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Open Access 01-12-2019 | Anemia | Case report

A de novo ANK1 mutation associated to hereditary spherocytosis: a case report

Authors: Ti-Long Huang, Bao-Hua Sang, Qing-Ling Lei, Chun-Yan Song, Yun-Bi Lin, Yu Lv, Chun-Hui Yang, Na Li, Yue-Huang Yang, Xian-Wen Zhang, Xin Tian

Published in: BMC Pediatrics | Issue 1/2019

Abstract

Background

Hereditary spherocytosis (HS) is a type of hemolytic anemia caused by abnormal red cell membrane skeletal proteins with few unique clinical manifestations in the neonate and infant. An ANK1 gene mutation is the most common cause of HS.

Case presentation

The patient was a 11-month-old boy who suffered from anemia and needed a regular transfusion therapy at an interval of 2–3 months. Hematological investigations showed moderate anemia (Hb80 g/L). Red cells displayed microcytosis (MCV76.4 fl, MCH25.6 pg, MCHC335 g/L). The reticulocytes were elevated (4.8%) and the spherocytes were increased (10%). Direct antiglobulin test was negative. Biochemical test indicated a slight elevation of bilirubin, mainly indirect reacting (TBIL32.5 μmol/L, IBIL24 μmol/L). The neonatal HS ratio is 4.38, obviously up the threshold. Meanwhile, a de novo ANK1 mutation (exon 25:c.2693dupC:p.A899Sfs*11) was identified by next-generation sequencing (NGS). Thus, hereditary spherocytosis was finally diagnosed.

Conclusions

Gene detection should be considered in some hemolytic anemia which is difficult to diagnose by routine means. We identified a novel de novo ANK1 heterozygous frameshift mutation in a Yi nationality patient while neither of his parents carried this mutation.

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He Y, Jia S, Dewan RK, Liao N. Novel mutations in patients with hereditary red blood cell membrane disorders using next-generation sequencing. Gene. 2017;627:556–62.CrossRef

Perrotta S, Gallagher PG, Mohandas N. Hereditary spherocytosis. Lancet. 2008;372:1411–26.CrossRef

Christensen RD, Yaish HM, Gallagher PG. A pediatrician's practical guide to diagnosing and treating hereditary spherocytosis in neonates. Pediatrics. 2015;135:1107–14.CrossRef

Delhommeau F, Cynober T, Schischmanoff PO, Rohrlich P, Delaunay J, Mohandas N, et al. Natural history of hereditary spherocytosis during the first year of life. Blood. 2000;95:393–7.PubMed

He BJ, Liao L, Deng ZF, Tao YF, Xu YC, Lin FQ. Molecular genetic mechanisms of hereditary spherocytosis: current perspectives. Acta Haematol. 2018;139:60–6.CrossRef

Manciu S, Matei E, Trandafir B. Hereditary spherocytosis - diagnosis, surgical treatment and outcomes. A literature review. Chirurgia (Bucur). 2017;112:110–6.CrossRef

Gallagher PG. Hematologically important mutations: ankyrin variants in hereditary spherocytosis. Blood Cells Mol Dis. 2005;35:345–7.CrossRef

Bianchi P, Fermo E, Vercellati C, Marcello AP, Porretti L, Cortelezzi A, et al. Diagnostic power of laboratory tests for hereditary spherocytosis: a comparison study in 150 patients grouped according to molecular and clinical characteristics. Haematologica. 2012;97:516–23.CrossRef

Christensen RD, Henry E. Hereditary spherocytosis in neonates with hyperbilirubinemia. Pediatrics. 2010;125:120–5.CrossRef

10.

Delaunay J. The molecular basis of hereditary red cell membrane disorders. Blood Rev. 2007;21:1–20.CrossRef

11.

Llaudet-Planas E, Vives-Corrons JL, Rizzuto V, Gomez-Ramirez P, Sevilla Navarro J, Coll Sibina MT, et al. Osmotic gradient ektacytometry: a valuable screening test for hereditary spherocytosis and other red blood cell membrane disorders. Int J Lab Hematol. 2018;40:94–102.CrossRef

12.

Iolascon A, Avvisati RA. Genotype/phenotype correlation in hereditary spherocytosis. Haematologica. 2008;93:1283–8.CrossRef

13.

Da Costa L, Galimand J, Fenneteau O, Mohandas N. Hereditary spherocytosis, elliptocytosis, and other red cell membrane disorders. Blood Rev. 2013;27:167–78.CrossRef

14.

Wang X, Mao L, Shen N, Peng J, Zhu Y, Hu Q, et al. An ANK1 IVS3-2A>C mutation causes exon 4 skipping in two patients from a Chinese family with hereditary spherocytosis. Oncotarget. 2017;8:113282–6.PubMedPubMedCentral

15.

Wang X, Yi B, Mu K, Shen N, Zhu Y, Hu Q, et al. Identification of a novel de novo ANK1 R1426* nonsense mutation in a Chinese family with hereditary spherocytosis by NGS. Oncotarget. 2017;8:96791–7.PubMedPubMedCentral

16.

Guan H, Liang X, Zhang R, Wang H, Liu W, Zhang R, et al. Identification of a de novo ANK1 mutation in a Chinese family with hereditary spherocytosis. Hematology. 2018;23:357–61.

17.

Han JH, Kim S, Jang H, Kim SW, Lee MG, Koh H, et al. Identification of a novel p.Q1772X ANK1 mutation in a Korean family with hereditary spherocytosis. PLoS One. 2015;10:e0131251.CrossRef

18.

Eber S, Lux SE. Hereditary spherocytosis--defects in proteins that connect the membrane skeleton to the lipid bilayer. Semin Hematol. 2004;41:118–41.CrossRef

19.

Park J, Jeong DC, Yoo J, Jang W, Chae H, Kim J, et al. Mutational characteristics of ANK1 and SPTB genes in hereditary spherocytosis. Clin Genet. 2016;90:69–78.CrossRef

20.

Wang C, Wei Z, Chen K, Ye F, Yu C, Bennett V, et al. Structural basis of diverse membrane target recognitions by ankyrins. Elife. 2014;3:e04353.CrossRef

21.

Hughes MR, Anderson N, Maltby S, Wong J, Berberovic Z, Birkenmeier CS, et al. A novel ENU-generated truncation mutation lacking the spectrin-binding and C-terminal regulatory domains of Ank1 models severe hemolytic hereditary spherocytosis. Exp Hematol. 2011;39:305–20 20 e1–2.CrossRef

22.

Arora RD, Dass J, Maydeo S, Arya V, Kotwal J, Bhargava M. Utility of mean sphered cell volume and mean reticulocyte volume for the diagnosis of hereditary spherocytosis. Hematology. 2018;23:413–6.CrossRef

23.

Del Orbe BR, Arrizabalaga B, De la Hoz AB, Garcia-Orad A, Tejada MI, Garcia-Ruiz JC, et al. Detection of new pathogenic mutations in patients with congenital haemolytic anaemia using next-generation sequencing. Int J Lab Hematol. 2016;38:629–38.CrossRef

24.

Lim EC, Brett M, Lai AH, Lee SP, Tan ES, Jamuar SS, et al. Next-generation sequencing using a pre-designed gene panel for the molecular diagnosis of congenital disorders in pediatric patients. Hum Genomics. 2015;9:33–41.CrossRef

25.

Russo R, Andolfo I, Manna F, Gambale A, Marra R, Rosato BE, et al. Multi-gene panel testing improves diagnosis and management of patients with hereditary anemias. Am J Hematol. 2018;93:672–82.CrossRef

Title: A de novo ANK1 mutation associated to hereditary spherocytosis: a case report
Authors: Ti-Long Huang
Bao-Hua Sang
Qing-Ling Lei
Chun-Yan Song
Yun-Bi Lin
Yu Lv
Chun-Hui Yang
Na Li
Yue-Huang Yang
Xian-Wen Zhang
Xin Tian
Publication date: 01-12-2019
Publisher: BioMed Central
Keywords: Anemia
Hemolytic Anemia
Published in: BMC Pediatrics / Issue 1/2019
Electronic ISSN: 1471-2431
DOI: https://doi.org/10.1186/s12887-019-1436-4

Keynote webinar | Spotlight on medication adherence

Springer Medicine

A de novo ANK1 mutation associated to hereditary spherocytosis: a case report

Abstract

Background

Case presentation

Conclusions

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Case presentation

Conclusions

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