The Genetic Spectrum of Familial Hypercholesterolemia (FH) in the Iranian Population

Fairoozy, Roaa Hani; Futema, Marta; Vakili, Rahim; Abbaszadegan, Mohammad Reza; Hosseini, Susan; Aminzadeh, Majid; Zaeri, Hossein; Mobini, Moein; Humphries, Steve E.; Sahebkar, Amirhossein

doi:10.1038/s41598-017-17181-9

Cited by 15 publications

(14 citation statements)

References 52 publications

(62 reference statements)

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“…This frameshift variant results in the loss of 18 amino acids and addition of 86 amino acids at the C-terminal of the LDLR. In general, simultaneous occurrence of both the previously reported variants and the novel variant detected in this study suggest a broad spectrum of mutations and high heterogeneity of FH in the Vietnamese population, which is similar to that observed in other countries ( Jiang et al, 2015 ; Fairoozy et al, 2017 ).…”

Section: Discussionsupporting

confidence: 87%

Genetics, Screening, and Treatment of Familial Hypercholesterolemia: Experience Gained From the Implementation of the Vietnam Familial Hypercholesterolemia Registry

Truong

Kim

et al. 2020

Front. Genet.

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Section: Discussionsupporting

confidence: 87%

Genetics, Screening, and Treatment of Familial Hypercholesterolemia: Experience Gained From the Implementation of the Vietnam Familial Hypercholesterolemia Registry

Truong

Kim

et al. 2020

Front. Genet.

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“…FH is, in more than 90% of cases, caused by loss-of-function (LOF) mutations in the gene encoding LDL receptor (LDLR), which have as a consequence a decreased cellular uptake of LDL particles and therefore significantly elevated plasma LDL-C concentrations [13]. Currently more than 1700 such mutations have been documented [14, 15]. However, mutations of other genes related to apolipoprotein B that affect the LDLR-binding domain of apolipoprotein B as the most important apolipoprotein for LDL particles’ uptake, and the gain-of-function (GOF) mutations of proprotein convertase subtilisin/kexin9 (PCSK9) – a serine protease essential for LDLR recycling – have also been identified and they result in an identical phenotype as patients with LDLR mutations [2, 16].…”

Section: Introductionmentioning

confidence: 99%

Pulse wave velocity as a measure of arterial stiffness in patients with familial hypercholesterolemia: a systematic review and meta-analysis

Reiner

Simental‐Mendía

Ruscica

et al. 2019

aoms

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IntroductionThe aim of this meta-analysis was to establish whether vascular pulse wave velocity (PWV) as a measure of arterial stiffness is changed in patients with familial hypercholesterolemia (FH).Material and methodsStudies comparing PWV between patients with FH and controls were searched in PubMed-Medline, SCOPUS, Web of Science and Google Scholar databases (up to November 26, 2017). A meta-analysis was conducted using Comprehensive Meta-Analysis V2 software. A random-effects model (using the DerSimonian-Laird method) and the generic inverse variance method were used to compensate for the heterogeneity of studies concerning demographic characteristics and differences in the studies’ design.ResultsThis meta-analysis of 8 studies involving 317 patients with FH and 244 non-FH individuals did not suggest a significantly altered PWV in FH patients versus controls (weighted mean difference (WMD): 0.17 m/s, 95% confidence interval (CI): –0.31, 0.65, p = 0.489; I2 = 80.15%). The result was robust in the sensitivity analysis and its significance was not influenced after omitting each of the included studies from the meta-analysis. Subanalysis of 6 of these studies which had data on intima-media thickness (IMT) indicated an increased IMT in FH patients when compared with controls (WMD = 0.03 mm, 95% CI: 0.003, 0.06, p = 0.034; I2 = 48.95%). However, the effect size was sensitive to some of the included studies.ConclusionsThis meta-analysis suggests that FH patients do not have significantly altered PWV when compared with normocholesterolemic individuals. However, a subanalysis of studies in which IMT was measured indicated that IMT is increased in FH patients compared with controls.

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“…The DNA base transversion leads to the conversion of amino acid arginine (Arg) to glycine (Gln), cysteine (Cys) to Arg, aspartic acid (Asp) to asparagine (Asn), and Asp to glycine (Gly) in the binding domain of LDL leading to LDLR dysfunction [ 37 ]. The adhesion of LDL and LDLR and subsequent uptake and removal LDL from the circulation is reduced, thus promoting plasma retention of LDL, ox-LDL, vascular inflammation and AS plaque development [ 38 , 39 ]. Clinical studies indicate that the missense mutations in proprotein convertase substilisin/kexin type 9 (PCSK9), a gene that activate other serine protease in the secretory pathway, causes severe FH, suggesting additional factors beyond the loss-of-function mutation in the LDLR and apolopoprotein B (apoB) genes are of importance.…”

Section: Abnormalities In Dna and Histone In Asmentioning

confidence: 99%

Molecular mechanisms and genetic regulation in atherosclerosis

Jackson

Regine

Subrata

et al. 2018

IJC Heart & Vasculature

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Atherosclerosis (AS) manifested by lipid accumulation, extracellular matrix protein deposition, and calcification in the intima and media of the large to medium size arteries promoting arterial stiffness and reduction of elasticity. It has been accepted that AS leads to increased morbidity and mortality worldwide. Recent studies indicated that genetic abnormalities play an important role in the development of AS. Specific genetic mutation and histone modification have been found to induce AS formation. Furthermore, specific RNAs such as microRNAs and circular RNAs have been identified to play a crucial role in the progression of AS. Nevertheless, the mechanisms by which genetic mutation, DNA and histone modification, microRNAs and circular RNA induce AS still remain elusive. This review describes specific mechanisms and pathways through which genetic mutation, DNA and histone modification, microRNAs and circular RNA instigate AS. This review further provides a therapeutic strategic direction for the treatment of AS targeting genetic mechanisms.

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The Genetic Spectrum of Familial Hypercholesterolemia (FH) in the Iranian Population

Cited by 15 publications

References 52 publications

Genetics, Screening, and Treatment of Familial Hypercholesterolemia: Experience Gained From the Implementation of the Vietnam Familial Hypercholesterolemia Registry

Genetics, Screening, and Treatment of Familial Hypercholesterolemia: Experience Gained From the Implementation of the Vietnam Familial Hypercholesterolemia Registry

Pulse wave velocity as a measure of arterial stiffness in patients with familial hypercholesterolemia: a systematic review and meta-analysis

Molecular mechanisms and genetic regulation in atherosclerosis

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