Hereditary xerocytosis (HX, MIM 194380)is an autosomal dominant hemolytic anemia characterized by primary erythrocyte dehydration. Copy number analyses, linkage studies, and exome sequencing were used to identify novel mutations affecting PIEZO1, encoded by the FAM38A gene, in 2 multigenerational HX kindreds. Segregation analyses confirmed transmission of the PIEZO1 mutations and cosegregation with the disease phenotype in all affected persons in both kindreds. All patients were heterozygous for FAM38A mutations, except for 3 patients predicted to be homozygous by clinical and physiologic studies who were also homozygous at the DNA level. The FAM38A mutations were both in residues highly conserved across species and within members of the Piezo family of proteins. PIEZO proteins are the recently identified pore-forming subunits of channels that mediate mechanotransduction in mammalian cells. FAM38A transcripts were identified in human erythroid cell mRNA, and discovery proteomics identified PIEZO1 peptides in human erythrocyte membranes. These findings, the first report of mutation in a mammalian mechanosensory transduction channel-associated with genetic disease, suggest that PIEZO proteins play an important role in maintaining erythrocyte volume homeostasis. IntroductionHereditary xerocytosis (also known as HX or dehydrated stomatocytosis, DHSt; OMIM 194380) is an autosomal dominant hemolytic anemia characterized by primary erythrocyte dehydration. 1 HX erythrocytes exhibit decreased total cation and potassium content that are not accompanied by a proportional net gain of sodium and water. HX patients typically exhibit mild to moderate, compensated hemolytic anemia. Erythrocyte mean corpuscular hemoglobin concentration is increased and erythrocyte osmotic fragility is decreased, both reflecting cellular dehydration.A locus for HX on chromosome 16 (16q23-q24) was first identified in a large, 3-generation Irish family. 2 This locus was refined to D16S511-16qter via study of 10 kindreds with variants of HX, pseudohyperkalemia, or nonimmune hydrops fetalis. 3,4 Recent studies of one of the original HX families from Rochester, NY, 5 and of a large HX family from Manitoba, Canada 6 confirmed the linkage of the disease phenotype to chromosome 16q, and refined the candidate region to 16q24.2-16qter, a 2.4 million-bp interval containing 51 known or predicted genes. 6 To identify the HXassociated genetic locus, we performed high-resolution single nucleotide polymorphism (SNP) typing and whole-exome sequencing on selected persons from both the New York and Canadian HX kindreds.In the refined candidate region, no regions of copy number variation were detected at 16q24.2-16qter. A large region of homozygosity was detected in this region in DNA from a presumed homozygote from the New York kindred. Exome sequencing identified novel mutations affecting PIEZO1 (encoded by the FAM38A gene) in both HX kindreds. Segregation analyses confirmed transmission of the PIEZO1 mutations and cosegregation with the disease phenotype in all...
Nine cases of hereditary stomatocytosis (HSt) are presented which show documented thrombotic complications after splenectomy. In three cases, patients became severely ill with pulmonary hypertension and a fourth developed portal hypertension. One unsplenectomized affected adult relative had suspected but unconfirmed thrombotic pathology; the six other affected unsplenectomized adults did not. Since splenectomy is of only limited therapeutic benefit in stomatocytosis, it should not be performed without careful consideration. A tendency to iron overload, even without hypertransfusion and irrespective of splenectomy, is evident in many of these patients.
The risk for thrombosis is increased in patients with hereditary hydrocytosis, an uncommon variant of hereditary stomatocytosis. Erythrocytes from 2 patients with hydrocytosis were studied to gain insight into the mechanism of thrombosis in this disorder. Erythrocytes demonstrated abnormal osmotic scan ektacytometry and decreased erythrocyte filtration rates. There was also a mild increase in adherence of erythrocytes to endothelial monolayers in a micropipette assay. Adhesion of erythrocytes to the subendothelial matrix proteins thrombospondin and laminin, however, was not significantly increased. Percentages of hydrocytosis erythrocytes and reticulocytes with phosphatidylserine exposed on the outer surfaces were increased in both patients compared with healthy controls, indicating altered membrane phospholipid asymmetry. Increased phosphatidylserine exposure accelerating thrombin-forming processes has been proposed as a mechanism for thrombosis in sickle cell disease and -thalassemia and may play a similar role in hereditary hydrocytosis.
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