Enzyme augmentation therapy enhances the therapeutic efficacy of bone marrow transplantation in mucopolysaccharidosis type II mice.

Before the availability of an enzyme replacement therapy (ERT) for mucopolysaccharidosis type II (MPS II), patients were treated by bone marrow transplantation (BMT). However, the effectiveness of BMT for MPS II was equivocal, particularly at addressing the CNS manifestations. To study this further, we subjected a murine model of MPS II to BMT and evaluated the effect at correcting the biochemical and pathological aberrations in the viscera and CNS. Our results indicated that BMT reduced the accumulation of glycosaminoglycans (GAGs) in a variety of visceral organs, but not in the CNS. With the availability of an approved ERT for MPS II, we investigated and compared the relative merits of the two strategies either as a mono or combination therapy. We showed that the combination of BMT and ERT was additive at reducing tissue levels of GAGs in the heart, kidney and lung. Moreover, ERT conferred greater efficacy if the immunological response against the infused recombinant enzyme was low. Finally, we showed that pathologic GAGs might potentially represent a sensitive biomarker to monitor the therapeutic efficacy of therapies for MPS II.

[Gene therapy for adenosine deaminase deficiency].

A four year-old boy with adenosine deaminase (ADA-) deficient severe combined immunodeficiency(SCID) receiving PEG-ADA was treated under a gene therapy protocol targeting peripheral blood lymphocytes (PBLs) in 1995. After eleven infusions of autologous PBLs transduced with retroviral vector LASN encoding ADAcDNA, he exhibited increased levels of the CD8+ T lymphocytes, serum immunoglobulin, specific antibodies and delayed type hypersensitivity skin tests. Follow-up studies also provided evidence of long-term persistence and function of transduced PBLs with improvement in the immune function. However, the therapeutic effect of this gene therapy has been difficult to assess because of the concomitant treatment of PEG-ADA. Two ADA-SCID patients have been currently treated with autologous bone marrow CD34+ cells engineered with a retroviral vector GCsapM-ADA after discontinuation of PEG-ADA. The restoration of intracellular ADA enzymatic activity in lymphocytes and granulocytes resulted in correction of the systemic toxicity and liver function in the absence of PEG-ADA treatment. Both patients are at home where they are clinically well, and they do not experience adversed effect, with follow up being 12 months after CD34+ cells gene therapy.