Stéphanie Bornes scite author profile

Amyotrophic lateral sclerosis (ALS) is an incurable degenerative disorder of motoneurons. We recently reported that reduced expression of Vegfa causes ALS-like motoneuron degeneration in Vegfa(delta/delta) mice. In a meta-analysis of over 900 individuals from Sweden and over 1,000 individuals from Belgium and England, we now report that subjects homozygous with respect to the haplotypes -2,578A/-1,154A/-634G or -2,578A/-1,154G/-634G in the VEGF promoter/leader sequence had a 1.8 times greater risk of ALS (P = 0.00004). These 'at-risk' haplotypes lowered circulating VEGF levels in vivo and reduced VEGF gene transcription, IRES-mediated VEGF expression and translation of a novel large-VEGF isoform (L-VEGF) in vivo. Moreover, SOD1(G93A) mice crossbred with Vegfa(delta/delta) mice died earlier due to more severe motoneuron degeneration. Vegfa(delta/delta) mice were unusually susceptible to persistent paralysis after spinal cord ischemia, and treatment with Vegfa protected mice against ischemic motoneuron death. These findings indicate that VEGF is a modifier of motoneuron degeneration in human ALS and unveil a therapeutic potential of Vegfa for stressed motoneurons in mice.

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Generation of protein isoform diversity by alternative initiation of translation at non‐AUG codons

Touriol

Bornes

Bonnal

et al. 2003

Biology of the Cell

229

198

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The use of several translation initiation codons in a single mRNA, by expressing several proteins from a single gene, contributes to the generation of protein diversity. A small, yet growing, number of mammalian mRNAs initiate translation from a non-AUG codon, in addition to initiating at a downstream in-frame AUG codon. Translation initiation on such mRNAs results in the synthesis of proteins harbouring different amino terminal domains potentially conferring on these isoforms distinct functions. Use of non-AUG codons appears to be governed by several features, including the sequence context and the secondary structure surrounding the codon. Selection of the downstream initiation codon can occur by leaky scanning of the 43S ribosomal subunit, internal entry of ribosome or ribosomal shunting. The biological significance of non-AUG alternative initiation is demonstrated by the different subcellular localisations and/or distinct biological functions of the isoforms translated from the single mRNA as illustrated by the two main angiogenic factor genes encoding the fibroblast growth factor 2 (FGF2) and the vascular endothelial growth factor (VEGF). Consequently, the regulation of alternative initiation of translation might have a crucial role for the biological function of the gene product.

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The impact of the Fungus-Host-Microbiota interplay uponCandida albicansinfections: current knowledge and new perspectives

et al. 2020

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Candida albicans is a major fungal pathogen of humans. It exists as a commensal in the oral cavity, gut or genital tract of most individuals, constrained by the local microbiota, epithelial barriers and immune defences. Their perturbation can lead to fungal outgrowth and the development of mucosal infections such as oropharyngeal or vulvovaginal candidiasis, and patients with compromised immunity are susceptible to life-threatening systemic infections. The importance of the interplay between fungus, host and microbiota in driving the transition from C. albicans commensalism to pathogenicity is widely appreciated. However, the complexity of these interactions, and the significant impact of fungal, host and microbiota variability upon disease severity and outcome, are less well understood. Therefore, we summarise the features of the fungus that promote infection, and how genetic variation between clinical isolates influences pathogenicity. We discuss antifungal immunity, how this differs between mucosae, and how individual variation influences a person's susceptibility to infection. Also, we describe factors that influence the composition of gut, oral and vaginal microbiotas, and how these affect fungal colonisation and antifungal immunity. We argue that a detailed understanding of these variables, which underlie fungal-host-microbiota interactions, will present opportunities for directed antifungal therapies that benefit vulnerable patients.

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