[Globosides as key players in the pathophysiology of Shiga toxin-associated acute kidney failure and Fabry disease].

[fabry disease]

Globosides and their isomeric counterparts isoglobosides belong to the class of neutral glycosphingolipids with an as yet undefined physiological function . In the pathogenesis of human diseases , globosides play an important role as cellular receptors for Shiga toxins which are produced by certain strains of S . dysenteriae and E . coli . In order to elucidate the pathogenesis of Shiga toxin-associated kidney failure , we studied human kidney biopsies and animal models . Our work showed that in patients suffering from Shiga toxin-elicited kidney failure , no complement activation could be demonstrated by immunohistochemical analysis of kidney biopsies . Therefore , complement activation is unlikely to play a major role in mediating thrombotic microangiopathy on exposure to Shiga toxin . Moreover , analysis of the human biopsies and of a murine model of Shiga toxin-associated disease pinpointed acute tubular damage as an important and previously neglected contributor to acute kidney failure in patients infected with Shiga toxin-producing E . coli . Furthermore , globosides play a decisive role in the pathogenesis of Fabry disease which results from a decreased or absent activity of the lysosomal enzyme α-galactosidase A . The results on transgenic mice showed that in vital organs , such as the heart , kidneys and liver , it was possible to revert the phenotype of Fabry disease by eliminating the synthesis of globosides . This implicates that substrate reduction therapy through inhibition of globosides might represent a new therapeutic option for Fabry disease , all the more so as globosides seem to be dispensable .