Researcher ContactMarina Cavazzana
Unité Inserm 1163 "IHU Imagine"
French teams from CIC Biothérapie (AP-HP/Inserm), from pediatric hematology department of Necker Hospital for Children (AP-HP), led by Marina Cavazzana, Salima Hacein Bey Albina and Alain Fischer and from Genethon led by Anne Galy (Genethon/Inserm UMR-S951), and English teams from UCL Institute of Child Health and Great Ormond Street Hospital in London led by Adrian Thrasher and Bobby Gaspar demonstrated the efficacy of gene therapy treatment for Wiskott-Aldrich Syndrome (WAS). Six children that were treated and followed for at least 9 months had their immune system restored and clinical condition improved. This work, which was published today in the Journal of the American Medical Association (JAMA), was carried out with support from the AFM-Telethon.
Wiskott-Aldrich syndrome is a rare congenital immune and platelet deficiency which is X-linked and has an estimated prevalence of 1/250 000. It is caused by mutations in the gene encoding the WAS protein (WASp) expressed in hematopoietic cells. This disease, which primarily affects boys, causes bleeding, severe and recurrent infections, severe eczema and in some patients autoimmune reactions and the development of cancer. The only treatment available today is bone marrow transplantation, which requires a compatible donor and can itself cause serious complications.
The Phase I / II study, with Genethon as the promoter, was launched in December 2010 and conducted in Paris and London to treat severely ill patients without a compatible donor. This study, which is ongoing, assesses the feasibility and efficacy of gene therapy in this indication. The article published in JAMA reports the results for the first six patients, aged 8 months to 16 years, where the monitoring period allowed assessment of the initial effects of the treatment.
The treatment involves collected blood stem cells carrying the genetic anomaly of patients and corrected them in the laboratory by introducing a healthy WAS gene using a lentiviral vector developed and produced by Genethon. The corrected cells were reinjected into patients who in parallel were treated with chemotherapy to suppress their defective stem cells and autoimmune cells to make room for new corrected cells. After reinjection, these cells were then differentiated into the various cell lines that make up the blood (red and white cells, platelets).
To date treated patients showed significant clinical improvement. Severe eczema and severe infection disappeared in all cases. Arthritis was eliminated in one patient and another saw major improvement in vasculitis of the lower limbs and was able to return to normal physical activity without a wheelchair. However, the rate of corrected platelets varies from one patient to another.
Fulvio Mavilio, Chief Scientific Officer Genethon: “We are all very happy and encouraged by the results of this study. It is the first time that a gene therapy based on genetically modified stem cells is tested in a multicenter, international clinical trial that shows a reproducible and robust therapeutic effect in different centers and different countries. For very rare diseases such as WAS, multicenter clinical trials are the only effective way of proving the safety and efficacy of gene therapy and having it rapidly approuved and made available to all patients. We are following the same approach for other rare and less rare blood diseases.”
Frédéric Revah, CEO of Genethon, the laboratory of the AFM-Telethon and the trial sponsor, said “These first results of our clinical trial for the treatment of Wiskott Aldrich syndrome are very encouraging. They illustrate not only the ability of Genethon to carry out the upstream research to develop treatments for these rare and complex diseases, but also to construct and conduct international clinical trials, to produce these advanced therapy products, to work with international teams and to manage the regulatory aspects of the trials in France and abroad. These are skills that we implement for other international trials of gene therapy for rare genetic diseases of the immune system, blood, muscle, vision or liver… We will continue the current study with the objective of providing treatment for patients.”
Marina Cavazzana: “The results obtained in this multicenter clinical trial constitute an important therapeutic advance (overhang) because they concern a complex pathology which affects almost all of blood cells with dramatic clinical consequences. After transfer of gene, the patients showed a significant clinical improvement due to the reexpression of the protein WASp in the cells of the immune system. The efficiency of the treatment of such a deficit for which a high level of correction of hematopoietic stem cells is required, indicates that it is from now on justifiable to hope to treat other complex genetic diseases as those affecting red blood cells.”
Professor Thrasher says: “This is a very powerful example of how gene therapy can offer highly effective treatment for patients with complex and serious genetic disease. It also excitingly demonstrates the potential for treatment of a large number of other diseases for which existing therapies are either unsatisfactory or unavailable.”
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