Marlène Le Tertre scite author profile

It has long been known that canonical 5′ splice site (5′SS) GT>GC variants may be compatible with normal splicing. However, to date, the actual scale of canonical 5′SSs capable of generating wild‐type transcripts in the case of GT>GC substitutions remains unknown. Herein, combining data derived from a meta‐analysis of 45 human disease‐causing 5′SS GT>GC variants and a cell culture‐based full‐length gene splicing assay of 103 5′SS GT>GC substitutions, we estimate that ~15–18% of canonical GT 5′SSs retain their capacity to generate between 1% and 84% normal transcripts when GT is substituted by GC. We further demonstrate that the canonical 5′SSs in which substitution of GT by GC‐generated normal transcripts exhibit stronger complementarity to the 5′ end of U1 snRNA than those sites whose substitutions of GT by GC did not lead to the generation of normal transcripts. We also observed a correlation between the generation of wild‐type transcripts and a milder than expected clinical phenotype but found that none of the available splicing prediction tools were capable of reliably distinguishing 5′SS GT>GC variants that generated wild‐type transcripts from those that did not. Our findings imply that 5′SS GT>GC variants in human disease genes may not invariably be pathogenic.

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Molecular model of the ferroportin intracellular gate and implications for the human iron transport cycle and hemochromatosis type 4A

Guellec

Elbahnsi

Tertre

et al. 2019

The FASEB Journal

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Ferroportin 1 (FPN1) is a major facilitator superfamily transporter that is essential for proper maintenance of human iron homeostasis at the systemic and cellular level. FPN1 dysfunction leads to the progressive accumulation of iron in reticuloendothelial cells, causing hemochromatosis type 4A (or ferroportin disease), an autosomal dominant disorder that displays large phenotypic heterogeneity. Although crystal structures have unveiled the outward-and inward-facing conformations of the bacterial homolog Bdellovibrio bacteriovorus Fpn (or Bd2019) and calcium has recently been identified as an essential cofactor, our molecular understanding of the iron transport mechanism remains incomplete. Here, we used a combination of molecular modeling, molecular dynamics simulations, and Ala site-directed mutagenesis, followed by complementary in vitro functional analyses, to explore the structural architecture of the human FPN1 intracellular gate. We reveal an interdomain network that involves 5 key amino acids and is likely very important for stability of the iron exporter facing the extracellular milieu. We also identify inter-and intradomain interactions that rely on the 2 Asp84 and Asn174 critical residues and do not exist in the bacterial homolog. These interactions are thought to play an important role in the modulation of conformational changes during the transport cycle. We interpret these results in the context of hemochromatosis type 4A, reinforcing the idea that different categories of loss-of-function mutations exist. Our findings provide an unprecedented view of the human FPN1 outward-facing structure and the particular function of the so-called "gating residues" in the mechanism of iron export.-

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Marlène Le Tertre

First estimate of the scale of canonical 5′ splice site GT>GC variants capable of generating wild‐type transcripts

Molecular model of the ferroportin intracellular gate and implications for the human iron transport cycle and hemochromatosis type 4A

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