&lt;i&gt;SLC40A1&lt;/i&gt; c.1402G→A Results in Aberrant Splicing, Ferroportin Truncation after Glycine 330, and an Autosomal Dominant Hemochromatosis Phenotype

Lee, Pauline L.; West, Carol; Barton, James C.

doi:10.1159/000112830

Cited by 18 publications

(7 citation statements)

References 66 publications

(39 reference statements)

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“…Apart from this type of variation, only the p.Val162 single-amino-acid in-frame deletion has been consistently associated with iron overload phenotypes. The p.Gly468Ser substitution can be considered separately, in that the underlying c.1402G>A transition disrupts the exon 7 donor site, resulting in the partial use of an exonic cryptic splice site and the generation of a truncated reading frame [27,28], while the Gly468 to Ser amino acid change by itself has no obvious effect on the ability of SLC40A1 to export iron [27].…”

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confidence: 99%

The Spectra of Disease-Causing Mutations in the Ferroportin 1 (SLC40A1) Encoding Gene and Related Iron Overload Phenotypes (Hemochromatosis Type 4 and Ferroportin Disease)

Uguen

Collod‐Béroud

et al. 2023

Human Mutation

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SLC40A1 is the sole iron export protein reported in mammals and is a key player in both cellular and systemic iron homeostasis. This unique iron exporter, which belongs to the major facilitator superfamily, is predominantly regulated by the hyposideremic hormone hepcidin. SLC40A1 dysfunction causes ferroportin disease, and autosomal dominant iron overload disorder characterized by cellular iron retention, principally in reticuloendothelial cells, correlating with high serum ferritin and low to normal transferrin saturation. Resistant to hepcidin, SLC40A1 mutations are rather associated with elevated plasma iron and parenchymal iron deposition, a condition that resembles HFE-related hemochromatosis and is associated with more clinical complications. With very few exceptions, only missense variations are reported at the SLC40A1 locus; this situation increasingly limits the establishment of pathogenicity. In this mutation update, we provide a comprehensive review of all the pathogenic or likely pathogenic variants, variants of unknown significance, and benign or likely benign SLC40A1 variants. The classification is essentially determined using functional, structural, segregation, and recurrence data. We furnish new information on genotype-phenotype correlations for loss-of-function, gain-of-function, and other SLC40A1 variants, confirming the existence of wide clinical heterogeneity and the potential for misdiagnosis. All information is recorded in a locus-specific online database.

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confidence: 99%

The Spectra of Disease-Causing Mutations in the Ferroportin 1 (SLC40A1) Encoding Gene and Related Iron Overload Phenotypes (Hemochromatosis Type 4 and Ferroportin Disease)

Uguen

Collod‐Béroud

et al. 2023

Human Mutation

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“…[ 7 – 9 ] It is assumed that the phenotypes of patients with SLC40A1 mutations vary depending on the mutation. [ 10 ] Mutations leading to ferroportin that is either not present normally at the cell surface or has defective iron export activity (loss of function) are associated with iron deposition in Kupffer cells and low transferrin saturation, [ 10 ] and define type 4A. Those mutated ferroportin that cannot be internalized after hepcidin binding (gain of function) are associated with iron deposition in hepatocytes and elevated transferrin saturation, [ 10 ] and define type 4B.…”

Section: Discussionmentioning

confidence: 99%

“…[ 10 ] Mutations leading to ferroportin that is either not present normally at the cell surface or has defective iron export activity (loss of function) are associated with iron deposition in Kupffer cells and low transferrin saturation, [ 10 ] and define type 4A. Those mutated ferroportin that cannot be internalized after hepcidin binding (gain of function) are associated with iron deposition in hepatocytes and elevated transferrin saturation, [ 10 ] and define type 4B. A systemic meta-analysis of 176 individuals reported that SLC40A1 mutations, namely, V162del, D157N, D181V, G80V, Q182H, and R489K, may impair ferroportin's iron export function, and are common mutations for type 4A HH.…”

Section: Discussionmentioning

confidence: 99%

Type 4B hereditary hemochromatosis associated with a novel mutation in the SLC40A1 gene

Zhang

Huang

2017

Medicine

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Rationale:Hereditary hemochromatosis can be divided into HFE- and non-HFE-related based on genetic mutations in different genes. HFE-related hemochromatosis is the most common inherited genetic disease in European populations but rare in Asia-pacific region. Recently, non-HFE-related hemochromatosis has been reported in patients from the Asian countries.Patient concerns:We report the case of a 48-year-old Chinese Han woman who presented with abnormal liver function, diabetes mellitus, hyperferritinemia, and high transferrin saturation, with severe iron overload in parenchymal cells, Kupffer cells, and periportal fibrosis on liver biopsy. No secondary factor for iron overload was identified.Diagnoses:Sanger sequencing was conducted for the screening of mutation in the hereditary hemochromatosis related genes. The functional effect of a splicing mutation, SLC40A1 IVS 3+10 del gtt, was assessed by reverse-polymerase chain reaction analysis for SLC40A1 mRNA level, and by immunohistochemistry analysis of liver biopsy for ferroportin expression and cellular localization.Outcomes:A novel splicing mutation IVS 3+10 del gtt was identified in the SLC40A1 gene. Functional analysis showed that IVS 3+10 del gtt in the SLC40A1 gene lead to a substantial reduction in the basal levels of SLC40A1 mRNA and increased membrane localization of ferroportin. Finally, the patient was diagnosed as ferroportin disease (type 4B hemochromatosis).Lessons:The present study is the first report to identify a classical splicing mutation in the SLC40A1 gene in type 4B hemochromatosis, and provide further evidence of the prevalence of type 4 hereditary hemochromatosis in Asian countries.

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“…However, further functional studies or larger population studies are required to unequivocally link these variants to impaired ferroportin function and iron overload in individuals carrying these variants. The other six SLC40A1 variants identified in the ExAC data set (c.-59_-45del, p.Ile180Thr, p.Gly204Ser, p.Gly267Asp, p.Arg371Gln, and p.Gly468Ser) have all been associated with iron overload in patients and/or families, [26][27][28][29][30][31][32][33] although ferroportin containing the p.Ile180Thr variant seemed to behave similarly to the wild type when analyzed in functional assays. 30 The SLC40A1 p.Val162del variant has been reported as a cause of ferroportin disease more frequently (in nine publications) than any other SLC40A1 mutation (Supplementary Table S1 online); however, we did not detect it in any of the genomic sequence databases.…”

Section: Discussionmentioning

confidence: 99%

The global prevalence of HFE and non-HFE hemochromatosis estimated from analysis of next-generation sequencing data

Wallace

Subramaniam

2016

Genetics in Medicine

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Purpose:The prevalence of HFE-related hereditary hemochromatosis (HH) among European populations has been well studied. There are no prevalence data for atypical forms of HH caused by mutations in HFE2, HAMP, TFR2, or SLC40A1. The purpose of this study was to estimate the population prevalence of these non-HFE forms of HH.Methods: A list of HH pathogenic variants in publically available next-generation sequence (NGS) databases was compiled and allele frequencies were determined.Results: Of 161 variants previously associated with HH, 43 were represented among the NGS data sets; an additional 40 unreported functional variants also were identified. The predicted prevalence of HFE HH and the p.Cys282Tyr mutation closely matched previous estimates from similar populations. Of the non-HFE forms of iron overload, TFR2-, HFE2-, and HAMP-related forms are predicted to be rare, with pathogenic allele frequencies in the range of 0.00007 to 0.0005. Significantly, SLC40A1 variants that have been previously associated with autosomal-dominant ferroportin disease were identified in several populations (pathogenic allele frequency 0.0004), being most prevalent among Africans. Conclusion:We have, for the first time, estimated the population prevalence of non-HFE HH. This methodology could be applied to estimate the population prevalence of a wide variety of genetic disorders.

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<i>SLC40A1</i> c.1402G→A Results in Aberrant Splicing, Ferroportin Truncation after Glycine 330, and an Autosomal Dominant Hemochromatosis Phenotype

Cited by 18 publications

References 66 publications

The Spectra of Disease-Causing Mutations in the Ferroportin 1 (SLC40A1) Encoding Gene and Related Iron Overload Phenotypes (Hemochromatosis Type 4 and Ferroportin Disease)

The Spectra of Disease-Causing Mutations in the Ferroportin 1 (SLC40A1) Encoding Gene and Related Iron Overload Phenotypes (Hemochromatosis Type 4 and Ferroportin Disease)

Type 4B hereditary hemochromatosis associated with a novel mutation in the SLC40A1 gene

The global prevalence of HFE and non-HFE hemochromatosis estimated from analysis of next-generation sequencing data

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