Fabry disease, an under-recognized multisystemic disorder: expert recommendations for diagnosis, management, and enzyme replacement therapy.

Fabry disease (alpha-galactosidase A deficiency) is an X-linked recessive lysosomal storage disorder. Although the disease presents in childhood and culminates in cardiac, cerebrovascular, and end-stage renal disease, diagnosis is often delayed or missed. This paper reviews the key signs and symptoms of Fabry disease and provides expert recommendations for diagnosis, follow-up, medical management, and the use of enzyme replacement therapy. Recommendations are based on reviews of the literature on Fabry disease, results of recent clinical trials, and expertise of the authors, all of whom have extensive clinical experience with Fabry disease and lysosomal storage disorders and represent subspecialties involved in treatment. All males and female carriers affected with Fabry disease should be followed closely, regardless of symptoms or treatment status. Clinical trials have shown that recombinant human alpha-galactosidase A replacement therapy--the only disease-specific therapy currently available for Fabry disease--is safe and can reverse substrate storage in the lysosome, the pathophysiologic basis of the disease. Enzyme replacement therapy in all males with Fabry disease (including those with end-stage renal disease) and female carriers with substantial disease manifestations should be initiated as early as possible. Additional experience is needed before more specific recommendations can be made on optimal dosing regimens for reversal; maintenance; and prevention of disease manifestations in affected males, symptomatic carrier females, children, and patients with compromised renal function.

Gene therapy for the lysosomal storage disorders.

The lysosomal storage disorders (LSD) are monogenic inborn errors of metabolism with heterogeneous pathophysiology and clinical manifestations. In recent decades, these disorders have been models for the development of molecular and cellular therapies for inherited metabolic diseases. Studies in preclinical in vitro systems and animal models have established proof-of-concept for the development of bone marrow transplantation (BMT) and enzyme-replacement therapy (ERT) as therapeutic options for several LSDs. BMT is limited by poor donor availability and high morbidity and mortality, and although ERT is a good treatment, it is not a life-long cure. Its high cost remains an impediment for developing countries. While substrate synthesis inhibition therapy is an important idea, its clinical use is far from certain. The neuropathology present in many LSDs has responded poorly to BMT or ERT, which makes gene therapy an attractive therapeutic alternative. Oncoretroviral vectors, and more recently adeno-associated and lentiviral vectors have been tested with some success. This review summarizes the main gene therapy strategies which have been employed or are under development for both non-neurological and neuronopathic LSDs. Some of the in vitro and in vivo preclinical studies presented herein have provided the rationale for gene therapy clinical trials for Gaucher disease Type 1.

Correlation of surrogate markers of Gaucher disease. Implications for long-term follow up of enzyme replacement therapy.

BACKGROUND: The excessive storage of cellular debris in the lysosomal storage disorders triggers a variety of cellular responses. Some of these responses are maladaptative and result in the pathology of these diseases. To some extent, cellular responses are specific to the stored material, which influences the pathophysiology of the disease and results in some of its characteristic features. METHODS: A large body of data has been collected for three biochemical (surrogate) markers of Gaucher Disease: angiotensin converting enzyme (ACE), tartrate-resistant acid phosphatase (TRAP) and chitotriosidase (CHITO) using currently available enzyme analysis. Follow up data was gathered in a group of 18 patients. RESULTS: The three markers are correlated between each other and are useful indicators of the disease progress and its response to enzyme replacement therapy (ERT). Retrospective analysis of clinical records and comparison of chitotriosidase values with the baseline Severity Score Index (SSI) allowed prediction of the response patterns for this marker when long-term ERT (>24 months) was evaluated. CONCLUSIONS: The less severely affected patients are more likely to normalize their chitotriosidase activities after long term ERT.

Radiological evidence of early cerebral microvascular disease in young children with Fabry disease.

We report on 2 children with Fabry disease who had radiologic evidence of microvascular central nervous system involvement despite the clinical absence of renal, cardiac, or cerebral manifestations. This suggests that treatment with enzyme replacement therapy may be necessary early in the disease to avoid irreversible complications.

Guidance on the use of miglustat for treating patients with type 1 Gaucher disease.

Type 1 Gaucher disease (GD) is a progressive lysosomal storage disorder due to an autosomal recessive deficiency of glucocerebrosidase. Clinical manifestations include anemia, thrombocytopenia, hepatosplenomegaly, and bone and pulmonary disease. Intravenous enzyme replacement (ERT) with imiglucerase is the accepted standard for treatment of symptomatic patients. More than 3,500 patients worldwide have received ERT with well-documented beneficial effects on the hematological, visceral, skeletal, and pulmonary manifestations, and with resultant improvement in health-related quality of life. Miglustat, an imino sugar that reversibly inhibits glucosylceramide synthase and reduces intracellular substrate burden, is an oral treatment for patients with type 1 GD that was recently approved in the United States for symptomatic patients with mild to moderate clinical manifestations for whom ERT is not an option. Because responses to miglustat are slower and less robust than those observed with ERT, and because miglustat is associated with significant side effects, clinicians who care for patients with GD should become familiar with the limited indications for miglustat use and the circumstances when it may be prescribed appropriately. This review article and position statement represents the current opinion of American physicians with extensive expertise in GD regarding patient management in the context of the availability of standard imiglucerase treatment and the recent introduction of miglustat.

Fabry disease in genetic counseling practice: recommendations of the National Society of Genetic Counselors.

The objective of this document is to provide health care professionals with recommendations for genetic counseling and testing of individuals with a suspected or confirmed diagnosis of Fabry disease, with a family history of Fabry disease, and those identified as female carriers of Fabry disease. These recommendations are the opinions of a multicenter working group of genetic counselors, medical geneticists, and other health professionals with expertise in Fabry disease counseling, as well as an individual with Fabry disease who is a founder of a Fabry disease patient advocacy group in the United States. The recommendations are U.S. Preventive Task Force Class III, and they are based on clinical experience, a review of pertinent English-language articles, and reports of expert committees. This document reviews the genetics of Fabry disease, the indications for genetic testing and interpretation of results, psychosocial considerations, and references for professional and patient resources. These recommendations should not be construed as dictating an exclusive course of management, nor does use of such recommendations guarantee a particular outcome. The professional judgment of a healthcare provider, familiar with the facts and circumstances of a specific case, will always supersede these recommendations.

Demonstration of feasibility of in vivo gene therapy for Gaucher disease using a chemically induced mouse model.

Progress towards developing gene therapy for Gaucher disease has been hindered by the lack of an animal model. Here we describe a mouse model of Gaucher disease which has a chemically induced deficiency of glucocerebrosidase and that accumulates elevated levels of glucosylceramide (GL-1) in the lysosomes of Kupffer cells. Administration of mannose-terminated glucocerebrosidase (Cerezyme) resulted in the reduction of GL-1 levels in the livers of these animals. Gene transduction of hepatocytes with a plasmid DNA vector encoding human glucocerebrosidase (pGZB-GC) generated high-level expression and secretion of the enzyme into systemic circulation with consequent normalization of Kupffer cell GL-1 levels. This suggested that the de novo synthesized and unmodified enzyme produced by hepatocyte transduction was also capable of being delivered to the cells that are primarily affected in Gaucher disease. Immunolocalization studies also revealed that preferential transduction and expression of human glucocerebrosidase in the Kupffer cells with subsequent reduction in the GL-1 levels could be attained with a low dose of a recombinant adenoviral vector encoding the human enzyme (Ad2/CMV-GC). This observation raises the possibility of gene therapy for Gaucher disease that involves directly transducing the affected histiocytes using recombinant adenoviral vectors. Together, these data demonstrate the potential for use of in vivo gene therapy vectors for treating Gaucher disease.