Your search keyword '"Wasowska, Barbara A."' showing total 3 results

1. New concepts of complement in allorecognition and graft rejection.

Author

Wasowska BA, Lee CY, Halushka MK, and Baldwin WM 3rd

Subjects

Animals, Antigen Presentation immunology, B-Lymphocytes immunology, Cadaver, Complement Pathway, Alternative immunology, Complement Pathway, Classical immunology, Female, Heart Transplantation, Humans, Isoantigens immunology, Models, Animal, Reperfusion Injury immunology, T-Lymphocytes immunology, Transfusion Reaction, Transplantation, Heterologous immunology, Complement Activation, Complement System Proteins immunology, Graft Rejection immunology, Pregnancy immunology, Transplantation, Homologous immunology

Abstract

In transplantation, activation of complement has largely been equated to antibody-mediated rejection, but complement is also important in recognition of apoptotic and necrotic cells as well as in modifying antigen presentation to T cells and B cells. As a part of the innate immune system, complement is one of the first responses to injury, and it can determine the direction and magnitude of the subsequent responses. Consequently, the effects of complement in allorecognition and graft rejection are increased when organs are procured from cadaver donors because these organs sustain a series of stresses from brain death, prolonged life support, ischemia and finally reperfusion that initiate proinflammatory processes and tissue injury. In addition, these organs are transplanted to patients, who frequently have been sensitized to histocompatibility antigens as the result of transfusions, pregnancies or transplants. Complement activation generates a series of biologically active effector molecules that can modulate graft rejection by directly binding to the graft or by modifying the response of macrophages, T and B cells of the recipient. However, complement is regulated and the process of regulation produces split products that can decrease as well as increase immune responses. Small animal models have been developed to test these variables. The guide for evaluating results from these models remains clinical findings because there are significant differences between the rodent and human complement systems.

Published

2007

2. Non-complement- and complement-activating antibodies synergize to cause rejection of cardiac allografts.

Author

Rahimi S, Qian Z, Layton J, Fox-Talbot K, Baldwin WM 3rd, and Wasowska BA

Subjects

Animals, Antibodies, Monoclonal immunology, Antibodies, Monoclonal pharmacology, Drug Synergism, Graft Rejection chemically induced, Immunoglobulin G immunology, Immunoglobulin G pharmacology, Isoantibodies immunology, Mice, Complement System Proteins immunology, Graft Rejection immunology, Heart Transplantation immunology

Abstract

Alloantibodies (AlloAbs) are a clinically significant component of the immune response to organ transplants. In our experimental model, B10.A (H-2a) cardiac transplants survived significantly longer in C57BL/6 (H-2b) immunoglobulin knock-out (IgKO) recipients than in their wild-type (WT) counterparts. Passive transfer of a single 50-200-microg dose of complement-activating IgG2b AlloAbs to IgKO recipients reconstituted acute rejection of cardiac allografts. Although passive transfer of a subthreshold dose of 25 microg of IgG2b or a single 100-200-microg dose of non-complement-activating IgG1 AlloAbs did not restore acute rejection to IgKO recipients, a combination of these AlloAbs did cause acute graft rejection. Histologically, rejection was accompanied by augmented release of von Willebrand factor from endothelial cells. IgG1 AlloAbs did not activate complement on their own and did not augment complement activation by IgG2b AlloAbs. However, IgG1 AlloAbs stimulated cultured mouse endothelial cells to produce monocyte chemotactic protein 1 (MCP-1) and neutrophil chemoattractant growth-related oncogene alpha (KC). TNF-alpha augmented IgG1 induced secretion of MCP-1 and KC. These findings indicate that non-complement-activating AlloAbs can augment injury to allografts by complement-activating AlloAbs. Non-complement-activating AlloAbs stimulate endothelial cells to produce chemokines and this effect is augmented in the milieu of proinflammatory cytokines.

Published

2004

3. Beyond C4d: other complement-related diagnostic approaches to antibody-mediated rejection.

Author

Baldwin WM 3rd, Kasper EK, Zachary AA, Wasowska BA, and Rodriguez ER

Subjects

Animals, Complement C1 immunology, Complement C4 immunology, Graft Rejection immunology, Graft Rejection pathology, Humans, Inflammation Mediators immunology, Mice, Antibodies immunology, Complement System Proteins, Graft Rejection diagnosis

Abstract

Complement is a multifunctional system of receptors and regulators as well as effector molecules. Both the pathogenic and diagnostic power of complement is based on the capacity of the complement system to amplify innate and adaptive immunity. This amplification is accomplished through two strategies: (1) enzymatic reactions in the complement cascade, and (2) stimulation of leukocytes, platelets and parenchymal cells through specific receptors or receptor-independent pore formation. The mechanisms by which complement mediates and modifies nonspecific inflammation, antibody-mediated injury and T-cell responses are of particular significance to the pathogenesis of transplant rejection. Understanding the mechanisms by which complement integrates the interactions of leukocytes, platelets and parenchymal cells offers opportunities to further refine the diagnosis of rejection.

Published

2004