HIV-1 suppression and durable control by combining single broadly neutralizing antibodies and antiretroviral drugs in humanized mice

Effective control of HIV-1 infection in humans is achieved using combinations of antiretroviral therapy (ART) drugs. In humanized mice (hu-mice), control of viremia can be achieved using either ART or by immunotherapy using combinations of broadly neutralizing antibodies (bNAbs). Here we show that treatment of HIV-1–infected hu-mice with a combination of three highly potent bNAbs not only resulted in complete viremic control but also led to a reduction in cell-associated HIV-1 DNA. Moreover, lowering the initial viral load by coadministration of ART and immunotherapy enabled prolonged viremic control by a single bNAb after ART was withdrawn. Similarly, a single injection of adeno-associated virus directing expression of one bNAb produced durable viremic control after ART was terminated. We conclude that immunotherapy reduces plasma viral load and cell-associated HIV-1 DNA and that decreasing the initial viral load enables single bNAbs to control viremia in hu-mice

Ertüchtigung der Flachschleifmaschine ELB SF 30

Aufbauend auf dem Praktikumsbericht wird in der vorliegenden Bachelorarbeit, das Thema „Ertüchtigung der Flachschleifmaschine ELB“ weiter behandelt. Es wird dabei speziell die Einführung eines neuen Bedienpanels an der Maschine konkretisiert. Zu Beginn erfolgt die Auswahl eines geeigneten Panels, welches zu der vorhandenen Steuerung kompatibel ist. Daraufhin folgt die Vorstellung der Visualisierungssoftware, sowie der Software zum Testen der projektierten Oberfläche des Bediengerätes. Im weiteren Verlauf finden sich Erläuterungen zur Programmierung des Panels, bezogen auf das ELB-Projekt wieder. Das letzte Kapitel bezieht sich auf die konkrete SPS-Lösung zwei ausgewählter Steuerungsfunktionen, zum einen die Magnetsteuerung und zum anderen die Querantriebsteuerung

Medium-throughput image-based phenotypic siRNA screen to unveil the molecular basis of B cell polarization

Abstract Cell polarity is an essential and highly conserved process governing cell function. Cell polarization is generally triggered by an external signal that induces the relocation of the centrosome, thus defining the polarity axis of the cell. Here, we took advantage of B cells as a model to study cell polarity and perform a medium-throughput siRNA-based imaging screen to identify new molecular regulators of polarization. We first identified candidates based on a quantitative proteomic analysis of proteins differentially associated with the centrosome of resting non-polarized and stimulated polarized B cells. We then targeted 233 candidates in a siRNA screen and identified hits regulating the polarization of the centrosome and/or lysosomes in B cells upon stimulation. Our dataset of proteomics, images, and polarity indexes provides a valuable source of information for a broad community of scientists interested in the molecular mechanisms regulating cell polarity

The cytokine interleukin-33 mediates anaphylactic shock

Anaphylactic shock is characterized by elevated immunoglobulin-E (IgE) antibodies that signal via the high affinity Fcε receptor (FcεRI) to release inflammatory mediators. Here we report that the novel cytokine interleukin-33 (IL-33) potently induces anaphylactic shock in mice and is associated with the symptom in humans. IL-33 is a new member of the IL-1 family and the ligand for the orphan receptor ST2. In humans, the levels of IL-33 are substantially elevated in the blood of atopic patients during anaphylactic shock, and in inflamed skin tissue of atopic dermatitis patients. In murine experimental atopic models, IL-33 induced antigen-independent passive cutaneous and systemic anaphylaxis, in a T cell–independent, mast cell–dependent manner. In vitro, IL-33 directly induced degranulation, strong eicosanoid and cytokine production in IgE-sensitized mast cells. The molecular mechanisms triggering these responses include the activation of phospholipase D1 and sphingosine kinase1 to mediate calcium mobilization, Nuclear factor–κB activation, cytokine and eicosanoid secretion, and degranulation. This report therefore reveals a hitherto unrecognized pathophysiological role of IL-33 and suggests that IL-33 may be a potential therapeutic target for anaphylaxis, a disease of considerable unmet medical need

IgG-mediated anaphylaxis via Fcγ receptor in CD40-deficient mice

Anaphylaxis denotes an immediate hypersensitivity reaction to allergen, exclusively mediated by IgE antibodies. However, IgE antibodies do not explain all the syndromes that are encountered. We investigated potent IgG-mediated anaphylaxis in CD40-deficient mice that lack the immunoglobulin class switching for T cell-dependent antigens. Immunization with ovalbumin did not induce either humoral responses of IgG, IgA, and IgE, or systemic anaphylaxis in CD40-deficient mice. Although systemic anaphylaxis by active immunization was not observed in CD40-deficient mice, both passive cutaneous anaphylaxis (PCA) and passive systemic anaphylaxis assessed by mouse blood pressure monitoring with cervical artery catheterization did take place when antigen-specific IgG was transferred and then antigen challenge given. Further, to investigate the inflammatory pathway of IgG-mediated immediate hypersensitivity reactions, we focused on the Fcγ receptor (FcγR) function. Pretreatment of the mice with the anti-FcγRII/FcγRIII MoAb clearly blocked the response of PCA and passive systemic anaphylaxis, suggesting that they were initiated through FcγR. In conclusion, we directly demonstrate the IgG-mediated anaphylaxis and its triggering mechanism through FcγR in in vivo conditions. In addition to IgE-mediated anaphylaxis, IgG-mediated anaphylaxis should be considered and the blocking of FcγR would provide one of the therapeutic targets for the control of IgG-mediated hypersensitivity diseases