Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain
© 2017 Elsevier B.V. Activated factor (F) VII is a vitamin K-dependent glycoprotein that initiates blood coagulation upon interaction with tissue factor. FVII deficiency is the most common of the rare congenital bleeding disorders. While the mutational pattern has been extensively characterized, the...
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th-mahidol.452282019-08-23T17:36:34Z Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain Maria Eugenia Chollet Elisabeth Andersen Ellen Skarpen Christiane F. Myklebust Christian Koehler Jens Preben Morth Ampaiwan Chuansumrit Mirko Pinotti Francesco Bernardi Bernd Thiede Per Morten Sandset Grethe Skretting Oslo University Hospital Research Institute of Internal Medicine University of Ferrara Mahidol University Universitetet i Oslo Biochemistry, Genetics and Molecular Biology © 2017 Elsevier B.V. Activated factor (F) VII is a vitamin K-dependent glycoprotein that initiates blood coagulation upon interaction with tissue factor. FVII deficiency is the most common of the rare congenital bleeding disorders. While the mutational pattern has been extensively characterized, the pathogenic molecular mechanisms of mutations, particularly at the intracellular level, have been poorly defined. Here, we aimed at elucidating the mechanisms underlying altered FVII biosynthesis in the presence of three mutation types in the catalytic domain: a missense change, a microdeletion and a frameshift/elongation, associated with severe or moderate to severe phenotypes. Using CHO-K1 cells transiently transfected with expression vectors containing the wild-type FVII cDNA (FVIIwt) or harboring the p.I289del, p.G420V or p.A354V-p.P464Hfs mutations, we found that the secretion of the FVII mutants was severely decreased compared to FVIIwt. The synthesis rate of the mutants was slower than the FVIIwt and delayed, and no degradation of the FVII mutants by proteasomes, lysosomes or cysteine proteases was observed. Confocal immunofluorescence microscopy studies showed that FVII variants were localized into the endoplasmic reticulum (ER) but were not detectable within the Golgi apparatus. These findings suggested that a common pathogenic mechanism, possibly a defective folding of the mutant proteins, was triggered by the FVII mutations. The misfolded state led to impaired trafficking of these proteins causing ER retention, which would explain the low to very low FVII plasma levels observed in patients carrying these mutations. 2019-08-23T10:36:34Z 2019-08-23T10:36:34Z 2018-03-01 Article Biochimica et Biophysica Acta - Molecular Basis of Disease. Vol.1864, No.3 (2018), 660-667 10.1016/j.bbadis.2017.12.016 1879260X 09254439 2-s2.0-85038881436 https://repository.li.mahidol.ac.th/handle/123456789/45228 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85038881436&origin=inward |
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Biochemistry, Genetics and Molecular Biology Maria Eugenia Chollet Elisabeth Andersen Ellen Skarpen Christiane F. Myklebust Christian Koehler Jens Preben Morth Ampaiwan Chuansumrit Mirko Pinotti Francesco Bernardi Bernd Thiede Per Morten Sandset Grethe Skretting Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| description |
© 2017 Elsevier B.V. Activated factor (F) VII is a vitamin K-dependent glycoprotein that initiates blood coagulation upon interaction with tissue factor. FVII deficiency is the most common of the rare congenital bleeding disorders. While the mutational pattern has been extensively characterized, the pathogenic molecular mechanisms of mutations, particularly at the intracellular level, have been poorly defined. Here, we aimed at elucidating the mechanisms underlying altered FVII biosynthesis in the presence of three mutation types in the catalytic domain: a missense change, a microdeletion and a frameshift/elongation, associated with severe or moderate to severe phenotypes. Using CHO-K1 cells transiently transfected with expression vectors containing the wild-type FVII cDNA (FVIIwt) or harboring the p.I289del, p.G420V or p.A354V-p.P464Hfs mutations, we found that the secretion of the FVII mutants was severely decreased compared to FVIIwt. The synthesis rate of the mutants was slower than the FVIIwt and delayed, and no degradation of the FVII mutants by proteasomes, lysosomes or cysteine proteases was observed. Confocal immunofluorescence microscopy studies showed that FVII variants were localized into the endoplasmic reticulum (ER) but were not detectable within the Golgi apparatus. These findings suggested that a common pathogenic mechanism, possibly a defective folding of the mutant proteins, was triggered by the FVII mutations. The misfolded state led to impaired trafficking of these proteins causing ER retention, which would explain the low to very low FVII plasma levels observed in patients carrying these mutations. |
| author2 |
Oslo University Hospital |
| author_facet |
Oslo University Hospital Maria Eugenia Chollet Elisabeth Andersen Ellen Skarpen Christiane F. Myklebust Christian Koehler Jens Preben Morth Ampaiwan Chuansumrit Mirko Pinotti Francesco Bernardi Bernd Thiede Per Morten Sandset Grethe Skretting |
| format |
Article |
| author |
Maria Eugenia Chollet Elisabeth Andersen Ellen Skarpen Christiane F. Myklebust Christian Koehler Jens Preben Morth Ampaiwan Chuansumrit Mirko Pinotti Francesco Bernardi Bernd Thiede Per Morten Sandset Grethe Skretting |
| author_sort |
Maria Eugenia Chollet |
| title |
Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| title_short |
Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| title_full |
Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| title_fullStr |
Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| title_full_unstemmed |
Factor VII deficiency: Unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| title_sort |
factor vii deficiency: unveiling the cellular and molecular mechanisms underlying three model alterations of the enzyme catalytic domain |
| publishDate |
2019 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/45228 |
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1763494651635957760 |