Rosie Donne scite author profile

Hemolytic uremic syndrome (HUS) in adults carries a high morbidity and mortality, and its cause remains unknown despite many theories. Although familial HUS is rare, it affords a unique opportunity to elucidate underlying mechanisms that may have relevance to acquired HUS. We have undertaken a genetic linkage study based on a candidate gene approach. A common area bounded by the markers D1S212 and D1S306, a distance of 26 cM located at 1q32 segregated with the disease (Z max 3.94). We demonstrate that the gene for factor H lies within the region. Subsequent mutation analysis of the factor H gene has revealed two mutations in patients with HUS. In an individual with the sporadic/relapsing form of the disease we have found a mutation comprising a deletion, subsequent frame shift and premature stop codon leading to half normal levels of serum factor H. In one of the three families there is a point mutation in exon 20 causing an arginine to glycine change, which is likely to alter structure and hence function of the factor H protein. Factor H is a major plasma protein that plays a critical regulatory role in the alternative pathway of complement activation. In light of these findings and previous reports of HUS in patients with factor H deficiency, we postulate that abnormalities of factor H may be involved in the etiology of HUS.

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Genetic studies into inherited and sporadic hemolytic uremic syndrome

Warwicker¹,

Goodship²,

Donne³

et al. 1998

Kidney Int

102

142

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Recurrence of hemolytic uremic syndrome after live related renal transplantation associated with subsequent de novo disease in the donor

Donne

Abbs

Bárány

et al. 2002

American Journal of Kidney Diseases

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Rosie Donne

Genetic studies into inherited and sporadic hemolytic uremic syndrome

Genetic studies into inherited and sporadic hemolytic uremic syndrome

Recurrence of hemolytic uremic syndrome after live related renal transplantation associated with subsequent de novo disease in the donor

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