Dual inhibition of complement factor 5 and leukotriene B4 synergistically suppresses murine pemphigoid disease
Tanya Sezin, Sripriya Murthy, Claudia Attah, Malte Seutter, Maike M. Holtsche, Christoph M. Hammers, Enno Schmidt, Fibi Meshrkey, Sadegh Mousavi, Detlef Zillikens, Miles A. Nunn, Christian D. Sadik
Tanya Sezin, Sripriya Murthy, Claudia Attah, Malte Seutter, Maike M. Holtsche, Christoph M. Hammers, Enno Schmidt, Fibi Meshrkey, Sadegh Mousavi, Detlef Zillikens, Miles A. Nunn, Christian D. Sadik
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Research Article Dermatology

Dual inhibition of complement factor 5 and leukotriene B4 synergistically suppresses murine pemphigoid disease

Abstract

The treatment of most autoimmune diseases still relies on systemic immunosuppression and is associated with severe side effects. The development of drugs that more specifically abrogate pathogenic pathways is therefore most desirable. In nature, such specificity is exemplified, e.g., by the soft tick–derived biotherapeutic Coversin, which locally suppresses immune responses by inhibiting complement factor 5 (C5) and leukotriene B4 (LTB4). C5a, a proteolytic fragment of C5, and LTB4 are critical drivers of skin inflammation in pemphigoid diseases (PDs), a group of autoimmune blistering skin diseases. Here, we demonstrate that both Coversin and its mutated form L-Coversin, which inhibits LTB4 only, dose dependently attenuate disease in a model of bullous pemphigoid–like epidermolysis bullosa acquisita (BP-like EBA). Coversin, however, reduces disease more effectively than L-Coversin, indicating that inhibition of C5 and LTB4 synergize in their suppressing effects in this model. Further supporting the therapeutic potential of Coversin in humans, we found that C5a and LTB4 are both present in the blister fluid of patients with BP in quantities inducing the recruitment of granulocytes and that the number of cells expressing their receptors, C5aR1 and BLT1, respectively, is increased in perilesional skin. Collectively, our results highlight Coversin and possibly L-Coversin as potential therapeutics for PDs.

Authors

Tanya Sezin, Sripriya Murthy, Claudia Attah, Malte Seutter, Maike M. Holtsche, Christoph M. Hammers, Enno Schmidt, Fibi Meshrkey, Sadegh Mousavi, Detlef Zillikens, Miles A. Nunn, Christian D. Sadik

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Figure 4

Effect of treatment with PAS–L-Coversin on skin inflammation at the histopathological level.

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Effect of treatment with PAS–L-Coversin on skin inflammation at the hist...
Histopathological analysis and comparison of skin biopsies from mice treated with varying doses of PAS–L-Coversin or Coversin started 4 days before the first application of anti-COL7c IgG and harvested on day 12 of the antibody transfer BP-like EBA model. (A) Percentage of lesional skin sections exhibiting (red) or not exhibiting (blue) subepidermal clefts. (B) Representative pictures of H&E staining (upper) and immunofluorescence staining for Ly-6G (middle) and Siglec-F (lower). Asterisks in the upper images indicate subepidermal clefts; arrows in the middle and lower images indicate examples for Ly-6G+ (neutrophils) and Siglec-F+ (eosinophils) cells, respectively. (C) Ly-6G+ area and (D) number of Siglec-F+ cells per HPF at original magnification of ×200. Scale bars: 100 μm. Results were pooled from 2 independent experiments and are presented as mean ± SEM; dots represent individual mice (n = 8–12 mice/group). Data in A were analyzed by χ2 test followed by Fisher’s exact test. ***P < 0.001 for the comparisons indicated by dashed lines.