Secondary mAb--vcMMAE conjugates are highly sensitive reporters of antibody internalization via the lysosome pathway

Monoclonal antibodies (mAb) selectively recognizing tumor surface antigens are an important and evolving approach to targeted cancer therapy. One application of therapeutic mAbs is drug targeting via mAb-drug conjugate (ADC) technology. Identification of mAbs capable of internalizing following antigen binding has been accomplished by tracking decline of surface-bound mAb or by internalization of a secondary mAb linked to a toxin. These methods may not be sufficiently sensitive for screening nor wholly predictive of the mAbs' capacity for a specific drug delivery. We have developed a highly selective and sensitive method to detect mAbs for cell internalization and drug delivery. This system uses secondary anti-human or anti-murine mAbs conjugated to the high-potency drug monomethyl auristatin E (MMAE) via a highly stable, enzymatically cleavable linker. Prior studies of this drug linker technology demonstrated internalization of a primary ADC leads to trafficking to lysosomes, drug release by lysosomal cathepsin B, and ensuing cell death. A secondary antibody--drug conjugate (2 degrees ADC) capable of binding primary mAbs bound to the surface of antigen-positive cells has comparable drug delivery capability. The system is sufficiently sensitive to detect internalizing mAbs in nonclonal hybridoma supernatants and is predictive of the activity of subsequently produced primary ADC. Because of their high extracellular stability, the noninternalized 2 degrees ADC are 100--1000-fold less toxic to cells over extended periods of time, permitting an assay in which components can be added without need for separate wash steps. This homogeneous screening system is amenable to medium-throughput screening applications and enables the early identification of mAbs capable of intracellular trafficking for drug delivery and release.     

Development of a novel DnaE intein-based assay for quantitative analysis of G-protein-coupled receptor internalization

G-protein-coupled receptor (GPCR) internalization provides a G-protein-subtype-independent method for assaying agonist-stimulated activation of receptors. We have developed a novel assay that allows quantitative analysis of GPCR internalization based on the interaction between activated GPCRs and β-arrestin2 and on Nostoc punctiforme DnaE intein-mediated reconstitution of Renilla luciferase fragments. This assay system was validated using four functionally divergent GPCRs treated with agonists and antagonists. The EC(50) values obtained for the known agonists and antagonists are in close agreement with the results of previous reports, indicating that this assay system is sensitive enough to permit quantification of GPCR internalization. This rapid and quantitative assay, therefore, could be used universally as a functional cell-based assay for GPCR high-throughput screening during drug discovery.     

ELISA microarray technology as a high-throughput system for cancer biomarker validation

A large gap currently exists between the ability to discover potential biomarkers and the ability to assess the real value of these proteins for cancer screening. One major challenge in biomarker validation is the inherent variability in biomarker levels. This variability stems from the diversity across the human population and the considerable molecular heterogeneity between individual tumors, even those that originate from a single tissue. An additional challenge with cancer screening is that most cancers are rare in the general population, meaning that assay specificity must be very high. Otherwise, the number of false positives will be much greater than the number of true positives. Due to these challenges associated with biomarker validation, it is necessary to analyze thousands of samples in order to obtain a clear idea of the utility of a screening assay. Enzyme-linked immunosorbent assay (ELISA) microarray technology can simultaneously quantify levels of multiple proteins and, thus, has the potential to accelerate validation of protein biomarkers for clinical use. This review will discuss current ELISA microarray technology and potential advances that could help to achieve the reproducibility and throughput that are required to evaluate cancer biomarkers.     

Modulation of C3a activity: internalization of the human C3a receptor and its inhibition by C5a.

The C3a receptor (C3aR) is expressed on most human peripheral blood leukocytes with the exception of resting lymphocytes, implying a much higher pathophysiological relevance of the anaphylatoxin C3a as a proinflammatory mediator than previously thought. The response to this complement split product must be tightly regulated in situations with sustained complement activation to avoid deleterious effects caused by overactivated inflammatory cells. Receptor internalization, an important control mechanism described for G protein-coupled receptors, was investigated. Using rabbit polyclonal anti-serum directed against the C3aR second extracellular loop, a flow cytometry-based receptor internalization assay was developed. Within minutes of C3a addition to human granulocytes, C3aR almost completely disappeared from the cell surface. C3aR internalization could also be induced by PMA, an activator of protein kinase C. Similarly, monocytes, the human mast cell line HMC-1, and differentiated monocyte/macrophage-like U937-cells exhibited rapid agonist-dependent receptor internalization. Neither C5a nor FMLP stimulated any cross-internalization of the C3aR. On the contrary, costimulation of granulocytes with C5a, but not FMLP, drastically decreased C3aR internalization. This effect could be blocked by a C5aR-neutralizing mAb. HEK293-cells transfected with the C3aR, with or without Galpha16, a pertussis toxin-resistant G protein alpha subunit required for C3aR signal transduction in these cells, did not exhibit agonist-dependent C3aR internalization. Additionally, preincubation with pertussis toxin had no effect on C3a-induced internalization on PMNs. C3aR internalization is a rapid negative control mechanism and is influenced by the C5aR pathway.     

Inhibition of IgE binding to RBL-2H3 cells by a monoclonal antibody (BD6) to a surface protein other than the high affinity IgE receptor.

A mAb was isolated (mAb BD6) that recognized a surface glycoprotein on rat basophilic leukemia cells (RBL-2H3). The antibody bound to 2 x 10(6) molecules/cell and specifically blocked IgE binding (50% inhibition with 3.48 +/- 0.51 micrograms/ml; mean +/- SEM), although neither IgE nor anti-high affinity IgE receptor (anti-Fc epsilon RI) mAb blocked mAb BD6 binding to the cells. mAb BD6 did not affect the rate of dissociation of cell-bound IgE, nor did it induce or inhibit the internalization of IgE. mAb BD6 did not release histamine. However, it did cause rapid spreading of the cells. By 1 h the cells had retracted to a spherical shape with their surface covered with membranous spikes, and they could easily be detached from the tissue culture plate. These changes differed from those observed after Fc epsilon RI activation. mAb BD6 immunoprecipitated a complex of two proteins, 38 to 50 kDa and 135 kDa from 125I-surface labeled rat basophilic leukemia cells that are not subunits of Fc epsilon RI. Chemical cross-linking studies showed that these molecules are associated on the cell surface. By immunoblotting, mAb BD6 reacted with a 40-kDa protein. Therefore, mAb BD6 binds to a surface protein that is close to the Fc epsilon RI and sterically inhibits 125I-IgE binding.     

A high-affinity anti-salbutamol monoclonal antibody: key to a robust lateral-flow immunochromatographic assay

Among the components that make up a lateral-flow immunochromatographic assay (ICA), antibody is the key. In this paper, salbutamol (SAL) as a model analyte was meticulously designed to prepare immunogen and coating antigen in distinctly different ways. Four hybridoma cell lines were prepared and identified. Among them, C9 had highest affinity, best dose-response behavior, lowest limit of detection, and highest specificity and was chosen to be labeled with colloidal gold as the detector reagent and applied on the conjugate pad. Goat anti-mouse antibody and SAL-BSA conjugate were sprayed on a nitrocellulose membrane as test line and control line, respectively. Under the optimized conditions, the ICA strip was constructed based on a binding inhibition format. Color intensity on the test line was visually distinguishable from that of the negative sample within 5 min, with the visual detection limit of 1 ngml(-1) in phosphate-buffered saline. Cross-reactions with other β-agonists were not found (<1%). The results from ICA were in a good agreement with those obtained by enzyme-linked immunosorbent assay. The developed ICA has potential as a useful on-site screening tool for SAL in swine urine.     

Simultaneous serodetection of major rat infectious pathogens by a multiplex immunochromatographic assay

Rapid and simple serologic tests that require only a small amount of blood without the euthanization of animals are valuable for microbial control in colonies of laboratory animals. In this study, we developed a multiplex immunochromatographic assay (ICA) for detection of antibodies to Sendai virus (also known as hemagglutinating virus of Japan), hantavirus, and sialodacryoadenitis virus, which are causative agents of major infectious diseases in rats. For this assay, an ICA strip was placed into a microtube containing 150 µl PBS and either 0.75 µl of rat serum or 1.5 µl of whole blood. Binding antibodies were visualized by using anti-rat IgG antibody-conjugated colloidal gold. Under these conditions, the multiplex ICA simultaneously and specifically detected antibodies to multiple antigens. Positive serum samples for each infectious disease were used to evaluate the sensitivity and specificity of the multiplex ICA. The sensitivities of the multiplex ICA for Sendai virus, hantavirus, and sialodacryoadenitis virus were 100%, 100%, and 81%, respectively. No nonspecific reactions were observed in any of the 52 positive sera against heterologous antigens. In addition, 10 samples of uninfected sera did not show any bands except for the control line. These observations indicate high specificity of the multiplex ICA. Moreover, the multiplex ICA could be applied to diluted blood. These results indicate that the multiplex ICA is appropriate for rapid and simple serological testing of laboratory rats.     

A solid-phase assay to screen monoclonal antibodies against DNA-binding protein.

A method is described for selecting monoclonal antibodies (mAb) against DNA-binding protein. The protocol involves a non-radioactive solid-phase DNA binding assay using a 96-well plate. Because the solid-phase assay is highly specific and sensitive, partially purified antigen is sufficient for the immunization, and mAb screening can be performed with crude cell extract as the antigen. MAbs obtained by this method could supershift the DNA-protein complex in the electromobility shift assay, and were sufficient for immunoscreening of a cDNA expression library.     

DiSSiMiL: Diverse Small Size Mini-Libraries applied to simple and rapid epitope mapping of a monoclonal antibody.

Methods for screening protein-protein interactions are useful in protein science and for the generation of drug leads. We set out to develop a simplified assay to rapidly test protein-protein interactions, with a library of 400 pentapeptides comprising the 20 natural amino acids at two variable positions followed by three glycines (NH2-X1X2GGG). The library was used to identify the epitope of monoclonal antibody (mAb) 10D11 directed against the HOXD4 protein. Three pentapeptide 'hits' were selected (VYGGG, PWGGG and WKGGG) from direct binding assays screening for pentapeptide-mAb interactions; and from assays using pentapeptides in solution to competitively block HOXD4-mAb interactions. Alignment of the three 'hit' pentapeptides to the HOXD4 sequence predicts the mAb 10D11 epitope as NH2-VYPWMK. Synthesis of NH2-VYPWMK hexapeptide confirmed this prediction; and an alanine scan of HOXD4 ablated binding by mAb 10D11 when amino acids in the putative epitope were mutated. We propose that these simplified but diverse libraries can be used for rapid epitope mapping of some mAbs, and for generating lead small peptide analogs that interfere with receptor-ligand or other protein-protein interactions, or with enzymatic activity.     

Association of CD38 with nonmuscle myosin heavy chain IIA and Lck is essential for the internalization and activation of CD38

Activation of CD38 in lymphokine-activated killer (LAK) cells involves interleukin-8 (IL8)-mediated protein kinase G (PKG) activation and results in an increase in the sustained intracellular Ca(2+) concentration ([Ca(2+)](i)), cADP-ribose, and LAK cell migration. However, direct phosphorylation or activation of CD38 by PKG has not been observed in vitro. In this study, we examined the molecular mechanism of PKG-mediated activation of CD38. Nonmuscle myosin heavy chain IIA (MHCIIA) was identified as a CD38-associated protein upon IL8 stimulation. The IL8-induced association of MHCIIA with CD38 was dependent on PKG-mediated phosphorylation of MHCIIA. Supporting these observations, IL8- or cell-permeable cGMP analog-induced formation of cADP-ribose, increase in [Ca(2+)](i), and migration of LAK cells were inhibited by treatment with the MHCIIA inhibitor blebbistatin. Binding studies using purified proteins revealed that the association of MHCIIA with CD38 occurred through Lck, a tyrosine kinase. Moreover, these three molecules co-immunoprecipitated upon IL8 stimulation of LAK cells. IL8 treatment of LAK cells resulted in internalization of CD38, which co-localized with MHCIIA and Lck, and blebbistatin blocked internalization of CD38. These findings demonstrate that the association of phospho-MHCIIA with Lck and CD38 is a critical step in the internalization and activation of CD38.     

A simple and objective method for reproducible resting state network (RSN) detection in fMRI

Spatial Independent Component Analysis (ICA) decomposes the time by space functional MRI (fMRI) matrix into a set of 1-D basis time courses and their associated 3-D spatial maps that are optimized for mutual independence. When applied to resting state fMRI (rsfMRI), ICA produces several spatial independent components (ICs) that seem to have biological relevance - the so-called resting state networks (RSNs). The ICA problem is well posed when the true data generating process follows a linear mixture of ICs model in terms of the identifiability of the mixing matrix. However, the contrast function used for promoting mutual independence in ICA is dependent on the finite amount of observed data and is potentially non-convex with multiple local minima. Hence, each run of ICA could produce potentially different IC estimates even for the same data. One technique to deal with this run-to-run variability of ICA was proposed by [1] in their algorithm RAICAR which allows for the selection of only those ICs that have a high run-to-run reproducibility. We propose an enhancement to the original RAICAR algorithm that enables us to assign reproducibility p-values to each IC and allows for an objective assessment of both within subject and across subjects reproducibility. We call the resulting algorithm RAICAR-N (N stands for null hypothesis test), and we have applied it to publicly available human rsfMRI data (http://www.nitrc.org). Our reproducibility analyses indicated that many of the published RSNs in rsfMRI literature are highly reproducible. However, we found several other RSNs that are highly reproducible but not frequently listed in the literature.     

Internalization of phosphatidylinositol-anchored lymphocyte proteins. I. Documentation and potential significance for T cell stimulation

Several proteins that are anchored to the surface of T lymphocytes via a phosphatidylinositol (PI) moiety can initiate cell stimulation upon cross-linking. Inasmuch as these proteins do not traverse the plasma membrane, it is not clear how they are capable of signaling across the membrane. Herein we report two distinct sets of experiments that examine the consequence of cross-linking PI-anchored molecules on murine T cells. We first analyzed the fate of antibody cross-linked TAP (Ly-6A.2) and Thy-1 molecules on T-T hybrids. Using an assay to measure receptor-mediated endocytosis, an intracellular accumulation of 125I labeled anti-TAP and anti-Thy-1 mAb was documented that was specific and Ag dependent. The internalization of these molecules was confirmed by cytotoxicity assays using antibody-toxin conjugates, and electron microscopic studies. Although the PI-anchored proteins lack a cytoplasmic domain that is necessary for the internalization of many receptors, they nevertheless can be induced to enter the cell upon cross-linking. The rate of entry of cross-linked TAP and Thy-1 into cells was shown to be 10 and 2% per hour, respectively, which is considerably less than that observed for the transferrin receptor or TCR/CD3 complex. To assess whether the internalization of TAP and Thy-1 might be of importance in their ability to stimulate T cells, we attempted to cross-link these molecules under conditions where the mAb or its cross-linked complex can not enter the cell. We observed that anti-TAP and anti-Thy-1 mAb conjugated to a cell impermeant matrix fail to stimulate T cells. This loss of stimulatory activity was observed with multiple T-T hybridomas and mAb over a wide titration of antibody concentration and was independent of the mAb isotype. Results from experiments with anti-Ig cross-linking of the mAb-PI anchored protein complex suggested that the loss of T cell stimulation upon mAb immobilization is not simply due to an alteration in the degree of antibody cross-linking. These findings were generalized to three distinct PI-anchored proteins: TAP, Thy-1, and Ly6C on normal T cells. When the same cells were stimulated through the TCR/CD3 complex, only immobilized mAb are stimulatory. These results demonstrate a marked difference in the cross-linking requirements for stimulating T cells through PI-anchored molecules in contrast to the transmembrane TCR complex. Furthermore, these findings raise the possibility that molecular internalization of Ab-PI-anchored complexes may be necessary in signaling through these molecules.     

Preparation of chicken IgY against recombinant E2 protein of bovine viral diarrhea virus (BVDV) and development of ELISA and ICA for BVDV detection

Bovine viral diarrhea virus (BVDV) infects cattle and may lead to persistent infection (PI). The PI animals harbor BVDV throughout their life and become immune tolerant against BVDV. Thus, diagnosis of this virus in herd is highly important. Recombinant E2 protein expression (using pET-32a in Escherichia coli) was confirmed by SDS-PAGE and Western blotting; then purified by Ni⁺ affinity chromatography. Chickens were immunized with BVDV-E2 protein, and IgY antibodies were extracted from egg yolk by PEG-6000. The peak titer of anti-BVDV-E2-IgY was 1:128,000 after the fifth immunization. IgY-based enzyme-linked immuno sorbent assay (ELISA) and immunochromatographic assay (ICA) were further developed. Coincidence of ELISA and ICA test with RT-PCR was 95.45 and 90.91%, respectively. The anti-BVDV-E2 IgY could be used in routine screening of BVDV infection. Besides, it can also be applicable while licensing and/or using live vaccines; screening of imported products containing bovine serum and strong surveillance of BVDV outbreaks.     

Degradation of radioiodinated B cell monoclonal antibodies: inhibition via a FCγ -receptor-II-mediated mechanism and by drugs

 Our aim is to treat patients with B cell malignancies with radioimmunotherapy using monoclonal antibodies (mAb) such as CD19, CD20 and CD22. In this study we investigated the rate of internalization and catabolism of these mAb. After 24 h at 37°C, 20% – 25% of initially cell-bound ¹²⁵I-CD19 mAb and ¹²⁵I-CD22 mAb was degraded in B cells, whereas almost no degradation occurred after binding of ¹²⁵I-CD20 mAb. For B cells expressing Fcγ receptor II (FcγRII), isotype-dependent degradation was noted as the CD19 IgG1 mAb showed an enhanced degradation rate compared to the switch variant IgG2a. The effect of various pharmaceutical agents that delay the internalization or subsequent degradation of mAb was evaluated. The degradation was inhibited most effectively by a combination of etoposide and vinblastine, resulting in accumulation of radioactivity in the target cell. Also the simultaneous application of CD20 or CD22 with ¹²⁵I-CD19 mAb or of CD20 with ¹²⁵I-CD22 mAb proved to be a potent inhibitor of the rapid degradation of these mAb, by inhibiting internalization via an FcγRII-mediated mechanism. Both methods of reducing the degradation of radioiodinated mAb are expected to prolong irradiation of malignant B cells and consequently result in an enhanced therapeutic effect in vivo. Received: 22 September 1995 / Accepted: 13 November 1995     

Immunotoxins to the HER-2 oncogene product: Functional and ultrastructural analysis of their cytotoxic activity

Two immunotoxins were prepared using monoclonal antibodies (mAb) directed towards two distinct epitopes of the gp185^HER-2 extracellular domain, and the type I ribosome inactivating protein (RIP) plant toxin saporin 6. Cell protein synthesis inhibition assay reveals that the immunotoxins display a potent and specific cytotoxicity that is characterized by a slow rate, since the time required to inhibit incorporation of radiolabeled leucine completely ranges from 36 h to 60 h depending on the target cell line and the immunotoxin. Because this feature may hamper the immunotherapeutic use of these conjugates we analysed this further by studying the early phases of internalization of immunotoxins by immunoelectron microscopy. The results of this study have demonstrated that the distribution pattern of the immunotoxins and of the unconjugated mAb over the cell surface overlaps. Similarly the mAb and immunotoxins are internalized into the cell by two different pathways: via clathrin-coated pits or via smaller uncoated pits and vesicles. A higher degree of internalization is achieved when the two immunotoxins are used in combination. Unlike the slow kinetics of cell intoxication the process of immunotoxin endocytosis is characterized by a rapid rate of internalization (above 40% at 5 min in the SK-BR-3 cell line). Although these findings provide no clue to explain the mechanisms of the slow rate of cytotoxicity of the two immunotoxins their rapid internalization indicates that these reagents can be exploited in immunotherapeutic approches to gp185^HER-2-expressing malignancies.     

Evolutionary Conservative and Species-Specific Antigenic Determinants of Mammalian Thyroglobulins

Evolutionary conservative and species-specific epitopes of thyroglobulins (Tg) from different mammalian species were studied using panel of 20 monoclonal antibodies (mAb) raised in our laboratory and recognizing 16 antigen determinants on human Tg molecule. Cross-reactivity of mAb with preparations of purified mammalian Tg from other species was studied by the method of indirect enzyme-linked immunosorbent assay (ELISA). Interaction of mAb with Tg in histological sections of thyroid gland tissue was studied by direct immunofluorescence assay using mAb conjugated with fluorescein isothiocyanate (FITC). Since certain Tg epitopes lose their ability to bind mAb after fixation and paraffin embedding, only 12 out of 20 mAb turned out to be suitable for detection of Tg in the tissue sections. The obtained data have allowed establishing that four human Tg epitopes are species-specific. Meanwhile, six human Tg epitopes are shared with bovine Tg epitopes, seven epitopes with porcine Tg, four with rat, and two with mouse Tg. Each Tg of two species (cat and dog) has three common epitopes with human Tg.     

Inhibitory Effect of Tanshinone IIA on Rat Hepatic Stellate Cells

Background

Anti-inflammation via inhibition of NF-κB pathways in hepatic stellate cells (HSCs) is one therapeutic approach to hepatic fibrosis. Tanshinone IIA (C₁₉H₁₈O₃, Tan IIA) is a lipophilic diterpene isolated from Salvia miltiorrhiza Bunge, with reported anti-inflammatory activity. We tested whether Tan IIA could inhibit HSC activation.

Materials and Methods

The cell line of rat hepatic stellate cells (HSC-T6) was stimulated with lipopolysaccharide (LPS) (100 ng/ml). Cytotoxicity was assessed by MTT assay. HSC-T6 cells were pretreated with Tan IIA (1, 3 and 10 µM), then induced by LPS (100 ng/ml). NF-κB activity was evaluated by the luciferase reporter gene assay. Western blotting analysis was performed to measure NF-κB-p65, and phosphorylations of MAPKs (ERK, JNK, p38). Cell chemotaxis was assessed by both wound-healing assay and trans-well invasion assay. Quantitative real-time PCR was used to detect gene expression in HSC-T6 cells.

Results

All concentrations of drugs showed no cytotoxicity against HSC-T6 cells. LPS stimulated NF-κB luciferase activities, nuclear translocation of NF-κB-p65, and phosphorylations of ERK, JNK and p38, all of which were suppressed by Tan IIA. In addition, Tan IIA significantly inhibited LPS-induced HSCs chemotaxis, in both wound-healing and trans-well invasion assays. Moreover, Tan IIA attenuated LPS-induced mRNA expressions of CCL2, CCL3, CCL5, IL-1β, TNF-α, IL-6, ICAM-1, iNOS, and α-SMA in HSC-T6 cells.

Conclusion

Our results demonstrated that Tan IIA decreased LPS-induced HSC activation.     

Large-scale screening assay to measure epidermal growth factor internalization

Recently, we showed that the internalization of the epidermal growth factor (EGF) receptor is inhibited by hydrogen peroxide (H(2)O(2)) in human fibroblasts. In order to test the effect of various stress conditions on receptor internalization and to test a variety of antioxidants in their capacity to prevent or reduce the H(2)O(2)-induced inhibition of internalization, a screening assay was developed to measure the internalization in 96-well plates. In this assay, cells are exposed to biotin-conjugated EGF and the amount of internalized EGF is detected with horseradish peroxidase-conjugated streptavidin. We show that the results obtained by this new assay are comparable with those from internalization studies performed with radioactive labeled EGF. Therefore, the cellular internalization assay as presented here is a reliable method to measure EGF receptor internalization. Moreover, because elaborate processing of the cells is not required, the assay is a relatively fast and inexpensive method to study ligand-induced internalization in 96-well plates and thereby is suitable for large-scale screening of compounds or conditions interfering with this internalization.     

Cellular Internalization of Staphylococcus aureus Coated with Protein A-Bound Anti-integrin Antibodies

Binding to β₁ chain integrin receptors can result in bacterial extracellular location or bacterial internalization In cultured cells. Using monoclonal antibodies (mAbs) to coat bacteria in vitro, we have shown that receptor-ligand affinity as well as receptor density determines the fate of the bacterium. In this report, we describe techniques used to coat the Gram-positive bacteria Staphylococcus aureus with anti-integrin mAbs and their application to the study of integrin-mediated bacterial internalization. The affinity of the purified anti-integrin mAb is estimated by determination of the ED₅₀ of the mAb by using cell monolayers, and the efficiency of mAb-promoted bacterial internalization is determined by a gentamicin survival assay. The efficiency of bacterial internalization promoted by various anti-β₁ chain integrin mAbs reflects differential expression of β₁ chain integrin receptors in various cell lines studied. Analysis of β₁ chain integrin receptor expression in HEp-2 cells transfectants shows that the level of bacterial internalization is directly related to the integrin receptor density.     

Rapid determination of Phytophthora infestans sporangia using a surface plasmon resonance immunosensor

Phytophthora infestans is the cause of late blight disease in potato and is an economically important pathogen worldwide. Early disease detection is important to implement disease control measures. In this study a surface plasmon resonance (SPR) immunosensor for detection of P. infestans sporangia is presented. The specificity of an existing mouse monoclonal antibody (phyt/G1470 mAb) against P. infestans was investigated in plate-trapped antigen ELISA and in subtractive inhibition ELISA. No or only limited cross-reactivity was observed against representatives having air-borne spores from Ascomycetes, Deuteromycetes as well as Basidiomycetes. phyt/G1470 mAb was incorporated in a subtractive inhibition SPR assay, consisting of a pre-incubation of mAb and sporangia, a centrifugation step to remove sporangia-bound phyt/G1470 mAb and quantification of remaining phyt/G1470 mAb by SPR. Good intra- and interday assay variability was observed and the assay had a detection limit of 2.2x10(6) sporangia/ml. Analysis time was 75 min, which is superior to existing P. infestans detection methods.