An atypical form of 60S ribosomal subunit in Diamond-Blackfan anemia linked to RPL17 variants
Florence Fellmann, Carol Saunders, Marie-Françoise O’Donohue, David W. Reid, Kelsey A. McFadden, Nathalie Montel-Lehry, Cong Yu, Mingyan Fang, Jianguo Zhang, Beryl Royer-Bertrand, Pietro Farinelli, Narjesse Karboul, Jason R. Willer, Lorraine Fievet, Zahurul Alam Bhuiyan, Alissa L.W. Kleinhenz, Julie Jadeau, Joy Fulbright, Carlo Rivolta, Raffaele Renella, Nicholas Katsanis, Jacques S. Beckmann, Christopher V. Nicchitta, Lydie Da Costa, Erica E. Davis, Pierre-Emmanuel Gleizes
Florence Fellmann, Carol Saunders, Marie-Françoise O’Donohue, David W. Reid, Kelsey A. McFadden, Nathalie Montel-Lehry, Cong Yu, Mingyan Fang, Jianguo Zhang, Beryl Royer-Bertrand, Pietro Farinelli, Narjesse Karboul, Jason R. Willer, Lorraine Fievet, Zahurul Alam Bhuiyan, Alissa L.W. Kleinhenz, Julie Jadeau, Joy Fulbright, Carlo Rivolta, Raffaele Renella, Nicholas Katsanis, Jacques S. Beckmann, Christopher V. Nicchitta, Lydie Da Costa, Erica E. Davis, Pierre-Emmanuel Gleizes
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Research Article Genetics Hematology

An atypical form of 60S ribosomal subunit in Diamond-Blackfan anemia linked to RPL17 variants

Abstract

Diamond-Blackfan anemia syndrome (DBA) is a ribosomopathy associated with loss-of-function variants in more than 20 ribosomal protein (RP) genes. Here, we report the genetic, functional, and biochemical dissection of 2 multigenerational pedigrees with variants in RPL17, a large ribosomal subunit protein–encoding gene. Affected individuals had clinical features and erythroid proliferation defects consistent with DBA. Further, RPL17/uL22 depletion resulted in anemia and micrognathia in zebrafish larvae, and in vivo complementation studies indicated that RPL17 variants were pathogenic. Lymphoblastoid cell lines (LCLs) derived from patients displayed a ribosomal RNA maturation defect reflecting haploinsufficiency of RPL17. The proteins encoded by RPL17 variants were not incorporated into ribosomes, but 10%–20% of 60S ribosomal subunits contained a short form of 5.8S rRNA (5.8SC), a species that is marginal in normal cells. These atypical 60S subunits were actively engaged in translation. Ribosome profiling showed changes of the translational profile, but those are similar to LCLs bearing RPS19 variants. These results link an additional RP gene to DBA. They show that ribosomes can be modified substantially by RPL17 haploinsufficiency but support the paradigm that translation alterations in DBA are primarily related to insufficient ribosome production rather than to changes in ribosome structure or composition.

Authors

Florence Fellmann, Carol Saunders, Marie-Françoise O’Donohue, David W. Reid, Kelsey A. McFadden, Nathalie Montel-Lehry, Cong Yu, Mingyan Fang, Jianguo Zhang, Beryl Royer-Bertrand, Pietro Farinelli, Narjesse Karboul, Jason R. Willer, Lorraine Fievet, Zahurul Alam Bhuiyan, Alissa L.W. Kleinhenz, Julie Jadeau, Joy Fulbright, Carlo Rivolta, Raffaele Renella, Nicholas Katsanis, Jacques S. Beckmann, Christopher V. Nicchitta, Lydie Da Costa, Erica E. Davis, Pierre-Emmanuel Gleizes

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Figure 1

Pathogenic variants in RPL17 cause Diamond-Blackfan anemia.

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Pathogenic variants in RPL17 cause Diamond-Blackfan anemia. (A) 4-genera...
(A) 4-generation Swiss pedigree (family 1) harboring a heterozygous c.217-3C>G variant in RPL17. Filled shapes, affected individuals; unfilled shapes, unaffected individuals; orange outline of shapes, exome sequencing was performed on DNA from that individual; “+”, WT allele; black triangle, index case. Individuals for whom no genotype is indicated means that a DNA sample was unavailable. (B) RPL17 mutation carriers of family 1 display digit phenotypes including fifth finger hypoplasia (1-I-1, 1-II-2, 1-III-3, 1-II-1, 1-II-4, and 1-III-5) and absent thumbs (1-III-6 and 1-IV-2). (C) Family 2 harbors a heterozygous c.452delC RPL17 variant and displays incomplete penetrance. Colors and symbols are the same as indicated in panel A. (D) Schematic of the WT human RPL17 locus (bottom) and mRNA (top). Black boxes, coding exons; white boxes, untranslated regions; solid black lines, introns; green “AUG”, start codon; red “UAA”, stop codon; and variants identified in this study, red (pathogenic) or green (benign) asterisks. (E) RPL17 variants identified in each of families 1 and 2 produce aberrant mRNA transcripts; blue bars in the schematic highlight the site of alteration. (F) RT-PCR products separated on agarose gel indicating that c.217C>G results in an in-frame deletion of exon 4. (G) Immunoblot of RPL17 protein (21.4 kDa) in LCLs derived from cases (gray) and unaffected individuals (black bold) from families 1 and 2.