Liver gene therapy by lentiviral vectors reverses anti‐factor IX pre‐existing immunity in haemophilic mice

Andrea Annoni,Alessio Cantore,Fabio Russo,Sara Bartolaccini,Maria Grazia Roncarolo,Kevin Goudy,Mahzad Akbarpour,Armando D'Angelo,Patrizia Della Valle,Luigi Naldini

doi:10.1002/emmm.201302857

Abstract

A major complication of factor replacement therapy for haemophilia is the development of anti-factor neutralizing antibodies (inhibitors). Here we show that liver gene therapy by lentiviral vectors (LVs) expressing factor IX (FIX) strongly reduces pre-existing anti-FIX antibodies and eradicates FIX inhibitors in haemophilia B mice. Concomitantly, plasma FIX levels and clotting activity rose to 50–100% of normal. The treatment was effective in 75% of treated mice. FIX-specific plasma cells (PCs) and memory B cells were reduced, likely because of memory B-cell depletion in response to constant exposure to high doses of FIX. Regulatory T cells displaying FIX-specific suppressive capacity were induced in gene therapy treated mice and controlled FIX-specific T helper cells. Gene therapy proved safer than a regimen mimicking immune tolerance induction (ITI) by repeated high-dose FIX protein administration, which induced severe anaphylactoid reactions in inhibitors-positive haemophilia B mice. Liver gene therapy can thus reverse pre-existing immunity, induce active tolerance to FIX and establish sustained FIX activity at therapeutic levels. These data position gene therapy as an attractive treatment option for inhibitors-positive haemophilic patients.

Highlights

Haemophilia is a monogenic disease due to mutations in the gene encoding for coagulation factor VIII (FVIII; haemophilia A) or factor IX (FIX; haemophilia B)
We show that lentiviral vectors (LVs)‐mediated FIX gene transfer to hepatocytes can reverse pre‐existing neutralizing immunity in haemophilia B mice
OVA-specific immunoglobulin G (IgG)-secreting plasma cells (PCs), which derive from activated BMEM, were counted by elispotat the end of the Ag exposure

Summary

Introduction

Haemophilia is a monogenic disease due to mutations in the gene encoding for coagulation factor VIII (FVIII; haemophilia A) or factor IX (FIX; haemophilia B). The deficiency or dysfunction of one of these factors impairs proper blood coagulation (Mannucci & Tuddenham, 2001). Haemophilic patients are currently treated by prophylactic or on‐demand intravenous (i.v.) infusions of recombinant factors (replacement (1) TIGET, San Raffaele Telethon Institute for Gene Therapy, San Raffaele Scientific Institute, Milan, Italy (2) Vita Salute San Raffaele University, Milan, Italy (3) Coagulation Service and Thrombosis Research Unit, San Raffaele Scientific yThese authors contributed to this work. The major complication of factor replacement therapy is the formation of antibodies (Abs) against the supplied factor that can neutralize its activity. Neutralizing anti‐factor Abs are frequently referred to as inhibitors. Inhibitors develop in 20–30% of patients with severe haemophilia A and 3–5% of patients with haemophilia B following replacement therapy (Astermark et al, 2008)

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