductase antiserum in both immunohistochemical procedures, positive staining for NADPH-cytochrome c reductase was observed in parenchymal cells of the three cortical zones but not in medullary chromaffin cells. The intensity of staining, however, was found to differ among the three cortical zones, with the most intense staining being found in the zona fasciculata and the least in the zona glomerulosa. The intensity of staining was also found to differ among cells within the zona fasciculata. These immunohistochemical observations demonstrate that microsomal NADPH-cytochrome c reductase is not distributed uniformly throughout the rat adrenal cortex.     

Nonradiative Interactions between Biotin-Functionalized Gold Nanoparticles and Fluorophore-Labeled Antibiotin

The interaction between antibodies and ligand-functionalized nanoparticles were exploited in this work by taking advantage of the strong influence that metallic surfaces have on emission of fluorescence. The surface of colloidal gold nanoparticles was functionalized with biotin moieties embedded in a nonfouling matrix of di(ethylene glycol) groups to minimize nonspecific interactions. Antibiotin labeled with fluorophore Alexa™ 488 bound to these particles via specific biomolecular recognition interactions. Upon binding of the labeled antibody to the biotinylated nanoparticles, an immediate decrease in emission of fluorescence was observed. Competitive dissociation of the antibody from the nanoparticles with soluble biotin produced a recovery in the intensity of emission of fluorescence. For large concentrations of the antibody, emission of fluorescence (corrected for dilution and absorption/scattering effects) appeared to increase to levels higher than the intensity of emission of the unbound antibody. This apparent increase is ascribed to a decreased extinction coefficient produced during aggregation of the nanoparticles by the bivalent antibodies. This scheme could have applications in detection of small molecules or could be used to study the interactions of ligand functionalized nanoparticles and proteins.     

Antibodies immobilized as arrays to profile protein post-translational modifications in mammalian cells

Previously, we demonstrated that antibodies printed on a solid support were able to detect protein-protein interaction in mammalian cells. Here we further developed the antibody array system for detecting proteins with various post-translational modifications in mammalian cells. In this novel approach, immunoprecipitated proteins were labeled with fluorescent dye followed by incubation over antibody arrays. Targeted proteins, captured by the antibodies immobilized on PVDF membrane or glass slide, were detected by means of near infrared fluorescent scanner or fluorescent microscopy. To demonstrate the application of the antibody arrays in protein post-translational modifications, we profiled protein tyrosine phosphorylation, ubiquitination, and acetylation in mammalian cells under different conditions. Our results indicate that antibody array technology can provide a powerful means of profiling a large number of proteins with different post-translational modifications in cells.     

5—HT能纤维向猫脊髓膈神经核及延髓膈肌前运动神经元的投射

实验在6只成年猫上进行,将WGA－HRP微量注入C5膈神经核内,通过逆行追踪及5－HT免疫组织化学FITC荧光双重标记方法,研究了中缝核5－HT能神经元向脊髓膈神经核的投射,同时观察了延髓膈肌产运动神经元接受5－HT能纤维投射的情况,结果在中缝苍白核观察到较多的HRP－5－HT双标记神经元,在中缝大核,中缝隐核观察到少数散在的双标记神经元,在延髓疑核,孤束核腹外侧区域的HRP单核记神经元（即膈肌前运动神经元）周围观察到5－HT能轴突末梢,结构表明：发自中缝苍白核5－HT能神经元的传出纤维可投射到脊髓膈神经核,延髓膈肌前运动神经元接受5－HT能纤维的传入投射。     

Peptides, antibodies, and FRET on beads in flow cytometry: A model system using fluoresceinated and biotinylated beta-endorphin.

BACKGROUND: Particulate surfaces such as beads are routinely used as platforms for molecular assembly for fundamental and practical applications in flow cytometry. Molecular assembly is transduced as the direct analysis of fluorescence, or as a result of fluorescence resonance energy transfer. Binding of fluorescent ligands to beads sometimes alters their emission yield relative to the unbound ligands. Characterizing the physical basis of factors that regulate the fluorescence yield of bound fluorophores (on beads) is a necessary step toward their rational use as mediators of numerous fluorescence based applications. METHODS: We have examined the binding between two biotinylated and fluoresceinated beta-endorphin peptides and commercial streptavidin beads using flow cytometric analysis. We have analyzed the assembly between a specific monoclonal antibody and an endorphin peptide in solution using resonance energy transfer and compared the results on beads in flow cytometry using steady-state and time-resolved fluorescence. RESULTS: We have defined conditions for binding biotinylated and fluoresceinated endorphin peptides to beads. These measurements suggest that the peptide structure can influence both the intensity of fluorescence and the mode of peptide binding on the bead surface. We have defined conditions for binding antibody to the bead using biotinylated protein A. We compared and contrasted the interactions between the fluoresceinated endorphin peptide and the rhodamine- labeled antibody. In solution we measure a K(d) of <38 nM by resonance energy transfer and on beads 22 nM. DISCUSSION: Some issues important to the modular assembly of a fluorescence resonance energy transfer (FRET) based sensing scheme have been resolved. The affinity of peptides used herein is a function of their solubility in water, and the emission intensity of the bound species depends on the separation distance between the fluorescein and the biotin moiety. This is due to the quasi-specific quenching interaction between the fluorescein and a proximal binding pocket of streptavidin. Detection of antibodies in solution and on beads either by FRET or capture of fluorescent ligands by dark antibodies subsequently enables the determination of K(d) values, which indicate agreement between solution and flow cytometric determinations.     

抗体滴定在血液细胞流式细胞术中的应用

流式细胞术（flow cytometry）可以实现高速、逐一的细胞定量分析和分选，是研究和诊断血液病的重要手段之一。但是由于不同实验所用细胞和实验条件不同，经常存在抗原阴性细胞非特异染色等问题。利用抗体滴定法，可通过计算、比较染色指数，得到使抗原阳性细胞群和阴性细胞群达到最佳分离效果的实验条件。为了优化血液细胞流式细胞术中荧光抗体染色的实验条件，以小鼠骨髓细胞为被标记细胞，选择利用非串联荧光染料FITC标记的大鼠抗小鼠CD11b抗体（FITC Rat Anti-Mouse CD11b）和串联荧光染料APC-eFluor780标记的大鼠抗小鼠CD11b抗体（APC-eFluor780 Rat Anti-Mouse CD11b）进行标记。通过计算不同浓度抗体标记小鼠骨髓细胞的染色指数进行抗体滴定，确定合适的抗体浓度区间，进而分析细胞数量、染色时间及固定步骤对抗体染色指数的影响，探究影响血液细胞抗体染色的关键因素。结果显示，FITC Rat Anti-Mouse CD11b和APC-eFluor780 Rat Anti-Mouse CD11b的浓度分别在0.156~2.500 μg·mL-1和0.25~1.00 μg·mL-1范围内染色指数较高，但是超出这个范围的抗体浓度会使染色指数降低；抗体浓度、染色时间一定时，FITC Rat Anti-Mouse CD11b和APC-eFluor780 Rat Anti-Mouse CD11b分别在细胞数量为1.56×105~5.00×106 cells·管-1和1.56×105~3.12×105 cells·管-1范围内染色指数较高，但是超出这个范围的细胞数量会使染色指数降低；抗体浓度、细胞数量一定时，对于FITC Rat Anti-Mouse CD11b，随着染色时间的延长，染色指数降低，而APC-eFluor780 Rat Anti-Mouse CD11b与之相反；通过比较固定前后染色指数的高低发现，FITC Rat Anti-Mouse CD11b和APC-eFluor780 Rat Anti-Mouse CD11b在固定后染色指数均显著下降（P<0.01和P<0.05）。研究结果提供了一种通过抗体滴定优化流式分析血液细胞的方法，并指出在特定实验中根据抗体滴定结果选择合适的抗体浓度、细胞数量、染色时间和固定步骤对标记血液细胞进行流式检测的研究至关重要。     

Fluorescein and tetramethyl rhodamine as haptens in enzyme immunohistochemistry

Summary Fluorescein (Fl) and tetramethyl rhodamine (Rh) were evaluated as possible candidates for a double hapten sandwich system in enzyme immunohistology. Monoclonal antibodies were raised against Fl and Rh. Their fine-specificity was tested with a competition-like assay. A pair of Mab's was selected for immunohistology in which they functioned as a bridge between Fl/Rh conjugated antibodies and Fl/Rh labeled peroxidase and alkaline phosphatase, respectively. The binding of fluorescein labeled antibodies could be successfully demonstrated in histological slides. A large variability in the efficacy of staining was observed in the case of rhodamine labeled antibodies. The phenomenon is explained by assuming that tetramethyl rhodamine isothiocyanate reacts preferentially with lysine residues near to, or embedded in, hydrophobic regions in a protein. This condition may reduce the accessibility of the Rh moiety for anti-Rh antibodies.Abbreviations AEC 3-amino-9-ethylcarbazole - AP Alkaline phosphatase - BSA Bovine serum albumin - CGG Chicken gamma globulin - c-IF Cytoplasmic immunofluorescence - DAB 3,3-Diamino benzidine HCl - ELISA Enzyme linked immunosorbent assay - Fl Fluorescein - F/P ratio Number of fluorochrome molecules per molecule of protein - Ig Immunoglobulin - Mab Monoclonal antibody - OPD Ortho-phenylenediamine-dihydrochloride - PBS Phosphate buffered saline - PBS-T PBS with 0.2% Tween-20 - PO Peroxidase - RAM/PO Peroxidase labeled rabbit antiserum directed against mouse immunoglobulins - Rh Tetramethyl rhodamine - RT Room temperature In honour of Prof. P. van Duijn     

KF核及Btzinger复合体内GABA能神经元向膈神经核的投射

实验在 6只成年猫上进行。将WGA HRP微量注入C5膈神经核内 ,通过逆行追踪及GABA免疫组织化学FITC荧光双重标记方法 ,研究了脑干内GABA能神经元向膈神经核的投射。结果在脑桥KF核和面神经后核周围区 (即B¨otzinger复合体 )观察到GABA HRP双标神经元。另外 ,在中缝大核、旁巨细胞外侧核及前庭神经核也观察到双标神经元。本实验结果表明 :发自上述脑干神经核团 ,特别是KF核及B¨otzinger复合体的GABA能神经元的轴突可投射到膈神经核     

Bromobimanes — fluorescent labeling agents for histochemical detection of sulfur containing neuropeptides in semithin sections

Summary Sulfur containing neuropeptides could be demonstrated in semithin sections of invertebrate nervous tissue, especially of gastropods, by using the bromobimanes as fluorescent labeling agents for thiol groups. Semithin sections showed a brilliant fluorescence of labeled peptides and should be used if an excellent resolution is important. The three bromobimanes (MB: monobromobimane, DB: dibromobimane, MQ: monobromotrimethylammoniobimane) gave positive results under our experimental conditions. Dibromobimane (DB) was selected because the application is more convenient.In gastropods, the bromobimane technique seems to be the most specific and sensitive one compared to the classical neurosecretory staining methods. Neuropeptides with sulfur containing amino acids could be demonstrated in perikarya, axons, and axon swellings easily. We suppose that there are neurons—not stainable by the classical methods—which can be identified as peptidergic ones by the bromobimane technique.A slight reduction of fluorescence intensity (fading) was observed. So, the fading rate was determined for dibromobimane reaction products; a decrease in the fluorescence intensity of 50% was only reached after 1 h using a Neofluar objective 10/0.30. Nevertheless, we suppose that a comparative quantification of the labeled neuropeptides should be possible if special parameters are considered.     

Dual enhancement of double immunofluorescent signals by CARD: participation of ubiquitin during formation of neurofibrillary tangles

Amplification with catalyzed reporter deposition (CARD) greatly enhances peroxidase signals, which has been utilized to amplify immunohistochemical labelings including fluorochromes. Here we describe a strategy to amplify each of two immunofluorescent signals without crosstalk on double-stained histological sections from human autopsied brains with Alzheimer's disease (AD). One of the two primary antibodies (anti-Abeta or anti-PHF-tau) was probed by a species-specific secondary antibody conjugated with horseradish peroxidase (HRP), which was visualized by FITC-labeled tyramide. After inactivation of HRP, the other primary antibody was probed by another species-specific secondary antibody conjugated with HRP. Amplification with biotinylated tyramide was followed by streptavidin-conjugated Cy-5, which specifically labeled the latter epitope. It was found that Abeta and PHF-tau were localized to senile plaques and neurofibrillary tangles (NFTs), respectively, which verified lack of crosstalk on the double-stained section. Localization of ubiquitin and PHF-tau was looked for at higher magnification in NFT-bearing neurons. Although these two epitopes were colocalized in some neurons, ubiquitin was not always present in PHF-tau positive NFTs. Discrepancy between PFH-tau and ubiquitin, verified inter- and intracellularly, may represent different stages of NFT formation. This is the first report of successful CARD amplification of two different fluorescent signals on double-labeling immunohistochemistry, which is now proved to be powerful in detecting epitopes in relation to AD-related lesions. Improved intensity over tenfold of the two fluorescent signals without crosstalk will expand the application of the multilabeling method with fluorochromes.     

Development and characterization of an antibody directed to an α-N-acetyl-D-galactosamine glycosylated MUC2 peptide

In an attempt to raise anti-Tn antibodies, an -N-acetyl-D-galactosamine glycosylated peptide based on the tandem repeat of the intestinal mucin MUC2 was used as an immunogen. The MUC2 peptide (PTTTPISTTTMVTPTPTPTC) was glycosylated in vitro using concentrated -N-acetylgalactosaminyltransferases activity from porcine submaxillary glands which resulted in the incorporation of 8–9 mol of Ga/NAc. Rabbits and mice developed specific anti-MUC2-GalNAc glycopeptide antibodies and no detectable anti-Tn antibodies. Anti-glycopeptide antibodies did not show reactivity with the unglycosylated MUC2 peptide or with other GalNAc glycosylated peptides. A mouse monoclonal antibody (PMH1) representative of the observed immune response was generated and its immunohistological reactivity analysed in normal tissues. PMH1 reacted similarly to other anti-MUC2 peptide antibodies. However, in some cells the staining was not restricted to the supranuclear area but extended to the entire cytoplasm. In addition, PMH1 reacted with purified colonic mucin by Western blot analysis suggesting that PMH1 reacted with some glycoforms of MUC2. The present work presents a useful approach for development of anti-mucin antibodies directed to different glycoforms of individual mucins.     

Fluorescent Citrine-IgG fusion proteins produced in mammalian cells

Genetically encoded fluorescent antibodies are desirable for many applications in biotechnology, proteomics, microscopy, cell biology and molecular diagnostics, although efficient production of fluorescent IgGs in mammalian cells has been hampered by different and mutually incompatible secretion- and folding-requirements of antibodies and green fluorescent protein-derived fluorescent entities. Here, we show that this hurdle can be overcome by generating whole antibody fusions with Citrine, a modified yellow fluorescent protein that folds properly in the endoplasmic reticulum of mammalian cells. Applying optimized connector sequences, one or more Citrine molecules can be fused to different positions of IgGs without interfering with folding, secretion or function of the fusion proteins. These proteins can be transiently expressed and purified to similar yields as unmodified antibodies using standard technologies. IgG-Citrine fusions fully retain binding specificity and affinity and can be applied to assays that require labeled IgG. A particularly interesting feature is the pH-dependency of Citrine fluorescence. This makes IgG-Citrine fusion proteins a valuable tool to track antibody target binding, internalization and subsequent intracellular trafficking to acidic compartments.Key words: antibody, antibody-fusion protein, Citrine, eGFP, fluorobodies, fluorescent antibodies, FACS, immunofluorescence, DIG, IGF-1 receptor     

Development of an offline noncompetitive flow immunoassay for the determination of interleukin-8 in cell samples

A noncompetitive flow immunoassay system (FIA) for the analysis of interleukin-8 (IL-8) in cell samples was developed. Affinity interaction assays based on offline incubation of excess labeled antibodies and antigen (IL-8) were carried out. The residual unbound labeled antibody was trapped in an immunoaffinity column with immobilized IL-8 while the immunocomplex, labeled antibody/IL-8, was detected by a fluorescence detector. Two fluorophores, FLUOS and Cy5.5, were conjugated with IL-8 antibody. Optimization and comparison between the two fluorescent labeled antibodies were performed with regard to pH, antibody concentration, flow rate, injection volume, and association time. Additionally, a horseradish peroxidase enzyme label was used for the conjugation to the anti-IL-8. The enzyme substrate reaction was optimized with respect to temperature and length of the substrate reaction coil. The detection limits were found to be 200 amol using the FLUOS-labeled anti-IL-8 and 1 fmol using the Cy5.5 fluorescence label. The developed FIA technique was applied for the analysis of IL-8 in cell samples. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry was used to identify IL-8 in the cell samples.