Generation of Mouse Models of Human Hematopoietic Disease and their Use to Analyze Hematopoietic Development and Function

Anderson, Nicole Marie

06 December 2012

Hematopoiesis is an intricately regulated homeostatic process that maintains all of the differentiated blood cell lineages. N-ethyl-N-nitrosurea (ENU) is a powerful mutagen that induces point mutations randomly in the genome. ENU was used in a dominant forward genetic screen to identify novel mutations in regulators of hematopoiesis and to create new mouse models of hematopoietic disease. The objectives of this thesis were to characterize two mutants that originated from the dominant screen (7192 and 7238) and to develop a pharmacologically sensitized screen that would detect a unique set of mutations undetectable in the dominant screen. The 7192 mutant from the ENU dominant screen presented with elevated microcytic red blood cells (RBC) and increased polychromasia. The causative mutation was identified as a nonsense mutation in Ank1 (Q895X) that coded for a truncated ANK1 protein. Ank17192 is a novel mouse model of hereditary spherocytosis (HS), a human disease that results from increased RBC fragility. We have demonstrated that Ank17192/+ mice model a mild HS and Ank17192/7192 mice model severe HS. The 7238 mutant from the dominant ENU screen was macrothrombocytic and carried a missense mutation in Myh9 (Q1443L). The Myh97238/7238 mice are viable and have a more severe phenotype of macrothrombocytopenia. Myh97238 is the first mouse model for Myh9 related disorders that accurately models the genetic origins and the systemic manifestations of the disorder. A pharmacologically sensitized screen using chemotherapeutic drugs was designed to induce stress hematopoiesis to detect mutations that alter cell cycle of hematopoietic progenitors or stress hematopoiesis. Analysis of both peripheral blood and progenitor recovery kinetics, determined that 5-fluorouracil (5FU) and phenylhydrazine were good candidates for a pharmacologically sensitized screen. 5FU was successfully incorporated into an ENU dominant screen, and 13 platelet recovery outliers were detected. From these outliers, three mutant lines were successfully established.

n-ethyl-n-nitrosurea

Forward Genetic Screen

5-fluorouracil

Hereditary Spherocytosis

Hematopoiesis

Myh9 Related Disease

0306

0369

0719

Generation of Mouse Models of Human Hematopoietic Disease and their Use to Analyze Hematopoietic Development and Function

Anderson, Nicole Marie

06 December 2012

Hematopoiesis is an intricately regulated homeostatic process that maintains all of the differentiated blood cell lineages. N-ethyl-N-nitrosurea (ENU) is a powerful mutagen that induces point mutations randomly in the genome. ENU was used in a dominant forward genetic screen to identify novel mutations in regulators of hematopoiesis and to create new mouse models of hematopoietic disease. The objectives of this thesis were to characterize two mutants that originated from the dominant screen (7192 and 7238) and to develop a pharmacologically sensitized screen that would detect a unique set of mutations undetectable in the dominant screen. The 7192 mutant from the ENU dominant screen presented with elevated microcytic red blood cells (RBC) and increased polychromasia. The causative mutation was identified as a nonsense mutation in Ank1 (Q895X) that coded for a truncated ANK1 protein. Ank17192 is a novel mouse model of hereditary spherocytosis (HS), a human disease that results from increased RBC fragility. We have demonstrated that Ank17192/+ mice model a mild HS and Ank17192/7192 mice model severe HS. The 7238 mutant from the dominant ENU screen was macrothrombocytic and carried a missense mutation in Myh9 (Q1443L). The Myh97238/7238 mice are viable and have a more severe phenotype of macrothrombocytopenia. Myh97238 is the first mouse model for Myh9 related disorders that accurately models the genetic origins and the systemic manifestations of the disorder. A pharmacologically sensitized screen using chemotherapeutic drugs was designed to induce stress hematopoiesis to detect mutations that alter cell cycle of hematopoietic progenitors or stress hematopoiesis. Analysis of both peripheral blood and progenitor recovery kinetics, determined that 5-fluorouracil (5FU) and phenylhydrazine were good candidates for a pharmacologically sensitized screen. 5FU was successfully incorporated into an ENU dominant screen, and 13 platelet recovery outliers were detected. From these outliers, three mutant lines were successfully established.

n-ethyl-n-nitrosurea

Forward Genetic Screen

5-fluorouracil

Hereditary Spherocytosis

Hematopoiesis

Myh9 Related Disease

0306

0369

0719