Molekulární mechanismy Diamondovy-Blackafanovy anemie / Molecular mechanisms of Diamond-Blackfan anemia

Handrková, Helena

January 2011

Diamond-Blackfan anemia (DBA) is a rare congenital syndrome that presents with ane- mia and selective deficiency of erythroid precursors, while other blood lineages are usu- ally unaffected. Approximately half of the patients display additional somatic anoma- lies and growth retardation. The therapy is mostly symptomatic and is dominated by corticosteroids, other modalities include regular blood transfusions or hematopoietic stem cell transplantation. At the beginning of this work, only two DBA causal genes were known, RPS19 and RPS24, being mutated in approximately 1/4 of all DBA patients. The goals of this work were to study the consequences of the known DBA causal mutations on cellular level and to find novel DBA causal genes. To date, over a half of DBA patients have been reported to carry a mutation in one of nine known DBA causal genes, including RPS17, RPL11 and RPL5, that are reported in this dissertation. All confirmed DBA causal genes encode for ribosomal proteins (RPs) that were essential for ribosome assembly. We further hypothesized a non- ribosomal protein participating in this process might be involved in DBA pathogenesis, too. In one DBA patient, we identified a rare sequence variant in one such candidate, a protein arginine methyltransferase 3 (PRMT3). We reported that the patient PRMT3...

Molekulární mechanismy Diamondovy-Blackafanovy anemie / Molecular mechanisms of Diamond-Blackfan anemia

Handrková, Helena

January 2011

Diamond-Blackfan anemia (DBA) is a rare congenital syndrome that presents with ane- mia and selective deficiency of erythroid precursors, while other blood lineages are usu- ally unaffected. Approximately half of the patients display additional somatic anoma- lies and growth retardation. The therapy is mostly symptomatic and is dominated by corticosteroids, other modalities include regular blood transfusions or hematopoietic stem cell transplantation. At the beginning of this work, only two DBA causal genes were known, RPS19 and RPS24, being mutated in approximately 1/4 of all DBA patients. The goals of this work were to study the consequences of the known DBA causal mutations on cellular level and to find novel DBA causal genes. To date, over a half of DBA patients have been reported to carry a mutation in one of nine known DBA causal genes, including RPS17, RPL11 and RPL5, that are reported in this dissertation. All confirmed DBA causal genes encode for ribosomal proteins (RPs) that were essential for ribosome assembly. We further hypothesized a non- ribosomal protein participating in this process might be involved in DBA pathogenesis, too. In one DBA patient, we identified a rare sequence variant in one such candidate, a protein arginine methyltransferase 3 (PRMT3). We reported that the patient PRMT3...

Loss of tumor suppressor RPL5/RPL11 does not induce cell-cycle arrest, but impedes proliferation due to reduced ribosome content and translation capacity: Implications in Diamond Blackfan Anemia

Teng, Teng

January 2013

No description available.

Cellular Biology

p53

tumor suppressor

ribosome impairment

cell cycle

translation

Diamond Blackfan Anemia

Molecular Studies of Diamond-Blackfan Anemia and Congenital Nail Dysplasia

Fröjmark, Anne-Sophie

January 2010

The aim of this thesis is to investigate the effect of genetic mutations on the pathophysiology of two human disorders: Diamond-Blackfan Anemia (DBA) and isolated congenital nail dysplasia. The first part of this thesis (Paper I-III) investigates the mechanism associated with DBA. DBA is a rare bone marrow failure syndrome characterized by the absence or decrease of erythroid precursor cells. The disease is further associated with growth retardation, malformations, predisposition to malignant disease and heterozygous mutations in ribosomal protein (RP) genes. The second part of this thesis (Paper IV) investigates the genetic basis of isolated autosomal recessive nail dysplasia characterized by pachyonychia and onycholysis of both finger- and toenails. It further dissects the molecular mechanisms regulating nail development. In the first study, we investigated the previously reported RPS19/PIM-1 interaction by generating a combined Rps19/Pim-1 knockout mouse model. We found that allelic Rps19 insufficiency and Pim-1 deficiency have a cooperative effect on murine hematopoiesis resulting in increased myeloid cellularity associated with cell cycle alterations and reduced apoptosis. In the second study, we analyzed primary fibroblasts from DBA patients with truncating mutations in RPS19 or RPS24 and observed a marked delay in cellular growth associated with specific cell cycle defects. In the third study, we discovered that recombinant RPS19 binds its own mRNA and that the binding is altered when two DBA-associated RPS19 mutations are introduced. In the fourth study, we identified mutations in the WNT signaling receptor Frizzled 6 (FZD6). We observed that the nonsense mutant fails to interact with the first downstream effector Dishevelled. Fzd6 mutant mice displayed claw malformations and we detected a transient Fzd6 expression in the distal digits at the embryonic time point for nail development. In summary, this thesis elucidates several mechanisms in the etiology of DBA and congenital nail dysplasia and mechanisms regulating nail development.

Diamond-Blackfan Anemia

RPS19

RPS24

PIM-1

Erythropoiesis

Cell cycle

Apoptosis

Nail dysplasia

FZD6

WNT signaling

Clinical genetics

Klinisk genetik

Zpracování dat z vysokokapacitního DNA sekvenování pro studium variability genomu a transkriptomu. / Study of genome and transcriptome variability employing data processing from massive parallel DNA sequencing.

Vojta, Petr

January 2018

Massive parallel sequencing (MPS) data analysis tasks are often computationally demanding and their execution time would take too long using standard computing machines. Thus there is a need for parallelization of this tasks and ability to execute them on a sufficiently powerful computing machines. In the first chapter we describe a newly created platform for resequencing analysis of MPS data - MOLDIMED and novel annotation tool, which is ready to deploy on HPC infrastructure. The second chapter describes MPS approaches in Diamond-Blackfan anaemia (DBA), which is predominantly underlined by mutations in genes encoding ribosomal proteins (RP); however, its etiology remains unexplained in approximately 25% of patients. We performed panel sequencing of all ribosomal genes in DBA patient without previously known molecular pathology. A novel heterozygous RPS7 mutation coding RPS7 p.V134F was found in one female patient and subsequently confirmed in two asymptomatic family members, in whom mild anemia were detected on further examination. Subsequently, we performed whole transcriptome analysis in all family members and patient with RPS7 mutation in comparison with healthy control group and with DBA patients with known mutation in RPS19. We observed dysregulation mainly in signal pathways of translation,...