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Tyrosine Dephosphorylation and Blood Cell Development

$364,033R01FY2013HLNIH

University Of California, San Diego, La Jolla CA

Investigators

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Abstract

PROJECT SUMMARY Blood cell development is orchestrated by the dynamic interplay between environmental cues and intrinsic genetic contents. However, the intracellular signaling mechanisms underlying regulation of hematopoiesis by extracellular signals are not well understood. The focus of this project is on deciphering Shp2 functions in control of hematopoietic cell development. Murine Shp2 is a cytoplasmic tyrosine phosphatase that was originally cloned by the applicant, and a main interest of this lab is to understand the fundamental cell signaling mechanisms involving tyrosine phosphatases. Work accomplished in the previous funding cycles has demonstrated a pivotal role of Shp2 in genesis of all blood cell lineages. This is the first example that a cytoplasmic tyrosine phosphatase promotes hematopoietic stem cell (HSC) commitment and differentiation. A general positive action of Shp2 in hematopoiesis defined by this lab has contributed significantly to most recent determination of a causal role of dominant active PTPN11/Shp2 mutants in child leukemia, leading to identification of PTPN11 as the first proto-oncogene that encodes a tyrosine phosphatase. The goal of this competing renewal application is to decipher biological functions of Shp2 in control of normal blood cell development in adults, using a conditional somatic gene deletion strategy. Our specific aims are: 1) to elucidate mechanisms by which Shp2 regulates adult HSC self- renewal, differentiation and homing, and also the HSC-niche interaction; 2) to determine Shp2 action and mechanism in T lymphocyte development and functions; 3) to determine Shp2 action and mechanism in B lymphocyte development and functions. We have generated new animal models and interesting preliminary data to support ALL three Aims. Completion of these studies will provide new insights into general mechanisms underlying coordinated regulation of HSC activities and specification/development of cell lineages in the hematopoietic compartment. Elucidation of Shp2 functions in normal hematopoiesis will also lead to a new paradigm that significantly advances our understanding of and fighting against leukemogenesis.

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