Mice with ribosomal protein S19 deficiency develop bone marrow failure and symptoms like patients with Diamond-Blackfan anemia

Jaako, Pekka; Flygare, Johan; Olsson, Karin; Quéré, Ronan; Ehinger, Mats; Henson, Adrianna; Ellis, Steven R.; Schambach, Axel; Baum, Christopher; Richter, Johan; Larsson, Jonas; Bryder, David; Karlsson, Stefán

doi:10.1182/blood-2011-08-371963

Cited by 124 publications

(182 citation statements)

References 42 publications

(55 reference statements)

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“…Administration of doxycycline to the recipients with D/D BM results in acute and lethal BM failure, while recipients with D/+ BM develop a mild, chronic phenotype (Online Supplementary Figure S1). 21 Since the D/D mice develop lethal BM failure shortly after doxycycline administration, we chose this model to rigorously test whether gene correction can rescue the lethal phenotype and cure the disease. The D/+ model was used in parallel to test the vectors upon Rps19 haploinsufficiency, 21 a condition that is not lethal and allows long-term monitoring of experimental animals.…”

Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

“…21 Briefly, this model contains an Rps19-targeting shRNA (shRNA-D) that is expressed by a doxycycline-responsive promoter located downstream of the Collagen A1 gene ( Figure 1A). Experimental animals were bred to be either heterozygous (D/+) or homozygous (D/D) for the shRNA in order to generate two models with intermediate or severe Rps19 deficiency, respectively ( Figure 1B).…”

Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

“…21 Briefly, this model contains an Rps19-targeting shRNA (shRNA-D) that is expressed by a doxycycline-responsive promoter located downstream of the Collagen A1 gene. Rps19 deficiency was induced by feeding the mice with doxycycline-containing food pellets (200 mg/kg doxycycline; Bio-Serv), with the exception of the recipients transplanted with D/D BM which were given doxycycline in the drinking water (2 mg/mL doxycycline; SigmaAldrich) supplied with 10 mg/mL sucrose (Sigma-Aldrich) for the first 2 weeks of induction.…”

Section: Micementioning

confidence: 99%

“…To genetically correct the Rps19 deficiency, we developed lentiviral vectors harboring a codon-optimized human RPS19 cDNA driven by the internal SFFV promoter, followed by IRES and GFP (SFFV-RPS19) ( Figure 1C). 21 The codon-optimized RPS19 cDNA was further modified to prevent its recognition and downregulation by the Rps19-targeting shRNA used. A similar vector without the RPS19 cDNA was used as a control vector (SFFV-GFP).…”

Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

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Gene therapy cures the anemia and lethal bone marrow failure in a mouse model of RPS19-deficient Diamond-Blackfan anemia

et al. 2014

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Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

Section: Micementioning

confidence: 99%

Section: Induction Of Rps19 Deficiency Causes Lethal Bone Marrow Failmentioning

confidence: 99%

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Gene therapy cures the anemia and lethal bone marrow failure in a mouse model of RPS19-deficient Diamond-Blackfan anemia

et al. 2014

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“…9,10 Studies on cellular and animal models suggest that unscheduled upregulation of p53 may account for many clinical symptoms associated with ribosomopathies. [11][12][13][14][15][16] There are now evidences that ribosome biogenesis dysfunction also triggers p53-independent mechanisms. [17][18][19] Because bone marrow defects is a frequent clinical manifestation of ribosomopathies, most studies focused on the hematopoietic tissue and less is known about the impact of ribosome biogenesis dysfunction in other organs.…”

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confidence: 99%

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

et al. 2015

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International audienceRibosome biogenesis is an essential cellular process. Its impairment is associated with developmental defects and increased risk of cancer. The in vivo cellular responses to defective ribosome biogenesis and the underlying molecular mechanisms are still incompletely understood. In particular, the consequences of impaired ribosome biogenesis within the intestinal epithelium in mammals have not been investigated so far. Here we adopted a genetic approach to investigate the role of Notchless (NLE), an essential actor of ribosome biogenesis, in the adult mouse intestinal lineage. Nle deficiency led to defects in the synthesis of large ribosomal subunit in crypts cells and resulted in the rapid elimination of intestinal stem cells and progenitors through distinct types of cellular responses, including apoptosis, cell cycle arrest and biased differentiation toward the goblet cell lineage. Similar observations were made using the rRNA transcription inhibitor CX-5461 on intestinal organoids culture. Importantly, we found that p53 activation was responsible for most of the cellular responses observed, including differentiation toward the goblet cell lineage. Moreover, we identify the goblet cell-specific marker Muc2 as a direct transcriptional target of p53. Nle-deficient ISCs and progenitors disappearance persisted in the absence of p53, underlying the existence of p53-independent cellular responses following defective ribosome biogenesis. Our data indicate that NLE is a crucial factor for intestinal homeostasis and provide new insights into how perturbations of ribosome biogenesis impact on cell fate decisions within the intestinal epithelium

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D iamond– B lackfan Anaemia: From Genotype to Phenotype

Paolini¹,

MacInnes²,

Lindern³

2016

Encyclopedia of Life Sciences

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Diamond–Blackfan anaemia (DBA) is a congenital disorder that presents in the first year of life as severe anaemia, and in several patients is coupled with developmental defects. DBA is a ribosomopathy because almost all known mutations or deletions occur in genes encoding ribosomal proteins (RPs) that impair ribosome biogenesis. However, atypical examples of patients carry mutations in the erythroid specific transcription factor GATA1. DBA is a rare disease that displays a high level of heterogeneity with respect to the affected RP and disease penetrance. The reduced availability of ribosomes affects several cellular processes, including stabilisation of the p53 tumour suppressor, and impaired messenger ribonucleic acid (mRNA) translation. Registration of the genetic and phenotypic characteristics of DBA patients worldwide is needed to understand the relation between mutations, patient symptoms and cellular processes that underlie this pathophysiology. Key Concepts Diamond–Blackfan anaemia (DBA) is caused by haploinsufficiency of one of several ribosomal proteins in at least two‐thirds of all patients; the disease causing mutation is unknown in approximately 30% of patients. The mechanisms underlying the ribosomopathy DBA are multiple, and are incompletely understood. Particularly, the roles of transcript specific translation and iron homeostasis are underestimated. Defective mRNA translation in ribosomopathies such as DBA should be investigated in cells that are affected in the disease, because an mRNA translation defect depends on the cell's specific transcriptome. DBA type I and DBA type II should be used to distinguish between patients carrying RP mutations versus those carrying mutations in genes that specifically affect erythropoiesis including GATA1 . The ribosomopathy Diamond–Blackfan anaemia should be renamed to Diamond–Blackfan syndrome to emphasise that it is a systemic disease of which severe anaemia at young age is the most common, but not the exclusive symptom. The heterogeneity with which DBA presents, even when family members carry the same mutation, needs to be investigated to find a proper treatment for severe DBA.

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Mice with ribosomal protein S19 deficiency develop bone marrow failure and symptoms like patients with Diamond-Blackfan anemia

Cited by 124 publications

References 42 publications

Gene therapy cures the anemia and lethal bone marrow failure in a mouse model of RPS19-deficient Diamond-Blackfan anemia

Gene therapy cures the anemia and lethal bone marrow failure in a mouse model of RPS19-deficient Diamond-Blackfan anemia

Ribosome biogenesis dysfunction leads to p53-mediated apoptosis and goblet cell differentiation of mouse intestinal stem/progenitor cells

D iamond– B lackfan Anaemia: From Genotype to Phenotype

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