An immunoassay for the detection of circulating antigens in human echinococcosis.

An immunoassay (double-antibody-sandwich-ELISA) was developed to detect circulating antigens (CAg) in patients with cystic (Echinococcus granulosus) echinococcosis. Echinococcus antigens derived from heterologous intermediate hosts were used to immunize rabbits and to purify the rabbit-IgG-fraction obtained by affinity-chromatography, thus avoiding major interference with host components. The purified rabbit anti-hydatid IgG was immunosorbed with bovine and human sera. One part of the resulting IgG served as coating agent in a double antibody sandwich-ELISA; the other part, coupled to alkaline phosphatase, as detecting conjugate. The specificity of the antibody reaction was demonstrated by immunoelectrophoresis. Sera of 21 patients with cystic echinococcosis were examined with this test system. In seven of the patients' sera CAg were detected in concentrations ranging between 310 ng and 680 ng protein per ml serum. Comparing pre- and postoperative serum samples obtained from nine patients operated on for cystic echinococcosis, four sera were found to be CAg-positive before and three after operation.

Vaccination of cattle with the N terminus of LppQ of Mycoplasma mycoides subsp. mycoides results in type III immune complex disease upon experimental infection.

Contagious bovine pleuropneumonia (CBPP) is a serious respiratory disease of cattle caused by Mycoplasma mycoides subsp. mycoides. Current vaccines against CBPP induce short-lived immunity and can cause severe postvaccine reactions. Previous studies have identified the N terminus of the transmembrane lipoprotein Q (LppQ-N') of M. mycoides subsp. mycoides as the major antigen and a possible virulence factor. We therefore immunized cattle with purified recombinant LppQ-N' formulated in Freund's adjuvant and challenged them with M. mycoides subsp. mycoides. Vaccinated animals showed a strong seroconversion to LppQ, but they exhibited significantly enhanced postchallenge glomerulonephritis compared to the placebo group (P = 0.021). Glomerulonephritis was characterized by features that suggested the development of antigen-antibody immune complexes. Clinical signs and gross pathological scores did not significantly differ between vaccinated and placebo groups. These findings reveal for the first time the pathogenesis of enhanced disease as a result of antibodies against LppQ during challenge and also argue against inclusion of LppQ-N' in a future subunit vaccine for CBPP.

Decreasing Proportion of Recent Infections among Newly Diagnosed HIV-1 Cases in Switzerland, 2008 to 2013 Based on Line-Immunoassay-Based Algorithms.

BACKGROUND: HIV surveillance requires monitoring of new HIV diagnoses and differentiation of incident and older infections. In 2008, Switzerland implemented a system for monitoring incident HIV infections based on the results of a line immunoassay (Inno-Lia) mandatorily conducted for HIV confirmation and type differentiation (HIV-1, HIV-2) of all newly diagnosed patients. Based on this system, we assessed the proportion of incident HIV infection among newly diagnosed cases in Switzerland during 2008-2013. METHODS AND RESULTS: Inno-Lia antibody reaction patterns recorded in anonymous HIV notifications to the federal health authority were classified by 10 published algorithms into incident (up to 12 months) or older infections. Utilizing these data, annual incident infection estimates were obtained in two ways, (i) based on the diagnostic performance of the algorithms and utilizing the relationship 'incident = true incident + false incident', (ii) based on the window-periods of the algorithms and utilizing the relationship 'Prevalence = Incidence x Duration'. From 2008-2013, 3'851 HIV notifications were received. Adult HIV-1 infections amounted to 3'809 cases, and 3'636 of them (95.5%) contained Inno-Lia data. Incident infection totals calculated were similar for the performance- and window-based methods, amounting on average to 1'755 (95% confidence interval, 1588-1923) and 1'790 cases (95% CI, 1679-1900), respectively. More than half of these were among men who had sex with men. Both methods showed a continuous decline of annual incident infections 2008-2013, totaling -59.5% and -50.2%, respectively. The decline of incident infections continued even in 2012, when a 15% increase in HIV notifications had been observed. This increase was entirely due to older infections. Overall declines 2008-2013 were of similar extent among the major transmission groups. CONCLUSIONS: Inno-Lia based incident HIV-1 infection surveillance proved useful and reliable. It represents a free, additional public health benefit of the use of this relatively costly test for HIV confirmation and type differentiation.

Biomolecular interaction analysis of gestrinone-anti-gestrinone using arrays of high aspect ratio SU-8 nanopillars

In this paper, label-free biosensing for antibody screening by periodic lattices of high-aspect ratio SU-8 nano-pillars (BICELLs) is presented. As a demonstration, the determination of anti-gestrinone antibodies from whole rabbit serum is carried out, and for the first time, the dissociation constant (KD = 6 nM) of antigen-antibody recognition process is calculated using this sensing system. After gestrinone antigen immobilization on the BICELLs, the immunorecognition was performed. The cells were interrogated vertically by using micron spot size Fourier transform visible and IR spectrometry (FT-VIS-IR), and the dip wavenumber shift was monitored. The biosensing assay exhibited good reproducibility and sensitivity (LOD = 0.75 ng/mL).

The protection receptor for IgG catabolism is the beta2-microglobulin-containing neonatal intestinal transport receptor.

More than 30 years ago, Brambell published the hypothesis bearing his name [Brambell, F. W. R., Hemmings, W. A. & Morris, 1. C. (1964) Nature (London) 203, 1352-1355] that remains as the cornerstone for thinking on IgG catabolism. To explain the long survival of IgG relative to other plasma proteins and its pattern of increased fractional catabolism with high concentrations of IgG, Brambell postulated specific IgG "protection receptors" (FcRp) that would bind IgG in pinocytic vacuoles and redirect its transport to the circulation; when the FcRp was saturated, the excess unbound IgG then would pass to unrestricted lysosomal catabolism. Brambell subsequently postulated the neonatal gut transport receptor (FcRn) and showed its similar saturable character. FcRn was recently cloned but FcRp has not been identified. Using a genetic knockout that disrupts the FcRn and intestinal IgG transport, we show that this lesion also disrupts the IgG protection receptor, supporting the identity of these two receptors. IgG catabolism was 10-fold faster and IgG levels were correspondingly lower in mutant than in wild-type mice, whereas IgA was the same between groups, demonstrating the specific effects on the IgG system. Disruption of the FcRp in the mutant mice was also shown to abrogate the classical pattern of decreased IgG survival with higher IgC concentration. Finally, studies in normal mice with monomeric antigen-antibody complexes showed differential catabolism in which antigen dissociates in the endosome and passes to the lysosome, whereas the associated antibody is returned to circulation; in mutant mice, differential catabolism was lost and the whole complex cleared at the same accelerated rate as albumin, showing the central role of the FcRp to the differential catabolism mechanism. Thus, the same receptor protein that mediates the function of the FcRn transiently in the neonate is shown to have its functionally dominant expression as the FcRp throughout life, resolving a longstanding mystery of the identity of the receptor for the protection of IgG. This result also identifies an important new member of the class of recycling surface receptors and enables the design of protein adaptations to exploit this mechanism to improve survivals of other therapeutic proteins in vivo.

Oncology research and clinical decisions based on immunohistochemistry: the importance of the technical aspects that support a complex method

Immunohistochemistry (IHC) is the group of techniques that use antibodies as specific reagents to identify and demonstrate several cell and tissue components that are antigens. This linking allows locating and identifying the in situ presence of various substances by means of color that is associated with the formed antigen-antibody complexes. The practical value of this biotechnology area, widely used in Pathology and Oncology, in diagnostic, prognostic, theranostic and research context, results from the possibility of combining a colour marker with an antibody without causing any damage to specific binding established between antibody and antigen. This provides the microscopic observation of the target locations where the antibody and hence the antigen are present. IHC is presented as a powerful means for identification of several cellular and tissue structures that can be associated with pathologies, and of the consequences, at functional and morphological level, of these same elements action.

A Recommender System based on the Immune Network

Abstract-The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an artificial immune system (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by collaborative filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen - antibody interaction for matching and antibody - antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques.

A Recommender System based on Idiotypic Artificial Immune Networks

The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an Artificial Immune System (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by Collaborative Filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen-antibody interaction for matching and idiotypic antibody-antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques.

A Recommender System based on Idiotypic Artificial Immune Networks

The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an Artificial Immune System (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by Collaborative Filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen-antibody interaction for matching and idiotypic antibody-antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques.

A Recommender System based on the Immune Network

Abstract-The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an artificial immune system (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by collaborative filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen - antibody interaction for matching and antibody - antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques.

An Artificial Immune System Based Recommender

The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an artificial immune system (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by collaborative filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen - antibody interaction for matching and antibody - antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques. Notes: Uwe Aickelin, University of the West of England, Coldharbour Lane, Bristol, BS16 1QY, UK

A Recommender System based on Idiotypic Artificial Immune Networks

The immune system is a complex biological system with a highly distributed, adaptive and self-organising nature. This paper presents an Artificial Immune System (AIS) that exploits some of these characteristics and is applied to the task of film recommendation by Collaborative Filtering (CF). Natural evolution and in particular the immune system have not been designed for classical optimisation. However, for this problem, we are not interested in finding a single optimum. Rather we intend to identify a sub-set of good matches on which recommendations can be based. It is our hypothesis that an AIS built on two central aspects of the biological immune system will be an ideal candidate to achieve this: Antigen-antibody interaction for matching and idiotypic antibody-antibody interaction for diversity. Computational results are presented in support of this conjecture and compared to those found by other CF techniques.

Towards antibody-mediated targeting of dendritic cells for cancer immunotherapy with multivalent polymer-antigen conjugates

Der Fokus dieser Arbeit lag auf der definierten Synthese multifunktioneller Polymer-Konjugate zur Anwendung in der Krebs-Immunotherapie. Durch gezielte Variation der Kon-jugationsbedingungen wurde Zusammensetzung, Größe und Aggregationsverhalten in Zell-medium sowie in humanem Serum untersucht. Nach definierter physikalisch-chemischer Charakterisierung wurde dann die induzierte Antigen-Präsentation zur Aktivierung der T-Zellproliferation analysiert.rnDafür wurden zwei verschiedene polymere Carrier-Systeme gewählt, lineares Poly-L-lysin und eine Polylysinbürste (PLL-Bürste). Es wird vermutet, dass die PLL-Bürste aufgrund der anisotropen Form eine bessere Verteilung im Körper und eine verlängerte Zirkulationsdauer zeigen wird. Die zu konjugierenden biologisch aktiven Komponenten waren der antiDEC205-Antikörper (aDEC205) für die gezielte Adressierung CD8-positiver dendritischer Zellen (DC), ein Ovalbumin (OVA)-spezifisches Antigen mit der Kernsequenz SIINFEKL für die Spezifität der Immunantwort gegen Krebszellen, die dieses Antigen tragen, und ein immunaktivieren-der TLR9-Ligand, CpG1826. Die Effizienz dieses Konjugates dendritische Zellen zu aktivieren, welche wiederum eine Immunantwort gegen OVA-exprimierende Krebszellen induzieren, wurde durch die Konjugation aller Komponenten am identischen Trägermolekül deutlich höher erwartet.rnLineares Poly-L-lysin diente als Modellsystem um die Konjugationschemie zu etablieren und dann auf die zylindrische Polylysinbürste zu übertragen. Anhand dieser polymeren Träger wurde das Verhalten der verschiedenen Topologien des Knäuels und der Bürste im Hinblick auf den Einfluss struktureller Unterschiede sowohl auf Konjugationsreaktionen als auch auf das in situ und in vitro Verhalten untersucht.rnFluoreszenzmarkiertes Antigen und der CpG Aktivator konnten jeweils aufgrund einer Thiol-Modifizierung an die Thiol-reaktive Maleimidgruppe des heterobifunktionellen Linkers Sulfo-SMCC an PLL-AlexaFluor48 konjugiert werden. Anschließend wurde aDEC205-AlexaFluor647 an PLL gekoppelt, entweder durch Schiff Base-Reaktion des oxidierten Antikörpers mit PLL und anschließender Reduzierung oder durch Click-Reaktion des PEG-Azids modifizierten An-tikörpers mit Dicyclobenzylcyclooctin (DIBO)-funktionalisiertem PLL. Die Konjugation der biologisch aktiven Komponenten wurde mit Durchflusszytometrie (FACS) und konfokaler Laser Scanning Mikroskopie (CLSM) untersucht und die Zusammensetzung des Konjugatesrnmittels UV/Vis-Spektroskopie bestimmt. Die PLL-Bürste alleine zeigte eine hohe Zytotoxizität bei HeLa und JAWS II Zelllinien, wohingegen lineares PLL und PLL-Konjugate sowie die PLL Bürsten-Konjugate keine ausgeprägte Zytotoxizität aufwiesen. Die Polymer-Konjugate wie-sen keine Aggregation in Zellmedium oder humanem Serum auf, was mittels winkelabhängi-ger dynamischer Lichtstreuung bestimmt wurde. CLSM Aufnahmen zeigten Kolokalisation der an die einzelnen Komponenten gebundenen Fluoreszenzfarbstoffe in dendritischen Zel-len, was die erfolgreiche Konjugation und Internalisierung der Konjugate in die Zellen bele-gen konnte. FACS Messungen ergaben eine geringfügig erhöhte Aufnahme des adressierten PLL-Antigen-Antikörper-Konjugates verglichen mit dem PLL-Antigen-Konjugat. Experimente mit dem „Specific Hybridization Internalization Sensor“ (SHIP) zeigten jedoch nur Aufnahme der PLL-Konjugate in CD8+ unreife DC, nicht in reife DC, die nicht mehr unspezifisch, sondern nur noch über Rezeptoren internalisieren. Dies bewies die unspezifische Aufnahme des Kon-jugates, da Antikörper-Konjugation keine Rezeptor-vermittelte Endozytose in reife DC indu-zieren konnte. T-Zell-Proliferationsassays ergaben eine Aktivierung von CD8+ T-Zellen indu-ziert durch Antigen-tragende Konjugate, wohingegen Konjugate ohne Antigen als Negativ-kontrollen dienten und keine T-Zell-Proliferation erzielten. Es konnte jedoch kein Unter-schied zwischen adressierten und nicht adressierten Konjugaten aufgrund der unspezifischen Aufnahme durch das Polymer beobachtet werden. Lösliches SIINFEKL alleine bewirkte schon bei geringeren Konzentrationen eine T-Zell-Proliferation.rnEs war somit möglich, drei biologischen Komponenten an einen polymeren Träger zu konju-gieren und diese Konjugate im Hinblick auf Zusammensetzung, Größe, Internalisierung in dendritische Zellen und Aktivierung der T-Zell-Proliferation zu untersuchen. Außerdem wur-de die Konjugationschemie erfolgreich von dem Modellsystem des linearen PLL auf die PLL-Bürste übertragen. Die Polymer-Konjugate werde unspezifisch in DC aufgenommen und in-duzieren T-Zellproliferation, die mit Antigen-Präsentationsassays nachgewiesen wird. Es konnte jedoch durch Konjugation des Antikörpers keine Rezeptor-vermittelte Aufnahme in CD8+ DC erzielt werden.rnDiese Studien stellen einen erfolgsversprechenden ersten Schritt zur Entwicklung neuer Na-nomaterialien für die Anwendung in Krebs-Immuntherapie dar.

Unbinding forces of single antibody-antigen complexes correlate with their thermal dissociation rates

Point mutants of three unrelated antifluorescein antibodies were constructed to obtain nine different single-chain Fv fragments, whose on-rates, off-rates, and equilibrium binding affinities were determined in solution. Additionally, activation energies for unbinding were estimated from the temperature dependence of the off-rate in solution. Loading rate-dependent unbinding forces were determined for single molecules by atomic force microscopy, which extrapolated at zero force to a value close to the off-rate measured in solution, without any indication for multiple transition states. The measured unbinding forces of all nine mutants correlated well with the off-rate in solution, but not with the temperature dependence of the reaction, indicating that the same transition state must be crossed in spontaneous and forced unbinding and that the unbinding path under load cannot be too different from the one at zero force. The distance of the transition state from the ground state along the unbinding pathway is directly proportional to the barrier height, regardless of the details of the binding site, which most likely reflects the elasticity of the protein in the unbinding process. Atomic force microscopy thus can be a valuable tool for the characterization of solution properties of protein-ligand systems at the single molecule level, predicting relative off-rates, potentially of great value for combinatorial chemistry and biology.

A recombinant antibody with the antigen-specific, major histocompatibility complex-restricted specificity of T cells.

Specific recognition of peptide/major histocompatibility complex (MHC) molecule complexes by the T-cell receptor is a key reaction in the specific immune response. Antibodies against peptide/MHC complexes would therefore be valuable tools in studying MHC function and T-cell recognition and might lead to novel approaches in immunotherapy. However, it has proven difficult to generate antibodies with the specificity of T cells by conventional hybridoma techniques. Here we report that the phage display technology is a feasible alternative to generate antibodies recognizing specific, predetermined peptide/MHC complexes.