Clinical, biochemical and molecular studies: stepwise to achieve diagnosis of fabry disease

Ribeiro, Isaura; Rocha, Sónia; Ferreira, Célia; Pinto, Eugénia; Silva, Elisabete; Pinto, Fernanda; Ribeiro, Helena; Sousa, Domingos; Pacheco, Sara; Laranjeira, Francisco; Caseiro, Carla; Lacerda, Lúcia

Services on Demand

Journal

Article

Indicators

Cited by SciELO
Access statistics

Nascer e Crescer

Print version ISSN 0872-0754

Nascer e Crescer vol.23 supl.1 Porto Mar. 2014

POSTER ABSTRACTS / RESUMOS DE POSTERS

P-16

Clinical, biochemical and molecular studies: stepwise to achieve diagnosis of fabry disease

Isaura Ribeiro^I; Sónia Rocha^I; Célia Ferreira^I; Eugénia Pinto^I; Elisabete Silva^I; Fernanda Pinto^I; Helena Ribeiro^I; Domingos Sousa^I; Sara Pacheco^I; Francisco Laranjeira^I; Carla Caseiro^I; Lúcia Lacerda^I

^IUnidade de Bioquímica Genética, Centro de Genética Médica Doutor Jacinto Magalhães, Centro Hospitalar do Porto E.P.E., Porto, Portugal

isaura.ribeiro@chporto.min-saude.pt

Introduction: Fabry disease (FD, OMIM # 301500), a treatable X-linked storage disorder, is caused by deﬁcient activity of the lysosomal enzyme l1l -galactosidase A (l1l -Gal A). Over 400 pathogenic mutations in GLA gene have been associated with FD. Enzymatic deﬁciency leads to lysosomal accumulation of globotriaosylceramide (Gb3) and lyso-Gb3. The ﬁrst clinical manifestations of FD (pain in the extremities, corneal changes and angiokeratoma) develop in childhood. Progressive renal insufﬁciency and cardiovascular involvement are the main causes of premature death.

Aims: This work provide evidence for the needful of combining biochemical and molecular tests to diagnose hemizygotes, heterozygotes and symptomatic female carriers of FD.

Methods: FD diagnosis methodologies underlay in three approaches:l1l -Gal A activity: measured in capillary Dried Blood Spots (DBS), peripheral blood plasma and total leukocytes, and in cultured skin ﬁbroblasts;GB3: urinary excretion measured in 24 hour urine;Genotype analysis: GLA gene mutations identiﬁed by sequencing of exons and exonintron boundaries.

Results: This work report clinical, biochemical and molecular data of 105 patients from 51 unrelated Portuguese families. Partial reduction or absence of l1l -Gal A activity conﬁrmed diagnosis in all male patients. Mutated alleles associated with l1l -Gal A pseudodeﬁciency may also result in low/reduced l1l -Gal A activity. Wide phenotypic variability in clinical manifestations and biochemical parameters was observed in these cases, which remain to be classiﬁed as Fabry patients. In female carriers, l1l -Gal A activity may range from zero to control values, thus, FD diagnosis in females can only be made through molecular genetic tests.

Conclusions: FD diagnosis is not straight forward through l1l -Gal A enzymatic activity, and frequently requires a combination of different technical approaches, even in male patients due to l1l -Gal A pseudodeﬁciency. X chromosome inactivation can mask obligate carriers, leading to normal l1l -Gal A activity, so molecular analysis is the only effective approach to overcome this obstacle. Identiﬁcation of a l1l -Gal A mutation associated with a clinically relevant phenotype would be extremely useful for disease progression evaluation, as well as for enzyme replacement therapeutic decisions.