Cryohydrocytosis: increased activity of cation carriers in red cells from a patient with a band 3 mutation

Bogdanova, Anna; Goede, Jeroen S.; Weiss, Erwin; Bogdanov, Nikolay; Bennekou, Poul; Bernhardt, Ingolf; Lutz, Hans

doi:10.3324/haematol.2009.010215

Cited by 25 publications

(33 citation statements)

References 48 publications

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“…Mutations in several genes have been shown to cause red cell cation leak disorders. These include chloride-bicarbonate exchanger SLC4A1/AE1/ Band 3 in CHC and in atypical forms of hereditary spherostomatocytosis [23,24], ammonia transporter RHAG (Rh-associated glycoprotein) in isolated stomatin-deficient OHSt [25,26], glucose transporter GLUT1 in echinocytosis with paroxysmal dyskinesia [27], stomatin-deficient CHC [28] or in CHC [29] or pseudohyperkalemia and hemolysis [30] with neurological symptoms, and PIEZO1 (mechanosensitive cation channel protein FAM38A) in DHSt [10][11][12][13]. A recent study has highlighted a novel DHSt gene, KCNN4, encoding the widely expressed KCa3.1 Gardos channel, a Ca 21 -sensitive K 1 channel of intermediate conductance [14].…”

Section: Discussionmentioning

confidence: 99%

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

et al. 2015

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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 Ca 21 -sensitive K 1 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 CD341 cells and K562 cells. We also analyzed KCNN4 expression during mouse embryonic development.

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Section: Discussionmentioning

confidence: 99%

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

et al. 2015

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“…These changes could lead either to cation leak through the normal substrate translocation pathway of ABCB6, or to the generation of a novel constitutive or cyclic leak pathway through the protein. Alternatively, mutant ABCB6 polypeptides could activate an independent cation permeability through direct or indirect protein-protein interaction, as proposed for CHC mutations in AE1/SLC4A1 [11,15], stomatin-deficient OHSt mutations in RhAG [12,13], and suggested by the fourfold elevation of K-Cl cotransport observed in red cells of patient FP Lille (LdeF, unpublished data).…”

Section: Discussionmentioning

confidence: 99%

“…These include SLC4A1 (an ion exchange) in CHC and in atypical forms of hereditary spherostomatocytosis [10,11], RHAG (Rh-associated glycoprotein) in isolated stomatin-deficient OHSt [12,13] GLUT1 (glucose transporter 1) in echinocytosis with paroxysmal dyskinesia [14], stomatin-deficient cryohydrocytosis [15] or in CHC [16] or pseudohyperkalemia and hemolysis [17] with neurological symptoms, and PIEZO1 (mechanosensitive cation channel protein FAM38A) in DHSt [18]. These findings suggest that distinct missense mutations in various red cell membrane solute transporters or channels generate cation leak pathways either through the mutant proteins themselves or by deregulating one or more independent cation permeabilities of the red cell membrane.…”

Section: Introductionmentioning

confidence: 99%

Missense mutations in the ABCB6 transporter cause dominant familialpseudohyperkalemia

et al. 2012

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Familial Pseudohyperkalemia (FP) is a dominant red cell trait characterized by increased serum [K 1 ] in whole blood stored at or below room temperature, without additional hematological abnormalities. Functional gene mapping and sequencing analysis of the candidate genes within the 2q35-q36 critical interval identified-in 20 affected individuals among three multigenerational FP families-two novel heterozygous missense mutations in the ABCB6 gene that cosegregated with disease phenotype. The two genomic substitutions altered two adjacent nucleotides within codon 375 of ABCB6, a porphyrin transporter that, in erythrocyte membranes, bears the Langereis blood group antigen system. The ABCB6 R375Q mutation did not alter the levels of mRNA or protein, or protein localization in mature erythrocytes or erythroid precursor cells, but it is predicted to modestly alter protein structure. ABCB6 mRNA and protein levels increase during in vitro erythroid differentiation of CD34 1 erythroid precursors and the erythroleukemia cell lines HEL and K562. These data suggest that the two missense mutations in residue 375 of the ABCB6 polypeptide found in affected individuals of families with chromosome 2-linked FP could contribute to the red cell K 1 leak characteristic of this condition. Am. J. Hematol. 88:66-72, 2013. V

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“…Their osmoscans are shown in Fig. 3b, illustrating a mild case of HS, two pronounced cases of HS, and one case of genetically confirmed cryohydrocytosis [16]. Sixteen of the remaining 28 patients examined by ektacytometry showed osmoscans characteristic for HS, with 14 displaying a mild form of HS and 2 displaying a more pronounced form of HS (Fig.…”

Section: Comparing the Percentage Of Hyperchromic Rbcs With Mchcmentioning

confidence: 99%

“…The brown curve shows a pattern reminiscent of a viral infection, except for the right shift of the left arm of the osmoscan b condition identified, explaining the elevated hyperchromic fraction of RBC in 27 patients; the 10 remaining patients summarized under the heading other causes included 3 with autoimmune hemolytic anemia (AIHA), 3 with severe plasma hypoosmolality, and 1 each with hemolysis, elevated liver enzymes, and low platelets (HELLP) syndrome, an aortic valve defect, a massive myocardial infarction, and recent surgery for aortocoronary bypass. The group of patients with a known congenital explanation for the elevation of hyperchromic erythrocytes comprised six individuals (3.7 %) including five patients with HS and one with cryohydrocytosis [16], based on current and previous hematologic records at our hospital. For 119 patients (73.5 %), classified as unknown, we found no explanation for the elevated hyperchromic fraction.…”

Section: Comparing the Percentage Of Hyperchromic Rbcs With Mchcmentioning

confidence: 99%

Asymptomatic elevation of the hyperchromic red blood cell subpopulation is associated with decreased red cell deformability

et al. 2012

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Hyperchromasia of the red blood cells (RBC), defined as an elevation of the hyperchromic subpopulation, has been described for various medical conditions. However, neither the association of hyperchromasia with an altered RBC membrane nor with other medical conditions has been investigated in a systematic way so far. Since the percentage of hyperchromic RBC is measured on a routine basis by many hematologic laboratories, we evaluated the predictive value of this parameter for the detection of RBC disorders. An extensive workup of all patients undergoing standard hematogram during a period of 6 months at our institution with a fraction of hyperchromic RBC larger than 10 % was collected by reviewing the medical history and performing osmotic gradient ektacytometry on RBC from a part of these patients. Thirty-two thousand two hundred twenty-six individuals were screened; of which, 162 (0.5 %) showed more than 10 % hyperchromic RBC. All of the patients examined by ektacytometry featured abnormal membrane deformability. Hereditary spherocytosis was found in 19 out of these 32 patients, in most cases unknown to the patient and currently asymptomatic. Another 17.9 % of the patients with an elevated subpopulation of hyperchromic RBC suffered from viral infection (human immunodeficiency virus, hepatitis). Our study shows that an elevated proportion of hyperchromic erythrocytes larger than 10 % is associated with both hereditary and acquired RBC membrane disorders and further follow-up should be considered.

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Cryohydrocytosis: increased activity of cation carriers in red cells from a patient with a band 3 mutation

Cited by 25 publications

References 48 publications

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

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

Missense mutations in the ABCB6 transporter cause dominant familialpseudohyperkalemia

Asymptomatic elevation of the hyperchromic red blood cell subpopulation is associated with decreased red cell deformability

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