) Cellular mechanisms for maintaining and controlling telomere length constitute a critical arm of the regulatory network that enforces cell senescence and suppresses cell transformation and tumor outgrowth. Identification of the molecules and mechanisms essential to telomere maintenance is therefore central to an understanding of cell transformation. Telomeres in human somatic cells consist of 3-18 kb of duplex DNA containing reiterations of the TTAGGG repeat, and terminate with G-rich single stranded 3' overhangs 130-210 nt in length, which are referred to as G-tails. G-tails may provide sites for initiation of telomere replication by telomeres; protect telomeres from degradation or fusion; mediate interactions between telomeres during meiosis; direct chromosome attachment to sites in the nucleus; or regulate telomere length or telomerase activity. We have found that the ubiquitous and conserved mammalian protein, hnRNP D, binds tightly and specifically to telomeric G-tails and to G4 DNA structures formed by G-G pairing of G-rich telomeric repeats. We will study the interaction of hnRNP D with telomeric single-stranded G-tails and G4 DNA (Aim 1). We will study the function of hnRNP in vivo, by targeted mutation in ES cells and knockout mice (Aim 2). We will study regulation of hnRNP D and identify pathways in which it functions (Aim 3). We will identify a helicase active on telomeric G4 DNA structures (Aim 4). We will study the mechanism of telomerase-independent telomere maintenance in immortalized cells and tumor cells that lack telomerase understanding of mechanisms central to telomere maintenance in normal and transformed cells. These experiments will also have clear practical ramifications, because pathways of telomere maintenance that they identify will be potential targets for small molecule inhibitors of cell proliferation that can be used in treatment of malignancies.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program Projects (P01)
Project #
2P01CA016038-26
Application #
6101697
Study Section
Project Start
1999-05-07
Project End
2000-02-29
Budget Start
1998-10-01
Budget End
1999-09-30
Support Year
26
Fiscal Year
1999
Total Cost
Indirect Cost
Name
Yale University
Department
Type
DUNS #
082359691
City
New Haven
State
CT
Country
United States
Zip Code
06520
Zhang, Pengwei; Monteiro da Silva, Gabriel; Deatherage, Catherine et al. (2018) Cell-Penetrating Peptide Mediates Intracellular Membrane Passage of Human Papillomavirus L2 Protein to Trigger Retrograde Trafficking. Cell 174:1465-1476.e13
Inoue, Takamasa; Zhang, Pengwei; Zhang, Wei et al. (2018) ?-Secretase promotes membrane insertion of the human papillomavirus L2 capsid protein during virus infection. J Cell Biol 217:3545-3559
Vallery, Tenaya K; Withers, Johanna B; Andoh, Joana A et al. (2018) Kaposi's Sarcoma-Associated Herpesvirus mRNA Accumulation in Nuclear Foci Is Influenced by Viral DNA Replication and Viral Noncoding Polyadenylated Nuclear RNA. J Virol 92:
Hayes, Karen E; Barr, Jamie A; Xie, Mingyi et al. (2018) Immunoprecipitation of Tri-methylated Capped RNA. Bio Protoc 8:
Park, Richard; Miller, George (2018) Epstein-Barr Virus-Induced Nodules on Viral Replication Compartments Contain RNA Processing Proteins and a Viral Long Noncoding RNA. J Virol 92:
Lipovsky, Alex; Erden, Asu; Kanaya, Eriko et al. (2017) The cellular endosomal protein stannin inhibits intracellular trafficking of human papillomavirus during virus entry. J Gen Virol 98:2821-2836
Singh, Gatikrushna; Fritz, Sarah M; Ranji, Arnaz et al. (2017) Isolation of Cognate RNA-protein Complexes from Cells Using Oligonucleotide-directed Elution. J Vis Exp :
Martinez, Ivan; Hayes, Karen E; Barr, Jamie A et al. (2017) An Exportin-1-dependent microRNA biogenesis pathway during human cell quiescence. Proc Natl Acad Sci U S A 114:E4961-E4970
Brown, Jessica A; Kinzig, Charles G; DeGregorio, Suzanne J et al. (2016) Hoogsteen-position pyrimidines promote the stability and function of the MALAT1 RNA triple helix. RNA 22:743-9
McKenzie, Jessica; Lopez-Giraldez, Francesc; Delecluse, Henri-Jacques et al. (2016) The Epstein-Barr Virus Immunoevasins BCRF1 and BPLF1 Are Expressed by a Mechanism Independent of the Canonical Late Pre-initiation Complex. PLoS Pathog 12:e1006008

Showing the most recent 10 out of 340 publications