Molecular damage in Fabry disease: Characterization and prediction of alpha-galactosidase A pathological mutations.

[fabry disease]

Loss -of-function mutations of the enzyme alpha-galactosidase A (GLA ) causes Fabry disease (FD ), that is a rare and potentially fatal disease . Identification of these pathological mutations by sequencing is important because it allows an early treatment of the disease . However , before taking any treatment decision , if the mutation identified is unknown , we first need to establish if it is pathological or not . General bioinformatic tools (PolyPhen-2 , SIFT , Condel , etc .) can be used for this purpose , but their performance is still limited . Here we present a new tool , specifically derived for the assessment of GLA mutations . We first compared mutations of this enzyme known to cause FD with neutral sequence variants , using several structure and sequence properties . Then , we used these properties to develop a family of prediction methods adapted to different quality requirements . Trained and tested on a set of known Fabry mutations , our methods have a performance (Matthews correlation : 0 .56 -0 .72 ) comparable or better than that of the more complex method , Polyphen-2 (Matthews correlation : 0 .61 ), and better than those of SIFT (Matthews correl .: 0 .54 ) and Condel (Matthews correl .: 0 .51 ). This result is validated in an independent set of 65 pathological mutations , for which our method displayed the best success rate (91 .0 %, 87 .7 %, and 73 .8 %, for our method , PolyPhen-2 and SIFT , respectively ). These data confirmed that our specific approach can effectively contribute to the identification of pathological mutations in GLA , and therefore enhance the use of sequence information in the identification of undiagnosed Fabry patients . Proteins 2014 ; © 2014 Wiley Periodicals , Inc .