Mechanisms of Autoantibody-Induced Pathology

Autoantibodies are frequently observed in healthy individuals. In a minority of these individuals, they lead to manifestation of autoimmune diseases, such as rheumatoid arthritis or Graves' disease. Overall, more than 2.5% of the population is affected by autoantibody-driven autoimmune disease. Pathways leading to autoantibody-induced pathology greatly differ among different diseases, and autoantibodies directed against the same antigen, depending on the targeted epitope, can have diverse effects. To foster knowledge in autoantibody-induced pathology and to encourage development of urgently needed novel therapeutic strategies, we here categorized autoantibodies according to their effects. According to our algorithm, autoantibodies can be classified into the following categories: (1) mimic receptor stimulation, (2) blocking of neural transmission, (3) induction of altered signaling, triggering uncontrolled (4) microthrombosis, (5) cell lysis, (6) neutrophil activation, and (7) induction of inflammation. These mechanisms in relation to disease, as well as principles of autoantibody generation and detection, are reviewed herein

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Methylprednisolone Blocks Autoantibody-Induced Tissue Damage in Experimental Models of Bullous Pemphigoid and Epidermolysis Bullosa Acquisita through Inhibition of Neutrophil Activation

Corticosteroids are regularly used to treat autoimmune diseases, such as bullous pemphigoid (BP). In BP, autoantibodies bind to type XVII collagen (COL17), located at the dermal-epidermal junction. A crucial role of neutrophils in experimental BP has been established. Specifically, reactive oxygen species and proteolytic granule enzymes mediate tissue injury. Therefore, we investigated the effects of methylprednisolone (MP) on neutrophils, which are likely to be affected by topical treatment. First, MP inhibited dermal-epidermal separation ex vivo in cryosections of the human skin induced by co-incubation of BP autoantibodies with neutrophils from healthy volunteers. Next, MP inhibited neutrophil activation in vitro induced by immune complexes (ICs) of COL17 and autoantibodies. This neutrophil activation was associated with phosphorylation of extracellular signal-regulated kinases 1 and 2 (ERK1/2), p38 mitogen-activated protein kinase (MAPK), and Akt. In turn, inhibition of ERK1/2, p38 MAPK, or Akt phosphorylation inhibited neutrophil activation by IC in vitro and dermal-epidermal separation ex vivo. In addition, we observed an increase of p38 MAPK phosphorylation in dermal infiltrates of BP patients. Treatment of mice with either MP or inhibitors of p38-MAPK or ERK1/2 phosphorylation impaired induction of autoantibody- or irritant-induced neutrophil-dependent inflammation. We here identify the inhibition of Akt, ERK1/2, and p38 MAPK phosphorylation as molecular mechanisms to promote MP's therapeutic effects.Journal of Investigative Dermatology advance online publication, 4 April 2013; doi:10.1038/jid.2013.91

A variational approach to bifurcation points of a reaction-diffusion system with obstacles and neumann boundary conditions

Given a reaction-diffusion system which exhibits Turing's diffusion-driven instability, the influence of unilateral obstacles of opposite sign (source and sink) on bifurcation and critical points is studied. In particular, in some cases it is shown that spatially nonhomogeneous stationary solutions (spatial patterns) bifurcate from a basic spatially homogeneous steady state for an arbitrarily small ratio of diffusions of inhibitor and activator, while a sufficiently large ratio is necessary in the classical case without unilateral obstacles. The study is based on a variational approach to a non-variational problem which even after transformation to a variational one has an unusual structure for which usual variational methods do not apply