Gene therapy enhances deoxyribonuclease I treatment in antimyeloperoxidase glomerulonephritis
Anne Cao Le, Virginie Oudin, Jonathan Dick, Maliha A. Alikhan, Timothy A. Gottschalk, Lu Lu, Kate E. Lawlor, Daniel Koo Yuk Cheong, Mawj Mandwie, Ian E. Alexander, A.R. Kitching, Poh-Yi Gan, Grant J. Logan, Kim M. O’Sullivan
Anne Cao Le, Virginie Oudin, Jonathan Dick, Maliha A. Alikhan, Timothy A. Gottschalk, Lu Lu, Kate E. Lawlor, Daniel Koo Yuk Cheong, Mawj Mandwie, Ian E. Alexander, A.R. Kitching, Poh-Yi Gan, Grant J. Logan, Kim M. O’Sullivan
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Research Article Inflammation

Gene therapy enhances deoxyribonuclease I treatment in antimyeloperoxidase glomerulonephritis

Abstract

Extracellular DNA (ecDNA) released from injured and dying cells powerfully induces injurious inflammation. In this study we define the role of ecDNA in systemic vasculitis affecting the kidney, using human kidney biopsies and murine models of myeloperoxidase anti-neutrophil cytoplasmic antibody-associated glomerulonephritis (MPO-ANCA GN). Twice daily administration of intravenous deoxyribonuclease I (ivDNase I) in 2 models of anti-MPO GN reduced glomerular deposition of ecDNA, histological injury, leukocyte infiltration, and NETosis. Comprehensive investigation into DNase I modes of action revealed that after exposure to MPO, DNase I reduced lymph node DC numbers and their activation status, resulting in decreased frequency of MPO-specific CD4+ effector T cells (IFN-γ and IL-17A producing) and reductions in dermal anti-MPO delayed type hypersensitivity responses. To overcome the translational obstacle of the short half-life of DNase I (<5 hours), we tested an adeno-associated viral vector encoding DNase I. This method of DNase I delivery was more effective, as in addition to the histological and antiinflammatory changes described above, a single vector treatment also reduced circulating MPO-ANCA titers and albuminuria. These results indicate ecDNA is a potent driver of anti-MPO GN and DNase I is a potential therapeutic that can be delivered using gene technology.

Authors

Anne Cao Le, Virginie Oudin, Jonathan Dick, Maliha A. Alikhan, Timothy A. Gottschalk, Lu Lu, Kate E. Lawlor, Daniel Koo Yuk Cheong, Mawj Mandwie, Ian E. Alexander, A.R. Kitching, Poh-Yi Gan, Grant J. Logan, Kim M. O’Sullivan

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Figure 5

DNase I treatment reduces autoimmunity to MPO and reduces DC and T cell activation from the draining lymph nodes.

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DNase I treatment reduces autoimmunity to MPO and reduces DC and T cell ...
(A) Experimental timeline for a 10-day MPO immunization model where mice receive vehicle ctrl or ivDNase I 1 day prior to immunization with MPO. Mice subsequently receive vehicle ctrl or ivDNase I daily until the end of the experiment at 10 days postimmunization. Animals were assessed for (B) delayed type hypersensitivity response after intradermal MPO injection, (C) serum MPO-ANCA and frequency of (D) MPO-specific IFN-γ and MPO-specific IL-17A via ELISPOTs quantitated in E and F, and number of ex vivo CD4+FoxP3+CTV lymphocytes that proliferate in response to MPO, from lymph nodes draining sites of MPO immunization (G). (H) Experimental timeline for an 18-hour MPO immunization model where mice receive vehicle ctrl or ivDNase I 1 day prior to immunization with MPO, with experiment terminated 18 hours postimmunization. Lymph nodes draining the site of MPO immunization were assessed for the frequency of (I) CD11c DCs that also expressed (J) MHCII, (K) CD40, (L) CD80, (M) CD86, (N) OX40L, or (O) ICOS. (P) Frequency of activated CD4+ T cells in lymph nodes draining the site of MPO immunization. *P < 0.05, **P < 0.01, ***P < 0.001, analyzed by Mann-Whitney U test. Dotted line represents the OVA-immunized reference control. Data are median (IQR) from n = 10 mice in the 10-day model and n = 8 mice in the 18-hour model. CTV, cell tracker violet; D-1, day minus 1; FCA, Freund’s complete adjuvant; IV, intravenous tail vein injection; DTH, delayed type hypersensitivity; MPO, myeloperoxidase; IFN-γ, interferon-gamma; IL-17A, interleukin-17A; ELISPOT, enzyme-linked immunoSpot; ICOS, inducible T cell co-stimulator; MHCII, major histocompatibility complex class II; DNase I, deoxyribonuclease I; Ctrl, control; IQR, interquartile range.