Vytautas Ivaškevičius scite author profile

Coumarin derivatives such as warfarin represent the therapy of choice for the long-term treatment and prevention of thromboembolic events. Coumarins target blood coagulation by inhibiting the vitamin K epoxide reductase multiprotein complex (VKOR). This complex recycles vitamin K 2,3-epoxide to vitamin K hydroquinone, a cofactor that is essential for the post-translational gamma-carboxylation of several blood coagulation factors. Despite extensive efforts, the components of the VKOR complex have not been identified. The complex has been proposed to be involved in two heritable human diseases: combined deficiency of vitamin-K-dependent clotting factors type 2 (VKCFD2; Online Mendelian Inheritance in Man (OMIM) 607473), and resistance to coumarin-type anticoagulant drugs (warfarin resistance, WR; OMIM 122700). Here we identify, by using linkage information from three species, the gene vitamin K epoxide reductase complex subunit 1 (VKORC1), which encodes a small transmembrane protein of the endoplasmic reticulum. VKORC1 contains missense mutations in both human disorders and in a warfarin-resistant rat strain. Overexpression of wild-type VKORC1, but not VKORC1 carrying the VKCFD2 mutation, leads to a marked increase in VKOR activity, which is sensitive to warfarin inhibition.

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Identification of eight novel coagulation factor XIII subunit A mutations: implied consequences for structure and function

Ivaškevičius¹,

Biswas²,

Bevans³

et al. 2010

Haematologica

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BackgroundSevere hereditary coagulation factor XIII deficiency is a rare homozygous bleeding disorder affecting one person in every two million individuals. In contrast, heterozygous factor XIII deficiency is more common, but usually not associated with severe hemorrhage such as intracranial bleeding or hemarthrosis. In most cases, the disease is caused by F13A gene mutations. Causative mutations associated with the F13B gene are rarer. Design and MethodsWe analyzed ten index patients and three relatives for factor XIII activity using a photometric assay and sequenced their F13A and F13B genes. Additionally, structural analysis of the wildtype protein structure from a previously reported X-ray crystallographic model identified potential structural and functional effects of the missense mutations. ResultsAll individuals except one were heterozygous for factor XIIIA mutations (average factor XIII activity 51%), while the remaining homozygous individual was found to have severe factor XIII deficiency (<5% of normal factor XIII activity). Eight of the 12 heterozygous patients exhibited a bleeding tendency upon provocation. ConclusionsThe identified missense (Pro289Arg, Arg611His, Asp668Gly) and nonsense (Gly390X, Trp664X) mutations are causative for factor XIII deficiency. A Gly592Ser variant identified in three unrelated index patients, as well as in 200 healthy controls (minor allele frequency 0.005), and two further Tyr167Cys and Arg540Gln variants, represent possible candidates for rare F13A gene polymorphisms since they apparently do not have a significant influence on the structure of the factor XIIIA protein. Future in vitro expression studies of the factor XIII mutations are required to confirm their pathological mechanisms.Key words: factor XIII deficiency, FXIII-A, FXIII-B, structural analysis. Citation: Ivaskevicius V, Biswas

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Evaluation of DHPLC in the analysis of hemophilia A

Oldenburg

Ivaškevičius

Rost

et al. 2001

Journal of Biochemical and Biophysical Methods

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Mutations affecting disulphide bonds contribute to a fairly common prevalence of F13B gene defects: results of a genetic study in 14 families with factor XIII B deficiency

et al. 2010

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Severe factor XIII (FXIII) deficiency is a rare autosomal recessive coagulation disorder affecting one in two million individuals. The aim of the present study was to screen for and analyse F13B gene defects in the German population. A total of 150 patients presenting with suspected FXIII deficiency and one patient with severe (homozygous) FXIII deficiency were screened for mutations in F13A and F13B genes. Twenty-five individuals presented with detectable heterozygous mutations, 12 of them in the F13A gene and 13 of them in the F13B gene. We report on the genotype-phenotype correlations of the individuals showing defects in the F13B gene. Direct sequencing revealed 12 unique mutations including seven missense mutations (Cys5Arg, Ile81Asn, Leu116Phe, Val217Ile, Cys316Phe, Val401Glu, Pro428Ser), two splice site mutations (IVS2-1G>C, IVS3-1G>C), two insertions (c.1155_1158dupACTT, c.1959insT) and one in-frame deletion (c.471-473delATT). Two of the missense mutations (Cys5Arg, Cys316Phe) eliminated disulphide bonds (Cys5-Cys56, Cys316-Cys358). Another three missense mutations, (Leu116Phe, Val401Glu, Pro428Ser) were located proximal to other cysteine disulphide bonds, therefore indicating that the region in and around these disulphide bonds is prone to functionally relevant mutations in the FXIII-B subunit. The present study reports on a fairly common prevalence of F13B gene defects in the German population. The regions in and around the cysteine disulphide bonds in the FXIII-B protein may be regions prone to frequent mutations.

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An update of the mutation profile of Factor 13 A and B genes

et al. 2011

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Intron retention resulting from a silent mutation in the VWF gene that structurally influences the 5′ splice site

Yadegari¹,

Biswas²,

Akhter³

et al. 2016

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Key Points• This study demonstrates allosteric RNA structure alteration resulting from an exonic variation, thereby interfering with splicing.• This study details a novel mechanism by which silent mutation distant to the 59 splice site could still result in intron retention.Disease-associated silent mutations are considered to affect the accurate premessenger RNA (mRNA) splicing either by influencing regulatory elements, leading to exon skipping, or by creating a new cryptic splice site. This study describes a new molecular pathological mechanism by which a silent mutation inhibits splicing and leads to intron retention. We identified a heterozygous silent mutation, c.7464C>T, in exon 44 of the von Willebrand factor (VWF) gene in a family with type 1 von Willebrand disease. In vivo and ex vivo transcript analysis revealed an aberrantly spliced transcript, with intron 44 retained in the mRNA, implying disruption of the first catalytic step of splicing at the 59 splice site (59ss). The abnormal transcript with the retained intronic region coded a truncated protein that lacked the carboxy-terminal end of the VWF protein. Confocal immunofluorescence characterizations of blood outgrowth endothelial cells derived from the patient confirmed the presence of the truncated protein by demonstrating accumulation of VWF in the endoplasmic reticulum. In silico pre-mRNA secondary and tertiary structure analysis revealed that this substitution, despite its distal position from the 59ss (85 bp downstream), induces cis alterations in pre-mRNA structure that result in the formation of a stable hairpin at the 59ss. This hairpin sequesters the 59ss residues involved in U1 small nuclear RNA interactions, thereby inhibiting excision of the pre-mRNA intronic region. This study is the first to show the allosteric-like/far-reaching effect of an exonic variation on pre-mRNA splicing that is mediated by structural changes in the pre-mRNA. (Blood. 2016;128(17):2144-2152

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Revisiting the mechanism of coagulation factor XIII activation and regulation from a structure/functional perspective

Gupta¹,

Biswas²,

Akhter³

et al. 2016

Sci Rep

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The activation and regulation of coagulation Factor XIII (FXIII) protein has been the subject of active research for the past three decades. Although discrete evidence exists on various aspects of FXIII activation and regulation a combinatorial structure/functional view in this regard is lacking. In this study, we present results of a structure/function study of the functional chain of events for FXIII. Our study shows how subtle chronological submolecular changes within calcium binding sites can bring about the detailed transformation of the zymogenic FXIII to its activated form especially in the context of FXIIIA and FXIIIB subunit interactions. We demonstrate what aspects of FXIII are important for the stabilization (first calcium binding site) of its zymogenic form and the possible modes of deactivation (thrombin mediated secondary cleavage) of the activated form. Our study for the first time provides a structural outlook of the FXIIIA2B2 heterotetramer assembly, its association and dissociation. The FXIIIB subunits regulatory role in the overall process has also been elaborated upon. In summary, this study provides detailed structural insight into the mechanisms of FXIII activation and regulation that can be used as a template for the development of future highly specific therapeutic inhibitors targeting FXIII in pathological conditions like thrombosis.

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Protection From Type 1 Diabetes by Vitamin D Receptor Haplotypes

Ramos-Lopez

Jansen

Ivaškevičius

et al. 2006

Annals of the New York Academy of Sciences

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Vitamin D has been involved in the modulation of calcium and bone metabolism as well as in the immune system, where it suppresses the proliferation of activated T cells. These effects are exerted via the vitamin D receptor (VDR). Polymorphisms within this gene have been exhaustively studied in diverse autoimmune diseases but with inconsistent results. We previously reported a positive association of polymorphisms within the VDR gene (Apa I, Taq I, Bsm I, and Fok I). In the present article we extended our previous reports to seven additional polymorphisms (rs757343, rs9729, rs2853559, rs1989969, rs3847987, rs2238135, and rs4516035) in a larger set of German simplex type 1 diabetes families. Additionally we correlated serum levels of 25(OH)D(3) and 1,25(OH)(2)D(3) with VDR genotypes and haplotypes. The haplotypes "CG" (Taq I-Apa I), "CGG" (Taq I-Apa I-Tru I), "CGC" (Taq I-Apa I-Fok I), "GCTG" (rs9729-Taq I-Apa I-Tru I), and "CGGC"(Taq I-Apa I, Tru I, Fok I) were less often transmitted, thus negatively associated with type 1 diabetes. Patients who carried the genotype "CC" of the rs3847987 polymorphism had higher median serum levels of 25(OH)D(3). Furthermore, the majority of patients with this genotype possessed normal serum levels of 25(OH)D(3). We conclude that variants of the VDR may confer a genetic protection from type 1 diabetes. Furthermore, normal serum levels of 25(OH)D(3) appear to correlate with a VDR genotype. This supports a role of vitamin D in the immune pathogenesis of type 1 diabetes.

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