Rpl5-Inducible Mouse Model for Studying Diamond-Blackfan Anemia.

Shideh Kazerounian,Matthew S Alexander,Daniel Yuan,Hanna T Gazda,Alan H Beggs

doi:10.15190/d.2019.9

Abstract

Diamond-Blackfan anemia (DBA) is a rare congenital bone marrow disorder with mutations in ribosomal protein genes. Several animal models have been developed to study the pathological mechanism of DBA. Previously, we reported that the complete knock-out of both Rpl5 and Rps24 alleles were lethal, while heterozygous Rpl5+/- and Rps24+/- mice showed normal phenotype. To establish a more efficient mouse model for mimicking DBA symptoms, we have taken advantage of RNAi technology to generate an inducible mouse model utilizing tetracycline-induced down-regulation of Rpl5. After two weeks of treatment with doxycycline in drinking water, a subset of treated shRNA Rpl5+/- adult mice developed mild anemia while control mice had normal complete blood counts. Similarly, treated shRNA Rpl5+/- mice developed reticulocytopenia and bone marrow erythroblastopenia. Detection of DBA symptoms in these mice make them a valuable DBA model for studying the pathological mechanism underlying DBA and for further assessment of the disease and drug testing for novel therapies.

Highlights

The first major breakthrough in the molecular pathogenesis of Diamond-Blackfan anemia (DBA) came from the discovery of the ribosomal protein S19 gene[2], followed by identification of mutations in 24 additional ribosomal protein (RP) genes including RPL53
We reported a significant decrease in the expression level of GATA1 protein but not mRNA in primary hematopoietic cells from patients with mutations in Ribosomal Protein (RP) genes[6]
We have reported that knocking-out Rpl[5] and Rps[24] alleles leads to embryonic lethality, while heterozygous Rpl5+/- and Rps24+/mice showed normal phenotypes at birth and throughout their development with no detectable differences between the expression levels of RPL5 and RPS24 mRNA and protein compared to those of wild-type mice[8]

Summary

Discoveries in IMAGES

Shideh Kazerounian1, 3, *, Daniel Yuan[1], Matthew S. Gazda[1, 3]. 30th, 2019; Citation: Kazerounian S, Yuan D, Alexander MS, Beggs AH, Gazda HT. Rpl5-Inducible Mouse Model for Studying Diamond-Blackfan Anemia.

To further investigate erythropoiesis in shRNA

Findings

Conflict of Interest