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Published in:

01-07-2017

A novel fibrinogen variant: dysfibrinogenemia associated with γAsp185Asn substitution

Authors: Na Zhou, Peipei Xu, Min Zhou, Yong Xu, Ping Li, Bin Chen, Jian Ouyang, Rongfu Zhou

Published in: Journal of Thrombosis and Thrombolysis | Issue 1/2017

Abstract

To identify the pathogenesis of a Chinese woman diagnosed with dysfibrinogenemia. A patient from Nanjing presented with a low plasma concentration of fibrinogen and a normal level of antigen of fibrinogen. This abnormality was also detected in her son. To detect whether the genetic mutation was responsible for the dysfibrinogenemia, genomic DNA was extracted and amplified by polymerase chain reaction, and DNA sequencing was performed on the purified PCR products. Restriction fragment length polymorphism (RFLP), molecular modeling and homologous sequences alignment were performed. Two heterozygous missense variants, AαArg16His and γAsp185Asn, were discovered in the proband. Only the former was detected in her son. AαArg16His had been reported by other teams, and γAsp185Asn was identified first in our study as a novel variant. RFLP was performed and indicated that the novel failed to be found in normal subjects. Furthermore, it was suggested to be responsible for dysfibrinogenemia depending on the molecular modeling and homologous sequence alignment. The heterozygous AαArg16His and γAsp185Asn identified in the study probably underlie the dysfibrinogenemia in this pedigree, with the latter being identified for the first time.

Asselta R, Duga S, Tenchini ML (2006) The molecular basis of quantitative fibrinogen disorders. J Thromb Haemost 4:2115–2129CrossRefPubMed

Spraggon G, Everse SJ, Doolittle RF (1997) Crystal structures of fragment D from human fibrinogen and its crosslinked counterpart from fibrin. Nature 389:455–462CrossRefPubMed

Redman CM, Xia H (2001) Fibrinogen biosynthesis:Assembly, intracellular degradation, and association with lipid synthesis and secretion. Ann NY Acad Sci 936:480–495CrossRefPubMed

Mosesson MW, Siebenlist KR, Meh DA (2001) The structure and biological features of fibrinogen and fibrin. Ann NY Acad Sci 936:11–30CrossRefPubMed

Standeven KF, Ariëns RA, Grant PJ (2005) The molecular physiology and pathology of fibrin structure/function. Blood Rev 19:275–288CrossRefPubMed

Huang DD, Chen HY, Hu XB, Wang X, Wang H (2015) Identification of a novel splicing mutation in the fibrinogen gamma chain gene leading to dysfibrinogenaemia in a Chinese pedigree. Pathology 47:145–150CrossRefPubMed

Mathonnet F, Peltier JY, Roda L, de Raucourt E, D’Hailly F, Tetegan M et al (2001) Three new cases of dysfibrinogenemia Poissy III, Saint-Germain I and Tahiti. Thromb Res 103:201–207CrossRefPubMed

Galanakis DK, Henschen A, Keeling M (2006) Fibrinogen Louisville: an Aα16 Arg→His defect that forms no hybrid molecules in heterozygous individuals and inhibits aggregation of normal fibrin monomers. Ann NY Acad Sci 408:644–648CrossRef

Kotlín R, Chytilová M, Suttnar J, Riedel T, Salaj P, Blatný J et al (2007) Fibrinogen Novy Jicin and Praha II: cases of hereditary Aα16Arg→Cys and Aα16Arg→His dysfibrinogenemia. Thromb Res 121:75–84CrossRefPubMed

10.

Meh D, Siebenlist KR, Mosesson MW (1996) Identification and characterization of the thrombin binding sites on fibrin. J Biol Chem 271:23121–23125CrossRefPubMed

11.

Everse SJ, Spraggon G, Veerapandian L, Riley M, Doolittle RF (1998) Crystal structure of fragment double-D from human fibrin with two different bound ligands. BioChemistry 37:8637–8642CrossRefPubMed

12.

Sugo T, Endo H, Matsuda M, Ohmori T, Madoiwa S, Mimuro J et al (2006) A classification of the fibrin network structures formed from the hereditary dysfibrinogens. J Thromb Haemost 4:1738–1746CrossRefPubMed

13.

Asselta R, Robusto M, Plate M, Santoro C, Peyvandi F, Duga S (2015) Molecular characterization of 7 patients affected by dys- or hypo-dysfibrinogenemia: identification of a novel mutation in the fibrinogen Bbeta chain causing a gain of glycosylation. Thromb Res 136:168–174CrossRefPubMed

14.

Lam PV, Goldman R, Karagiannis K, Narsule T, Simonyan V, Soika V et al (2013) Structure-based comparative analysis and prediction of N-linked glycosylation sites in evolutionarily distant eukaryotes. Genomics Proteomics Bioinform 11:96–104CrossRef

15.

Yakovlev S, Litvinovich S, Loukinov D, Medved L (2000) Role of the β-strand insert in the central domain of the fibrinogen γ-module. BioChemistry 39:15721–15729CrossRefPubMed

Title: A novel fibrinogen variant: dysfibrinogenemia associated with γAsp185Asn substitution
Authors: Na Zhou
Peipei Xu
Min Zhou
Yong Xu
Ping Li
Bin Chen
Jian Ouyang
Rongfu Zhou
Publication date: 01-07-2017
Publisher: Springer US
Published in: Journal of Thrombosis and Thrombolysis / Issue 1/2017
Print ISSN: 0929-5305
Electronic ISSN: 1573-742X
DOI: https://doi.org/10.1007/s11239-017-1496-y

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