A dual-acting DNASE1/DNASE1L3 biologic prevents autoimmunity and death in genetic and induced lupus models
Paul R. Stabach, Dominique Sims, Eduardo Gomez-Bañuelos, Sandra Zehentmeier, Kris Dammen-Brower, Andrew Bernhisel, Sophia Kujawski, Sam G. Lopez, Michelle Petri, Daniel W. Goldman, Ethan R. Lester, Quan Le, Tayyaba Ishaq, Hana Kim, Shivani Srivastava, Deepika Kumar, Joao P. Pereira, Kevin J. Yarema, Fotios Koumpouras, Felipe Andrade, Demetrios T. Braddock
Paul R. Stabach, Dominique Sims, Eduardo Gomez-Bañuelos, Sandra Zehentmeier, Kris Dammen-Brower, Andrew Bernhisel, Sophia Kujawski, Sam G. Lopez, Michelle Petri, Daniel W. Goldman, Ethan R. Lester, Quan Le, Tayyaba Ishaq, Hana Kim, Shivani Srivastava, Deepika Kumar, Joao P. Pereira, Kevin J. Yarema, Fotios Koumpouras, Felipe Andrade, Demetrios T. Braddock
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Research Article Therapeutics

A dual-acting DNASE1/DNASE1L3 biologic prevents autoimmunity and death in genetic and induced lupus models

Abstract

A defining feature of systemic lupus erythematosus (SLE) is loss of tolerance to self-DNA, and deficiency of DNASE1L3, the main enzyme responsible for chromatin degradation in blood, is also associated with SLE. This association can be found in an ultrarare population of pediatric patients with DNASE1L3 deficiency who develop SLE, adult patients with loss-of-function variants of DNASE1L3 who are at a higher risk for SLE, and patients with sporadic SLE who have neutralizing autoantibodies against DNASE1L3. To mitigate the pathogenic effects of inherited and acquired DNASE1L3 deficiencies, we engineered a long-acting enzyme biologic with dual DNASE1/DNASE1L3 activity that is resistant to DNASE1 and DNASE1L3 inhibitors. Notably, we found that the biologic prevented the development of lupus in Dnase1–/–Dnase1L3–/– double-knockout mice and rescued animals from death in pristane-induced lupus. Finally, we confirmed that the human isoform of the enzyme biologic was not recognized by autoantibodies in SLE and efficiently degraded genomic and mitochondrial cell–free DNA, as well as microparticle DNA, in SLE plasma. Our findings suggest that autoimmune diseases characterized by aberrant DNA accumulation, such as SLE, can be effectively treated with a replacement DNASE tailored to bypass pathogenic mechanisms, both genetic and acquired, that restrict DNASE1L3 activity.

Authors

Paul R. Stabach, Dominique Sims, Eduardo Gomez-Bañuelos, Sandra Zehentmeier, Kris Dammen-Brower, Andrew Bernhisel, Sophia Kujawski, Sam G. Lopez, Michelle Petri, Daniel W. Goldman, Ethan R. Lester, Quan Le, Tayyaba Ishaq, Hana Kim, Shivani Srivastava, Deepika Kumar, Joao P. Pereira, Kevin J. Yarema, Fotios Koumpouras, Felipe Andrade, Demetrios T. Braddock

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Figure 6

Membranous glomerulonephropathy and immune complex deposition in glomeruli of vehicle-treated DKO mice.

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Membranous glomerulonephropathy and immune complex deposition in glomeru...
(A) Histologic examination of the kidneys revealed the presence of membranous glomerulopathy and fibrin deposition (indicated by arrows) in some untreated DKO mice (Martius Scarlet Blue stain, original magnification, ×40). These findings were not present in the LBme-treated DKO cohort. (B) Examination of effected kidneys in untreated DKO mice revealed evidence of immunocomplex deposition via immunofluorescence staining with C1q (red) and IgG (green); merged images with DAPI-stained nuclei are also shown. Original magnification, ×100. (C) Glomerulonephritis assessed in a blinded fashion by a board-certified nephropathologist revealed a lower glomerulonephritis score in LBme-treated DKO mice than in WT controls, but there were no significant differences in the treated and untreated DKO mice. (D) Splenomegaly was significantly present in vehicle-treated DKO mice in comparison to their LBme-treated siblings, as were increased erythropoietin (EPO) levels at 52 weeks. (E) Histologic examination of the spleens revealed white pulp expansion due to coalescence of lymphoid follicles in vehicle-treated DKO mice (yellow arrows). Vehicle-treated DKO mice also exhibited robust extramedullary hematopoiesis in comparison to LBme-treated siblings and WT controls (cyan arrows). *P < 0.05, ****P < 0.0001, ANOVA Kruskal-Wallis test.