Novel Gardos channel mutations linked to dehydrated hereditary stomatocytosis (xerocytosis)

Dehydrated hereditary stomatocytosis (DHSt) is an autosomal dominant congenital hemolytic anemia with moderate splenomegaly and often compensated hemolysis. Affected red cells are characterized by a nonspecific cation leak of the red cell membrane, reflected in elevated sodium content, decreased pot...

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Published in:American journal of hematology Vol. 90; no. 10; pp. 921 - 926
Main Authors: Andolfo, Immacolata, Russo, Roberta, Manna, Francesco, Shmukler, Boris E., Gambale, Antonella, Vitiello, Giuseppina, De Rosa, Gianluca, Brugnara, Carlo, Alper, Seth L., Snyder, L. Michael, Iolascon, Achille
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-10-2015
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Summary:Dehydrated hereditary stomatocytosis (DHSt) is an autosomal dominant congenital hemolytic anemia with moderate splenomegaly and often compensated hemolysis. Affected red cells are characterized by a nonspecific cation leak of the red cell membrane, reflected in elevated sodium content, decreased potassium content, elevated MCHC and MCV, and decreased osmotic fragility. The majority of symptomatic DHSt cases reported to date have been associated with gain‐of‐function mutations in the mechanosensitive cation channel gene, PIEZO1. A recent study has identified two families with DHSt associated with a single mutation in the KCNN4 gene encoding the Gardos channel (KCa3.1), the erythroid Ca2+‐sensitive K+ channel of intermediate conductance, also expressed in many other cell types. We present here, in the second report of DHSt associated with KCNN4 mutations, two previously undiagnosed DHSt families. Family NA exhibited the same de novo missense mutation as that recently described, suggesting a hot spot codon for DHSt mutations. Family WO carried a novel, inherited missense mutation in the ion transport domain of the channel. The patients' mild hemolytic anemia did not improve post‐splenectomy, but splenectomy led to no serious thromboembolic events. We further characterized the expression of KCNN4 in the mutated patients and during erythroid differentiation of CD34+ cells and K562 cells. We also analyzed KCNN4 expression during mouse embryonic development. Am. J. Hematol. 90:921–926, 2015. © 2015 Wiley Periodicals, Inc.
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ISSN:0361-8609
1096-8652
DOI:10.1002/ajh.24117