Defective Protein Prenylation in a Spectrum of Patients With Mevalonate Kinase Deficiency
The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal pos...
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| Published in | Frontiers in immunology Vol. 10; p. 1900 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
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14.08.2019
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| Abstract | The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the
gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous
genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant,
. We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous
patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic
variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD. |
|---|---|
| AbstractList | The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the MVK gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous MVK genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant, MVKV377I. We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous MVKV377I patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic MVK variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD. The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the MVK gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous MVK genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant, MVKV377I . We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous MVKV377I patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic MVK variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD.The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the MVK gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous MVK genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant, MVKV377I . We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous MVKV377I patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic MVK variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD. The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the MVK gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous MVK genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant, MVK V 377 I . We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous MVK V 377 I patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic MVK variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD. The rare autoinflammatory disease mevalonate kinase deficiency (MKD, which includes HIDS and mevalonic aciduria) is caused by recessive, pathogenic variants in the gene encoding mevalonate kinase. Deficiency of this enzyme decreases the synthesis of isoprenoid lipids and thus prevents the normal post-translational prenylation of small GTPase proteins, which then accumulate in their unprenylated form. We recently optimized a sensitive assay capable of detecting unprenylated Rab GTPase proteins in peripheral blood mononuclear cells (PBMCs) and showed that this assay distinguished MKD from other autoinflammatory diseases. We have now analyzed PBMCs from an additional six patients with genetically-confirmed MKD (with different compound heterozygous genotypes), and compared these with PBMCs from three healthy volunteers and four unaffected control individuals heterozygous for the commonest pathogenic variant, . We detected a clear accumulation of unprenylated Rab proteins, as well as unprenylated Rap1A by western blotting, in all six genetically-confirmed MKD patients compared to heterozygous controls and healthy volunteers. Furthermore, in the three subjects for whom measurements of residual mevalonate kinase activity was available, enzymatic activity inversely correlated with the extent of the defect in protein prenylation. Finally, a heterozygous patient presenting with autoinflammatory symptoms did not have defective prenylation, indicating a different cause of disease. These findings support the notion that the extent of loss of enzyme function caused by biallelic variants determines the severity of defective protein prenylation, and the accumulation of unprenylated proteins in PBMCs may be a sensitive and consistent biomarker that could be used to aid, or help rule out, diagnosis of MKD. |
| Author | Munoz, Marcia A. Hissaria, Pravin Rogers, Michael J. Mehr, Sam Arts, Rob J. W. Simon, Anna Coman, David Jurczyluk, Julie Boros, Christina |
| AuthorAffiliation | 4 Queensland Children's Hospital , Brisbane, QLD , Australia 8 Department of Allergy and Immunology, Royal Children's Hospital , Melbourne, VIC , Australia 3 Royal Adelaide Hospital , Adelaide, SA , Australia 6 School of Medicine, Griffith University , Brisbane, QLD , Australia 2 Department of Internal Medicine, Radboudumc Expertise Centre for Immunodeficiency and Autoinflammation, Radboud University Medical Centre , Nijmegen , Netherlands 5 School of Medicine, University of Queensland , Brisbane, QLD , Australia 1 Bone Biology, Garvan Institute of Medical Research, Sydney & St Vincent's Clinical School, UNSW Sydney , Sydney, NSW , Australia 7 Department of Rheumatology, Women's and Children's Hospital, University of Adelaide Discipline of Paediatrics , Adelaide, SA , Australia |
| AuthorAffiliation_xml | – name: 8 Department of Allergy and Immunology, Royal Children's Hospital , Melbourne, VIC , Australia – name: 6 School of Medicine, Griffith University , Brisbane, QLD , Australia – name: 2 Department of Internal Medicine, Radboudumc Expertise Centre for Immunodeficiency and Autoinflammation, Radboud University Medical Centre , Nijmegen , Netherlands – name: 5 School of Medicine, University of Queensland , Brisbane, QLD , Australia – name: 1 Bone Biology, Garvan Institute of Medical Research, Sydney & St Vincent's Clinical School, UNSW Sydney , Sydney, NSW , Australia – name: 4 Queensland Children's Hospital , Brisbane, QLD , Australia – name: 7 Department of Rheumatology, Women's and Children's Hospital, University of Adelaide Discipline of Paediatrics , Adelaide, SA , Australia – name: 3 Royal Adelaide Hospital , Adelaide, SA , Australia |
| Author_xml | – sequence: 1 givenname: Marcia A. surname: Munoz fullname: Munoz, Marcia A. – sequence: 2 givenname: Julie surname: Jurczyluk fullname: Jurczyluk, Julie – sequence: 3 givenname: Anna surname: Simon fullname: Simon, Anna – sequence: 4 givenname: Pravin surname: Hissaria fullname: Hissaria, Pravin – sequence: 5 givenname: Rob J. W. surname: Arts fullname: Arts, Rob J. W. – sequence: 6 givenname: David surname: Coman fullname: Coman, David – sequence: 7 givenname: Christina surname: Boros fullname: Boros, Christina – sequence: 8 givenname: Sam surname: Mehr fullname: Mehr, Sam – sequence: 9 givenname: Michael J. surname: Rogers fullname: Rogers, Michael J. |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31474985$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1038/sj.ejhg.5201323 10.1038/9696 10.1212/01.WNL.0000115390.33405.F7 10.1038/9691 10.1002/art.39763 10.1080/21541248.2015.1085485 10.1002/humu.20361 10.1007/s00018-005-5298-6 10.1093/rheumatology/kem200 10.1038/icb.2016.58 10.1038/sj.ejhg.5200614 10.1016/j.jaci.2017.02.033 10.1136/rmdopen-2015-000196 10.1093/hmg/11.25.3115 10.1111/ahg.12126 10.1542/peds.2010-3639 10.1002/art.22194 10.1542/peds.91.5.915 10.1002/art.10550 10.1684/ecn.2009.0162 |
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| Copyright | Copyright © 2019 Munoz, Jurczyluk, Simon, Hissaria, Arts, Coman, Boros, Mehr and Rogers. 2019 Munoz, Jurczyluk, Simon, Hissaria, Arts, Coman, Boros, Mehr and Rogers |
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| Keywords | autoinflammation HIDS Rab GTPase prenylation mevalonate kinase Rap1 |
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| References_xml | – volume: 13 start-page: 314 year: 2005 ident: B16 article-title: MVK mutations and associated clinical features in Italian patients affected with autoinflammatory disorders and recurrent fever publication-title: Eur J Hum Genet. doi: 10.1038/sj.ejhg.5201323 – volume: 22 start-page: 178 year: 1999 ident: B2 article-title: Mutations in the gene encoding mevalonate kinase cause hyper-IgD and periodic fever syndrome. International Hyper-IgD Study Group publication-title: Nat Genet doi: 10.1038/9696 – volume: 62 start-page: 994 year: 2004 ident: B3 article-title: Mevalonate kinase deficiency: evidence for a phenotypic continuum publication-title: Neurology doi: 10.1212/01.WNL.0000115390.33405.F7 – volume: 22 start-page: 175 year: 1999 ident: B1 article-title: Mutations in MVK, encoding mevalonate kinase, cause hyperimmunoglobulinaemia D and periodic fever syndrome publication-title: Nat Genet doi: 10.1038/9691 – volume: 68 start-page: 2795 year: 2016 ident: B4 article-title: The phenotype and genotype of mevalonate kinase deficiency: a series of 114 cases from the Eurofever Registry publication-title: Arthritis Rheumatol doi: 10.1002/art.39763 – volume: 6 start-page: 202 year: 2015 ident: B11 article-title: A highly sensitive prenylation assay reveals in vivo effects of bisphosphonate drug on the Rab prenylome of macrophages outside the skeleton publication-title: Small GTPases doi: 10.1080/21541248.2015.1085485 – volume: 27 start-page: 796 year: 2006 ident: B19 article-title: Mutational spectrum and genotype-phenotype correlations in mevalonate kinase deficiency publication-title: Hum Mutat doi: 10.1002/humu.20361 – volume: 63 start-page: 255 year: 2006 ident: B6 article-title: Isoprenylated proteins publication-title: Cell Mol Life Sci doi: 10.1007/s00018-005-5298-6 – volume: 46 start-page: 1597 year: 2007 ident: B10 article-title: Diagnostic value of serum immunoglobulinaemia D level in patients with a clinical suspicion of hyper IgD syndrome publication-title: Rheumatology. doi: 10.1093/rheumatology/kem200 – volume: 94 start-page: 994 year: 2016 ident: B12 article-title: Mevalonate kinase deficiency leads to decreased prenylation of Rab GTPases publication-title: Immunol Cell Biol doi: 10.1038/icb.2016.58 – volume: 9 start-page: 260 year: 2001 ident: B14 article-title: Molecular analysis of MVK mutations and enzymatic activity in hyper-IgD and periodic fever syndrome publication-title: Eur J Hum Genet doi: 10.1038/sj.ejhg.5200614 – volume: 140 start-page: 873 year: 2017 ident: B13 article-title: Defective protein prenylation is a diagnostic biomarker of mevalonate kinase deficiency publication-title: J Allergy Clin Immunol doi: 10.1016/j.jaci.2017.02.033 – volume: 2 start-page: e000196 year: 2016 ident: B20 article-title: Homozygosity for the V377I mutation in mevalonate kinase causes distinct clinical phenotypes in two sibs with hyperimmunoglobulinaemia D and periodic fever syndrome (HIDS) publication-title: RMD Open. doi: 10.1136/rmdopen-2015-000196 – volume: 11 start-page: 3115 year: 2002 ident: B18 article-title: Temperature dependence of mutant mevalonate kinase activity as a pathogenic factor in hyper-IgD and periodic fever syndrome publication-title: Hum Mol Genet doi: 10.1093/hmg/11.25.3115 – volume: 79 start-page: 451 year: 2015 ident: B15 article-title: In silico prediction of the effects of mutations in the human mevalonate kinase gene: towards a predictive framework for mevalonate kinase deficiency publication-title: Ann Hum Genet doi: 10.1111/ahg.12126 – volume: 128 start-page: e152 year: 2011 ident: B17 article-title: Mevalonate kinase deficiency: a survey of 50 patients publication-title: Pediatrics. doi: 10.1542/peds.2010-3639 – volume: 54 start-page: 3690 year: 2006 ident: B8 article-title: A role for geranylgeranylation in interleukin-1beta secretion publication-title: Arthritis Rheum. doi: 10.1002/art.22194 – volume: 91 start-page: 915 year: 1993 ident: B5 article-title: Clinical and biochemical phenotype in 11 patients with mevalonic aciduria publication-title: Pediatrics doi: 10.1542/peds.91.5.915 – volume: 46 start-page: 2794 year: 2002 ident: B7 article-title: Lack of isoprenoid products raises ex vivo interleukin-1beta secretion in hyperimmunoglobulinemia D and periodic fever syndrome publication-title: Arthritis Rheum doi: 10.1002/art.10550 – volume: 20 start-page: 112 year: 2009 ident: B9 article-title: Pharmacological inhibitors of the mevalonate pathway activate pro-IL-1 processing and IL-1 release by human monocytes publication-title: Eur Cytokine Netw doi: 10.1684/ecn.2009.0162 |
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| Title | Defective Protein Prenylation in a Spectrum of Patients With Mevalonate Kinase Deficiency |
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