Safety,Biodistribution,and Efficacy of an AAV-5 Vector Encoding Human Interferon-Beta (ART-I02) Delivered via Intra-Articular Injection in Rhesus Monkeys with Collagen-Induced Arthritis

Abstract

Preclinical studies to assess biodistribution, safety, and initial efficacy of ART-I02, an adeno-associated type 5 (rAAV5) vector expressing human interferon β (hIFN-β), were performed in a total of 24 rhesus monkeys with collagen-induced arthritis. All monkeys were naïve or showed limited neutralizing antibody (Nab) titers to AAV5 at the start of the study. Animals were injected with a single intra-articular dose of ART-I02 or placebo, consisting of 3.2×10¹³ vg (Dose A=maximum feasible dose), 4.58×10¹² vg (Dose B), or placebo in the first affected finger joint, the ipsilateral knee, and ankle joint at the same time point. Animals were monitored for clinical parameters and well-being with a maximum of 4 weeks, with the option that the severity of arthritis could necessitate an earlier time point of sacrifice. No adverse events were noted after injection of ART-I02. No abnormalities were observed after histological evaluation of all organs. At both dose levels, immunohistochemical staining indicated expression of hIFN-β. In animals injected with Dose A, we observed stabilization or a reduction in swelling in the finger joint in which vector was administered. The highest copy numbers of vector DNA were detected in synovial tissue of the injected joint and the draining lymph node of the injected knee. High titers of Nab to rAAV5 were observed at the end of the study. Five monkeys developed an rAAV5-specific T-cell response. Two monkeys developed Nab to hIFN-β. In conclusion, intra-articular injection of ART-I02 was well-tolerated and did not induce adverse events. After administration of Dose A of ART-I02, we observed a beneficial effect on joint swelling, substantiated by decreased histological inflammation and bone erosion scores. A GMP vector for clinical application has been manufactured and is currently being tested in GLP rodent studies, with the aim to move forward to a clinical trial.

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References

Feldmann

. Development of anti-TNF therapy for rheumatoid arthritis. Nat Rev Immunol, 2002; 2:364–371.

Firestein

. Evolving concepts of rheumatoid arthritis. Nature, 2003; 423:356–361.

Adriaansen

, Vervoordeldonk

, Tak

. Gene therapy as a therapeutic approach for the treatment of rheumatoid arthritis: innovative vectors and therapeutic genes. Rheumatology (Oxford), 2006; 45:656–668.

Adriaansen

, Tas

, Klarenbeek

, et al. Enhanced gene transfer to arthritic joints using adeno-associated virus type 5: implications for intra-articular gene therapy. Ann Rheum Dis, 2005; 64:1677–1684.

Apparailly

, Khoury

, Vervoordeldonk

, et al. Adeno-associated virus pseudotype 5 vector improves gene transfer in arthritic joints. Hum Gene Ther, 2005; 16:426–434.

Boutin

, Monteilhet

, Veron

, et al. Prevalence of serum IgG and neutralizing factors against adeno-associated virus (AAV) types 1, 2, 5, 6, 8, and 9 in the healthy population: implications for gene therapy using AAV vectors. Hum Gene Ther, 2010; 21:704–712.

Mingozzi

, Chen

, Edmonson

, et al. Prevalence and pharmacological modulation of humoral immunity to AAV vectors in gene transfer to synovial tissue. Gene Ther, 2013; 20:417–424.

Tak

. IFN-beta in rheumatoid arthritis. Front Biosci, 2004; 9:3242–3247.

van Holten

, Plater-Zyberk

, Tak

. Interferon-beta for treatment of rheumatoid arthritis?. Arthritis Res, 2002; 4:346–352.

10.

Vervoordeldonk

, Aalbers

, Tak

. Interferon beta for rheumatoid arthritis: new clothes for an old kid on the block. Ann Rheum Dis, 2009; 68:157–158.

11.

Smeets

, Dayer

, Kraan

, et al. The effects of interferon-beta treatment of synovial inflammation and expression of metalloproteinases in patients with rheumatoid arthritis. Arthritis Rheum, 2000; 43:270–274.

12.

Tak

, Hart

, Kraan

, et al., The effects of interferon beta treatment on arthritis. Rheumatology (Oxford), 1999; 38:362–369.

13.

Takayanagi

, Kim

, Matsuo

, et al. RANKL maintains bone homeostasis through c-Fos-dependent induction of interferon-beta. Nature, 2002; 416:744–749.

14.

Alliston

, Derynck

. Medicine: interfering with bone remodelling. Nature, 2002; 416:686–687.

15.

Crotti

, Smith

, Weedon

, et al. Receptor activator NF-kappaB ligand (RANKL) expression in synovial tissue from patients with rheumatoid arthritis, spondyloarthropathy, osteoarthritis, and from normal patients: semiquantitative and quantitative analysis. Ann Rheum Dis, 2002; 61:1047–1054.

16.

Wang

, Shaked

, Stanford

, et al. The autoimmunity-associated gene PTPN22 potentiates toll-like receptor-driven, type 1 interferon-dependent immunity. Immunity, 2013; 39:111–122.

17.

de Groot

, Garcia

, Verschoor

, et al. Reduced MIC gene repertoire variation in West African chimpanzees as compared to humans. Mol Biol Evol, 2005; 22:1375–1385.

18.

van Holten

, Reedquist

, Sattonet-Roche

, et al. Treatment with recombinant interferon-beta reduces inflammation and slows cartilage destruction in the collagen-induced arthritis model of rheumatoid arthritis. Arthritis Res Ther, 2004; 6:R239–R249.

19.

Triantaphyllopoulos

, Williams

, Tailor

, et al. Amelioration of collagen-induced arthritis and suppression of interferon-gamma, interleukin-12, and tumor necrosis factor alpha production by interferon-beta gene therapy. Arthritis Rheum, 1999; 42:90–99.

20.

van Holten

, Pavelka

, Vencovsky

, et al. A multicentre, randomised, double blind, placebo controlled phase II study of subcutaneous interferon beta-1a in the treatment of patients with active rheumatoid arthritis. Ann Rheum Dis, 2005; 64:64–69.

21.

Adriaansen

, Kuhlman

, van Holten

, et al. Intraarticular interferon-beta gene therapy ameliorates adjuvant arthritis in rats. Hum Gene Ther, 2006; 17:985–996.

22.

Khoury

, Adriaansen

, Vervoordeldonk

, et al. Inflammation-inducible anti-TNF gene expression mediated by intra-articular injection of serotype 5 adeno-associated virus reduces arthritis. J Gene Med, 2007; 9:596–604.

23.

Adriaansen

, Fallaux

, de Cortie

, et al. Local delivery of beta interferon using an adeno-associated virus type 5 effectively inhibits adjuvant arthritis in rats. J Gen Virol, 2007; 88:1717–1721.

24.

Hart

, Bank

, De Roos

, et al. Collagen-induced arthritis in rhesus monkeys: evaluation of markers for inflammation and joint degradation. Br J Rheumatol, 1998; 37:314–323.

25.

Otting

, Heijmans

, Noort

, et al. Unparalleled complexity of the MHC class I region in rhesus macaques. Proc Natl Acad Sci USA, 2005; 102:1626–1631.

26.

Vierboom

, Jonker

, Tak

, et al. Preclinical models of arthritic disease in non-human primates. Drug Discov Today, 2007; 12:327–335.

27.

Vierboom

, Jonker

, Bontrop

, et al. Modeling human arthritic diseases in nonhuman primates. Arthritis Res Ther, 2005; 7:145–154.

28.

Bakker

, van Erck

, Otting

, et al. Resistance to collagen-induced arthritis in a nonhuman primate species maps to the major histocompatibility complex class I region. J Exp Med, 1992; 175:933–937.

29.

Brok

, Tekoppele

, Hakimi

, et al. Prophylactic and therapeutic effects of a humanized monoclonal antibody against the IL-2 receptor (DACLIZUMAB) on collagen-induced arthritis (CIA) in rhesus monkeys. Clin Exp Immunol, 2001; 124:134–141.

30.

Lindh

, Snir

, Lonnblom

, et al. Type II collagen antibody response is enriched in the synovial fluid of rheumatoid joints and directed to the same major epitopes as in collagen induced arthritis in primates and mice. Arthritis Res Ther, 2014; 16:R143.

31.

Vierboom

, Zavodny

, Chou

, et al. Inhibition of the development of collagen-induced arthritis in rhesus monkeys by a small molecular weight antagonist of CCR5. Arthritis Rheum, 2005; 52:627–636.

32.

Vierboom

, Breedveld

, Kondova

, et al. The significance of non-human primates as preclinical models of human arthritic disease. Expert Opin Drug Discov, 2008; 3:299–310.

33.

Paneda

, Lopez-Franco

, Kaeppel

, et al. Safety and liver transduction efficacy of rAAV5-cohPBGD in nonhuman primates: a potential therapy for acute intermittent porphyria. Hum Gene Ther, 2013; 24:1007–1017.

34.

Favaro

, Finn

, Siner

, et al. Safety of liver gene transfer following peripheral intravascular delivery of adeno-associated virus (AAV)-5 and AAV-6 in a large animal model. Hum Gene Ther, 2011; 22:843–852.

35.

Nathwani

, Gray

, McIntosh

, et al. Safe and efficient transduction of the liver after peripheral vein infusion of self-complementary AAV vector results in stable therapeutic expression of human FIX in nonhuman primates. Blood, 2007; 109:1414–1421.

36.

Amado

, Mingozzi

, Hui

, et al. Safety and efficacy of subretinal readministration of a viral vector in large animals to treat congenital blindness. Sci Transl Med, 2010; 2:21ra16.

37.

Matsushita

, Elliger

, et al. Adeno-associated virus vectors can be efficiently produced without helper virus. Gene Ther, 1998; 5:938–945.

38.

Wright

, Le

, Prado

, et al. Identification of factors that contribute to recombinant AAV2 particle aggregation and methods to prevent its occurrence during vector purification and formulation. Mol Ther, 2005; 12:171–178.

39.

Manno

, Pierce

, Arruda

, et al. Successful transduction of liver in hemophilia by AAV-Factor IX and limitations imposed by the host immune response. Nat Med, 2006; 12:342–347.

40.

Pettit

, Ji

, von Stechow

, et al. TRANCE/RANKL knockout mice are protected from bone erosion in a serum transfer model of arthritis. Am J Pathol, 2001; 159:1689–1699.

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