Early in development, a part of the embryo is set aside to become the germ cell lineage that will ultimately differentiate to form sperm and eggs and transmit genetic information to the next generation. Men with deletions encompassing the Y-chromosome DAZ genes have few or no germ cells but are otherwise healthy, indicating they harbor specific defects in formation or maintenance of germ cells. A DAZ homolog, DAZL (DAZ-Like), is found in diverse organisms, including humans and is required for germ cell development in males and͞or females. We identified proteins that interact with DAZ proteins to better understand their function in human germ cells. Here, we show that PUM2, a human homolog of Pumilio, a protein required to maintain germ line stem cells in Drosophila and Caenorhabditis elegans, forms a stable complex with DAZ through the same functional domain required for RNA binding, protein-protein interactions and rescue of Pumilio mutations in flies. We also show that PUM2 is expressed predominantly in human embryonic stem cells and germ cells and colocalizes with DAZ and DAZL in germ cells. These data implicate PUM2 as a component of conserved cellular machinery that may be required for germ cell development.A ll stem cells have potential to differentiate or proliferate mitotically. These potentials must be balanced for the stem cell population to be maintained. If differentiation exceeds proliferation, the stem cell population is not maintained. Evidence in humans suggests that the DAZ genes function early in the germ line stem cells. Men with deletions encompassing the Y-chromosome DAZ gene cluster have defects in spermatogenesis that are detected initially in the stem cell population. These men frequently lack all germ cells, including the spermatogonial stem cells, and only somatic cells are present in testicular tissue (1-3). In addition, expression of the DAZ gene and its ancestral, autosomal homolog, DAZL, only occurs in germ cells; DAZ is expressed in males, and DAZL is expressed in males and females (4, 5). Evidence from model organisms also suggests the DAZ genes function in germ cell maintenance. The Xenopus homolog of DAZ, Xdazl, is expressed in a region of the early oocyte that contains the germ plasm that is required for formation and maintenance of the germ cell lineage (6, 7). Inhibition of Xdazl leads to loss of the primordial germ cells (6, 7). Finally, the DAZ homolog in mice, Dazl, is most abundantly expressed in premeiotic germ cells; disruption of this gene causes depletion of germ cells beginning prenatally (8-10). DAZ and DAZL homologs may function interchangeably as suggested by the observation that a human DAZ transgene can partially rescue a mouse Dazl mutation (11). To shed light on how DAZ genes might function in human germ cells, we sought to identify proteins that interact with DAZ proteins.
Materials and MethodsTwo-Hybrid Screening of DAZ-Interacting Proteins. The yeast two-hybrid system was used to identify proteins that interact with a DAZ:GAL4 DNA-binding domain fusion prot...
