Difference between mitogen-stimulated B and T cells in nonspecific binding of R-phycoerythrin-conjugated antibodies.

Nonspecific binding of conjugated antibodies represents a critical step which could significantly influence the results of immunostaining or flow cytometry. In this respect, various staining procedures and distinct cell types can alter the results obtained with different fluorochromes. In this study, we analysed nonspecific binding of R-phycoerythrin (R-PE)-conjugated antibodies to mouse mitogen-stimulated B and T lymphocytes. The cells were fixed, permeabilized and stained using isotype control antibodies conjugated with different fluorochromes and assessed by flow cytometry. R-PE-conjugated antibodies bound to LPS-stimulated B cells, in contrast to Con A-stimulated T cells, independently of their specificity. The percentage of R-PE positive B cells varied, according to the used antibodies or the fixation/permeabilization kit. Nevertheless, up to 30% of R-PE+ B cells after staining with R-PE-conjugated isotype control antibodies was detected. Furthermore, LPS-stimulated B cells bound nonspecifically, in a dose-dependent manner, unconjugated R-PE molecules. Con A-stimulated T cells slightly bound R-PE only in high concentrations. Similarly, the antibodies conjugated with other fluorochromes showed less than 1% of nonspecific binding independently of the manufacturer of antibodies or fixation/permeabilization kits. The data demonstrated that LPS-stimulated B cells, in contrast to Con A-stimulated T cells, bind R-PE nonspecifically following formaldehyde or paraformaldehyde fixation. Therefore, the results based on the use of R-PE-conjugated antibodies should be taken with a precaution.

Getting on target: Development of the novel, prozone-resistant, dual antibody rapid test (DART) for the LABScreen single antigen bead (SAB) assay.

A major limitation of the single antigen bead (SAB) assay is the so called prozone effect, whereby the detection of high titer complement fixing HLA antibodies is compromised due to complement split product (from C3 and C4 components) deposition and interference with the reporter anti-IgG-PE antibody binding. Strategies to minimize prozone include serum titration or treatment with heat, dithiotreitol (DTT), or ethylenediaminetetraacetic acid (EDTA). While effective, these treatments may compromise HLA antibody binding and detection. Here we describe the Dual Antibody Rapid Test (DART), a modified version of the rapid optimized SAB (ROB) protocol, in which we use an IgG-PE/C3d-PE antibody cocktail to simultaneously detect bead bound IgG and C3d, which allows for detection of HLA antibodies independent of the prozone effect. Twenty prozone positive sera (10 class I and 10 class II), identified by titration, were tested by the ROB protocol, with or without EDTA pre-treatment, using three reporter antibody cocktails: (1) IgG-PE, (2) C3d-PE, or (3) IgG-PE/C3d-PE (DART). Mean fluorescence intensity (MFI) values were then compared. IgG negative (n = 735) vs IgG positive (n = 1185) reactions were identified using a 1000 MFI IgG EDTA cutoff. IgG positive reactions were classified based on ΔMFI (IgG EDTA - IgG) as follows: (1) prozone negative (ΔMFI < 3000; n = 737), (2) slight prozone (ΔMFI 3001-5000; n = 49), (3) moderate prozone (ΔMFI 5001-10,000; n = 93), and (4) marked prozone (ΔMFI > 10,001; n = 306). No C3d deposition was present on IgG negative beads, and the majority of prozone positive specificities (438/448; 98%) fixed complement and were detected with the C3d-PE reporter. Interestingly, C3d-PE MFI was directly proportional to the degree of prozone (mean C3d-PE MFI = 4419.5 ±â€¯1606.3 for slight, 5991.0 ±â€¯2302.7 for moderate, and 12,417.4 ±â€¯2969.9 for marked prozone specificities). Interestingly, EDTA treatment was found to have a negative impact on MFI of up to 15% of prozone negative specificities. Importantly, the DART protocol detected all prozone positive specificities while MFI for prozone negative specificities correlated well with those seen with the IgG-PE reporter alone (R2 = 0.97). In conclusion, the DART protocol accurately detects HLA antibodies independent of the prozone effect. Implementation of DART is an easy way to overcome the prozone effect without compromising HLA antibody detection.

The ABCs (DRDQDPs) of the prozone effect in single antigen bead HLA antibody testing: Lessons from our highly sensitized patients.

Accurate identification of HLA antibodies using the single antigen bead (SAB) assay is critical for assessment of pre/post-transplant immunological risk and successful virtual crossmatching. Unfortunately, high titer HLA antibodies can be missed or underestimated in the SAB assay as a result of interference with the detection of IgG. This so called prozone effect has been attributed to both complement- and IgM-dependent mechanisms and can be minimized with serum dilution or treatment with heat, EDTA, or DTT. In this study we describe the frequency, nature, and degree of prozone in a cohort of highly sensitized patients (cPRA ≥ 95%), in whom accurate detection of HLA antibodies and virtual crossmatching is of paramount importance. Sera were tested by the SAB assay ±â€¯EDTA treatment, ±1:10 dilution to identify the prozone effect. The relative contribution of complement vs IgM to prozone was assessed using anti-C3d and anti-IgM reporter antibodies, respectively. We found that prozone was very frequent in highly sensitized patients (80%), especially those with a history of previous transplantation (87%). Class I HLA specificities were more commonly affected than class II and the susceptibility to prozone was locus dependent with HLA-A(31%), -B(29%) and -DQ(26%) being affected more frequently than HLA-DP(17%), -C(16%) and -DR(5%) antigens. Interestingly, the presence of prozone could be predicted by C3d positivity (MFI ≥ 4000; sensitivity = 95.2%, specificity = 97.2%) and the degree of prozone correlated directly with the extent of C3d deposition. The role of IgM was less clear. However, serum dilution studies suggested that IgM may contribute to interference in a small subset of prozone positive specificities. Our study underscores the importance of serum treatment to inhibit complement activation and minimize prozone in the SAB assay, especially in highly sensitized patients.

The HIV-1 envelope protein gp120 is captured and displayed for B cell recognition by SIGN-R1(+) lymph node macrophages.

The HIV-1 envelope protein gp120 is both the target of neutralizing antibodies and a major focus of vaccine efforts; however how it is delivered to B cells to elicit an antibody response is unknown. Here, we show that following local gp120 injection lymph node (LN) SIGN-R1(+) sinus macrophages located in interfollicular pockets and underlying SIGN-R1(+) macrophages form a cellular network that rapidly captures gp120 from the afferent lymph. In contrast, two other antigens, phycoerythrin and hen egg lysozyme, were not captured by these cells. Intravital imaging of mouse LNs revealed persistent, but transient interactions between gp120 bearing interfollicular network cells and both trafficking and LN follicle resident gp120 specific B cells. The gp120 specific, but not the control B cells repetitively extracted gp120 from the network cells. Our findings reveal a specialized LN antigen delivery system poised to deliver gp120 and likely other pathogen derived glycoproteins to B cells.

Dielectrophoretic immobilisation of antibodies on microelectrode arrays.

A silicon based chip device with a regular array of more than 100,000 cylindrical sub-microelectrodes has been developed for the dielectrophoretic (DEP) manipulation of nanoparticles and molecules in solution. It was fabricated by a standard CMOS (complementary metal oxide semiconductor) compatible process. The distribution of the electrical field gradient was calculated to predict the applicability of the setup. Heating due to field application was determined microscopically using a temperature sensitive fluorescent dye. Depending on voltage and frequency, temperature increase was found to be compatible with protein function. Successful field controlled immobilisation of biomolecules from solution was demonstrated with the autofluorescent protein R-phycoerythrin (RPE) and with fluorescently labelled IgG antibodies. Biological activity after DEP application was proven by immobilisation of an anti-RPE antibody and subsequent binding of RPE. These results demonstrate that the developed chip system allows the directed immobilisation of proteins onto microelectrodes by dielectrophoresis without the need for any chemical modification and that protein function is preserved. Being based on standard lithographical methods, further miniaturisation and on-chip integration of electronics towards a multiparameter single cell analysis system appear near at hand.

R-phycoerythrin-conjugated antibodies are inappropriate for intracellular staining of murine plasma cells.

Phycoerythrin (PE) is a type of phycobiliproteins found in cyanobacteria and red algae. PE-conjugated antibodies are broadly used for flow cytometry and immunofluorescence microscopy. Because nonspecific binding of antibodies results in decreased analytic accuracy, numerous efforts have been made to unveil cases and mechanisms of nonspecific bindings. However, nonspecific binding of specific cell types by a fluorescent dye-conjugated form of antibody has been rarely reported. In the present study, we discovered that PE-conjugated antibodies, but not FITC- or APC-antibodies, selectively stained lamina propria plasma cells (LP-PCs) from the murine small intestine after membrane permeabilization. We demonstrated that LP-PC-selective staining with PE-antibodies was not due to interactions of antibody-epitope or antibody-Fc receptor. This unexpected staining by PE-antibody was not dependent on the mouse strain of LP-PCs, experimental methods, or origin species of the antibody, but dependent on PE itself. This phenomenon was also observed in plasma cells isolated from bone marrow, spleen, and mesenteric lymph nodes. Furthermore, in vitro activated B cells and in vivo generated LP-PCs were also selectively stained by PE-conjugated antibodies. Taken together, these results show that PE-conjugated antibodies are inappropriate for intracellular staining of murine plasma cells.

γδ T cells recognize a microbial encoded B cell antigen to initiate a rapid antigen-specific interleukin-17 response.

γδ T cells contribute uniquely to immune competence. Nevertheless, how they function remains an enigma. It is unclear what most γδ T cells recognize, what is required for them to mount an immune response, and how the γδ T cell response is integrated into host immune defense. Here, we report that a noted B cell antigen, the algae protein phycoerythrin (PE), is a murine and human γδ T cell antigen. Employing this specificity, we demonstrated that antigen recognition activated naive γδ T cells to make interleukin-17 and respond to cytokine signals that perpetuate the response. High frequencies of antigen-specific γδ T cells in naive animals and their ability to mount effector response without extensive clonal expansion allow γδ T cells to initiate a swift, substantial response. These results underscore the adaptability of lymphocyte antigen receptors and suggest an antigen-driven rapid response in protective immunity prior to the maturation of classical adaptive immunity.

A preliminary investigation of the relationship between circulating tumor cells and cancer stem cells in patients with breast cancer.

In this study, we explored the relationship between the circulating tumor cells (CTC) and the CTC-cancer stem cells (CSC) in the patients with breast cancer. The magnetic-activated cell separation (MACS) method and flow cytometry (FCM) for selection of epithelial cells from the peripheral blood mononuclear cells (PBMC) were used to analyze the enriched epithelial cells that were labeled with anti-cytokeratin(CK)-fluorescein isothiocyanate, anti-CD44-phycoerythrin (PE) and anti-CD24-PE, respectively. The CK+ cells were attributed to CTC and the CK+CD44+ CD24-/low cells were thought as to CTC-CSC in 26 breast cancer patients, respectively. Our results showed the CK+ tumor cells were detected in 19 of 26 patients, with the CK+ tumor cells varying from 0.11% to 5.42 %. The CTC-CSC were identified in 18 of the 19 patients with CTC and the percentage of CTC-CSC in CTC was 19.01%. The results yet suggested the breast cancer patients with high-rate CK+ tumor cells were at the advanced tumor node metastases (TNM) stage III, and the patients with low-rate CK+ cells were at the modest TNM stage I. The difference between the two groups was statistically significant (p<0.001). We concluded that there is a significant relationship between CTC and CTC-CSC, but not among TNM stages, in breast cancer metastasis.

Different B cell populations mediate early and late memory during an endogenous immune response.

Memory B cells formed in response to microbial antigens provide immunity to later infections; however, the inability to detect rare endogenous antigen-specific cells limits current understanding of this process. Using an antigen-based technique to enrich these cells, we found that immunization with a model protein generated B memory cells that expressed isotype-switched immunoglobulins (swIg) or retained IgM. The more numerous IgM(+) cells were longer lived than the swIg(+) cells. However, swIg(+) memory cells dominated the secondary response because of the capacity to become activated in the presence of neutralizing serum immunoglobulin. Thus, we propose that memory relies on swIg(+) cells until they disappear and serum immunoglobulin falls to a low level, in which case memory resides with durable IgM(+) reserves.

Multi-wavelength microflow cytometer using groove-generated sheath flow.

A microflow cytometer was developed that ensheathed the sample (core) fluid on all sides and interrogated each particle in the sample stream at four different wavelengths. Sheathing was achieved by first sandwiching the core fluid with the sheath fluid laterally via fluid focusing. Chevron-shaped groove features fabricated in the top and bottom of the channel directed sheath fluid from the sides to the top and bottom of the channel, completely surrounding the sample stream. Optical fibers inserted into guide channels provided excitation light from diode lasers at 532 and 635 nm and collected the emission wavelengths. Two emission collection fibers were connected to PMTs through a multimode fiber splitter and optical filters for detection at 635 nm (scatter), 665 nm and 700 nm (microsphere identification) and 565 nm (phycoerythrin tracer). The cytometer was capable of discriminating microspheres with different amounts of the fluorophores used for coding and detecting the presence of a phycoerythrin antibody complex on the surface of the microspheres. Assays for Escherichia coli were compared with a commercial Luminex flow cytometer.

Subcapsular encounter and complement-dependent transport of immune complexes by lymph node B cells.

The mechanism of B cell-antigen encounter in lymphoid tissues is incompletely understood. It is also unclear how immune complexes are transported to follicular dendritic cells. Here, using real-time two-photon microscopy we noted rapid delivery of immune complexes through the lymph to macrophages in the lymph node subcapsular sinus. B cells captured immune complexes by a complement receptor-dependent mechanism from macrophage processes that penetrated the follicle and transported the complexes to follicular dendritic cells. Furthermore, cognate B cells captured antigen-containing immune complexes from macrophage processes and migrated to the T zone. Our findings identify macrophages lining the subcapsular sinus as an important site of B cell encounter with immune complexes and show that intrafollicular B cell migration facilitates the transport of immune complexes as well as encounters with cognate antigen.

Quantitative measurement of monocyte HLA-DR expression in the identification of early-onset neonatal infection.

BACKGROUND: This study aimed to evaluate the diagnostic utilities of monocyte HLA-DR as an infection marker in the identification of early-onset clinical infection and pneumonia in newborn infants. METHODS: Term newborns in whom infection was suspected when they were <72 h of age were eligible for enrollment in the study. C-reactive protein (CRP), monocyte HLA-DR and neutrophil CD64 expressions were quantitatively measured at the time of sepsis evaluation (0 h) and 24 h afterwards by flow cytometry and standard laboratory method. RESULTS: A total of 288 infants with suspected sepsis were investigated, and 93 were found to be clinically infected. There were no significant differences in monocyte HLA-DR expression between the infected, non-infected and control groups at 0 h (median (interquartile range): 13,986 (10,994-18,544), 14,234 (12,045-17,474) and 18,441 (14,250-21,537) antibody phycoerythrin (PE) molecules bound/cell), and between infected and non-infected infants at 24 h (median (interquartile range): 17,772 (12,933-25,167) and 19,406 (14,885-24,225) antibody PE molecules bound/cell). The areas under the receiver operating characteristics (ROC) curves for HLA-DR, CD64 and CRP were 0.52-0.54, 0.88-0.94 and 0.75-0.77, respectively. We were unable to determine an optimal cutoff value for HLA-DR, as the diagnostic utilities of any cutoff point on the ROC curves were unable to satisfy the criteria (i.e. sensitivity and specificity >or=80%) for consideration as an useful diagnostic marker of infection. CONCLUSIONS: Our findings did not support the use of monocyte HLA-DR alone or in combination with other infection markers in the diagnosis of early-onset clinical infection and pneumonia in term newborns.

Complement activation and C3b deposition on rituximab-opsonized cells substantially blocks binding of phycoerythrin-labeled anti-mouse IgG probes to rituximab.

Binding of rituximab (RTX) to CD20+ B cells activates complement and promotes covalent deposition of C3b fragments on the cells. Previously, we reported that the deposited C3b is substantially co-localized with cell-bound RTX, and therefore C3b may block access of antibody probes specific for RTX. We examined the ability of several commercially available phycoerythrin (PE)-labeled anti-Mouse IgG antibodies to bind to B cells opsonized in milieu which allow or preclude complement activation. Even when large amounts of fluorescently labeled RTX are bound to the cells, binding of the anti-Mouse IgG probes is substantially inhibited if C3b is deposited on the cells. However, cell-bound RTX is still demonstrable on development with a monoclonal antibody (mAb) specific for the human Fc region of RTX. Our findings may provide an alternative explanation for data presented in recent reports suggesting that binding of RTX to cells in plasma leads to internalization of RTX and CD20.

The regulated long-term delivery of therapeutic proteins by using antigen-specific B lymphocytes.

Memory lymphocytes are important mediators of the immune response. These cells are long-lived and undergo clonal expansion upon reexposure to specific antigen, differentiating into effector cells that secrete Ig or cytokines while maintaining a residual pool of memory T and B lymphocytes. Here, the ability of antigen-specific lymphocytes to undergo repeated cycles of antigen-driven clonal expansion and contraction is exploited in a therapeutic protocol aimed at regulating protein delivery. The principle of this strategy is to introduce genes encoding proteins of therapeutic interest into a small number of antigen-specific B lymphocytes. Output of therapeutic protein can then be regulated in vivo by manipulating the size of the responder population by antigen challenge. To evaluate whether such an approach is feasible, we developed a mouse model system in which Emu- and Iglambda-based vectors were used to express human erythropoietin (hEPO) gene in B lymphocytes. These mice were then immunized with the model antigen phycoerythrin (PE), and immune splenocytes (or purified PE-specific B lymphocytes) were adoptively transferred to normal or mutant (EPO-deficient) hosts. High levels of hEPO were detected in the serum of adoptively transferred normal mice after PE administration, and this responsiveness was maintained for several months. Similarly, in EPO-deficient anemic recipients, antigen-driven hEPO expression was shown to restore hematocrit levels to normal. These results show that antigen-mediated regulation of memory lymphocytes can be used as a strategy for delivering therapeutic proteins in vivo.

Ultra-sensitive class I tetramer analysis reveals previously undetectable populations of antiviral CD8+ T cells.

A major breakthrough in cellular immunology has been the development of HLA class I tetramers to analyze CD8(+) T cell responses. However, in many situations, including persistent virus infection, specific T cell responses are rarely detected using this technology. This raises the question of whether such responses are 'deleted' (or 'exhausted') or present below the conventional detection limit for class I tetramer staining. In particular, persistent hepatitis C virus (HCV) infection is characterized by very weak or apparently absent specific CD8(+) T cell responses, even though they are readily detectable in acute disease. Therefore, we assessed the use of anti-PE-labeled magnetic beads to enrich tetramer-positive HCV-specific T cells and identify previously undetectable populations. Using the enrichment technique, HCV-specific T cells could be detected in the majority of infected individuals, whereas these responses were not detected using conventional tetramer staining (8/15 vs. 1/15; p=0.01). Magnetic enrichment could reliably detect very rare HCV-specific responses at frequencies of >0.0011% of CD8(+) T cells (approximately 1/million PBMC), and phenotypic analysis of these rare populations was possible. Therefore, this direct ex vivo technique revealed the persistence of very low frequencies of virus-specific CD8(+) T cells during chronic virus infection and is readily transferable to the study of other viral, self- or tumor-specific T cells.

Antigen-capturing cells can masquerade as memory B cells.

As well as classically defined switched immunoglobulin isotype-expressing B cells, memory B cells are now thought to include IgM-expressing cells and memory cells that lack B cell lineage markers, such as B220 or CD19. We set out to compare the relative importance of memory B cell subsets with an established flow cytometry method to identify antigen-specific cells. After immunization with PE, we could detect B220+ and, as reported previously, B220- antigen-binding cells (McHeyzer-Williams, L.J., M. Cool, and M.G. McHeyzer-Williams. 2001. J. Immunol. 167:1393-1405). The B220-PE+ cells bore few markers typical of B cells, but resembled myeloid cells. Further analysis of the antigen-binding characteristics of these cells showed that, upon immunization with two fluorescent proteins, the B220- cells could bind both. Furthermore, this subpopulation was detected in RAG1-/- mice after transfer of anti-PE mouse serum. These data strongly suggest that these cells capture serum Ig, via Fc receptors, and thus appear antigen-specific. Investigation of these antigen-capturing cells in a variety of knockout mice indicates that they bind monomeric IgG in an FcgammaR1 (CD64)-dependent manner. We find no evidence of a B220- memory B cell population that is not explicable by antigen-capturing cells, and warn that care must be taken when using antigen-specificity or surface IgG as an indicator of B cell memory.

Effects of antibody concentration on the separation of human natural killer cells in a commercial immunomagnetic separation system.

BACKGROUND: The magnetic separation of a cell population based on cell surface markers is a critical step in many biological and clinical laboratories. In this study, the effect of antibody concentration on the separation of human natural killer cells in a commercial, immunomagnetic cell separation system was investigated. METHODS: Specifically, the degree of saturation of antibody binding sites using a two-step antibody sandwich was quantified. The quantification of the first step, a primary anti-CD56-PE antibody, was achieved through fluorescence intensity measurements using a flow cytometer. The quantification of the second step, an anti-PE-microbeads antibody reagent, was achieved through magnetophoretic mobility measurements using cell tracking velocimetry. RESULTS: From the results of these studies, two different labeling protocols were used to separate CD56+ cells from human, peripheral blood by a Miltenyi Biotech MiniMACS cell separation system. The first of these two labeling protocols was based on company recommendations, whereas the second was based on the results of the saturation studies. The results from these studies demonstrate that the magnetophoretic mobility is a function of both primary and secondary antibody concentrations and that mobility does have an effect on the performance of the separation system. CONCLUSIONS: As the mobility increased due to an increase in bound antibodies, the positive cells were almost completely eliminated from the negative eluent. However, with an increase in bound antibodies, and thus mobility, the total amount of positive cells recovered decreases. It is speculated that these cells are irreversibly retained in the column. These results demonstrate the complexity of immunomagnetic cell separation and the need to further optimize the cell separation process.

Immunolocalization of non-extractable (bound) residues of pesticides and industrial contaminants in plants and soil.

The application of immunochemical methods for the investigation of non-extractable (bound) residues is reviewed. Non-extractable residues may be presented to antibodies as antigenic determinants, which are exposed for instance in plant tissue and humic substances. Fluorescent probes as well as enzyme markers have been applied for the detection of bound residues. The application of antibodies labeled with fluorescein isothiocyanate (FITC) and phycoerythrin revealed the presence of atrazine in cryosections of atrazine-treated corn leaves and water plants. Atrazine could be localized by antibodies coupled to fluorescent markers in soil from corn fields but not in atrazine-free soil. Quantitative results were obtained by the application of enzyme immunoassays to the investigation of triazine and 2,4,6-trinitrotoluene (TNT) residues, bound to soil humic acids. Finally, the use of antibodies with different recognition patterns provides information on the ligation of non-extractable residues to the matrix.

Single-molecule immunoassay and DNA diagnosis.

Many assays relevant to disease diagnosis are based on electrophoresis, where the migration velocity is used for distinguishing molecules of different size or charge. However, standard gel electrophoresis is not only slow but also insensitive. We describe a single-molecule imaging procedure to measure the electrophoretic mobilities of up to 100000 distinct molecules every second. The results correlate well with capillary electrophoresis (CE) experiments and afford confident discrimination between normal (16.5 kbp) and abnormal (6.1 kbp) mitochondrial DNA fragments, or beta-phycoerythrin-labeled digoxigenin (BP-D) and its immunocomplex (anti-D-BP-D). This demonstrates that virtually all electrophoresis diagnostic protocols from slab gels to CE should be adaptable to single-molecule detection. This opens up the prossibility of screening single copies of DNA or proteins within single biological cells for disease markers without performing polymerase chain reaction (PCR) or other biological amplification.