Fiche publication
Date publication
novembre 2020
Journal
Blood
Auteurs
Membres identifiés du Cancéropôle Est :
Pr BAHRAM Siamak
,
Dr CARAPITO Raphaël
Tous les auteurs :
Schürch C, Schaefer T, Müller JS, Hanns P, Arnone M, Dumlin A, Schärer J, Sinning I, Wild K, Skokowa J, Welte K, Carapito R, Bahram S, Konantz M, Lengerke C
Lien Pubmed
Résumé
Heterozygous de novo missense variants of SRP54 were recently identified in patients with congenital neutropenia (CN), displaying symptoms overlapping with Shwachman-Diamond-Syndrome (SDS).1 Here, we investigate srp54 KO zebrafish as the first in vivo model of SRP54 deficiency. srp54-/- zebrafish are embryonically lethal and display, next to severe neutropenia, multi-systemic developmental defects. In contrast, srp54+/- zebrafish are viable, fertile and only show mild neutropenia. Interestingly, injection of human SRP54 mRNAs carrying mutations observed in patients (T115A, T117Δ and G226E) aggravated neutropenia and induced pancreatic defects in srp54+/- fish, mimicking the corresponding human clinical phenotypes. These data suggest that the variable phenotypes observed in patients may be due to mutation-specific dominant negative effects on the functionality of the residual wildtype SRP54 protein. Consistently, overexpression of mutated SRP54 also induced neutropenia in wildtype fish and impaired granulocytic maturation of human promyelocytic HL-60 cells as well as of healthy cord-blood derived CD34+ HSPCs. Mechanistically, srp54 mutant fish and human cells show impaired unconventional splicing of the transcription factor X-box binding protein 1 (Xbp1). Vice-versa, xbp1 morphants recapitulate phenotypes observed in srp54 deficiency and, importantly, injection of spliced, but not unspliced xbp1 mRNA rescues neutropenia in srp54+/- zebrafish. Together, these data indicate that SRP54 is critical for the development of various tissues, with neutrophils reacting most sensitively to SRP54 loss. The heterogenic phenotypes observed in patients, ranging from mild CN to SDS-like disease, may be due to different dominant negative effects of mutated SRP54 proteins on downstream XBP1 splicing, which represents a potential therapeutic target.
Référence
Blood. 2020 Nov 23;: