Testicular germ cell tumors (TGCTs) are the most common cancer affecting young men, and the incidence has increased dramatically in the last 50 years. The genetic control of susceptibility is unusually complex, and with a single exception genetic variants that control susceptibility elude discovery in humans. We discovered the identity of three genetic modifiers that modulate susceptibility in a mouse model. Deadend1*Ter, which increases susceptibility, is related to genes involved in RNA editing and blocks access of specific miRNAs to their target mRNAs. Similarly, we showed that partial deficiency for the Eif2s2 translation initiation factor at the agouti-yellow locus suppresses susceptibility. Finally, we showed that loss of the transmembrane but not the soluble isoform of the Kit ligand increases susceptibility in mice. Two recent papers showed that Kit ligand is a major TCGT susceptibility gene in humans. Together these results suggest that interactions between 5'cap and 3'UTR in target mRNAs modulate global and perhaps transcript-specific translation. TGCT stem cells appear to be unusually sensitive to changes in translation rates. With these important discoveries that TGCT modifier genes involve related functions, we can now address specific questions about mechanisms of tumorigenesis for a developmentally important stem cell lineage - primordial germ cells. In addition, we found spontaneous metastasis in several TGCT susceptible strains. TGCT metastasis occurs frequently in humans and the mechanisms are poorly understood. Our exciting discovery therefore enables unique studies of the mechanisms of TGCT metastasis that were not previously possible. We propose Specific Aims to address four questions: (1) What are the mechanisms for TGCT suppressor effects of Eif2s2 haplosufficiency? (2) Do Dnd1 mutants affect RNA editing? (3) Do RNA editing mutants affect TGCT susceptibility? (4) What are the characteristics of putative TGCT metastases in mouse models?

Public Health Relevance

Testicular cancer is one of the most common malignancies affecting young men. Although the genetic control of susceptibility is unusually strong, little progress has been made finding these genes that could be used define the mechanisms of susceptibility and that could serve as diagnostic markers or as treatment targets. We discovered three TGCT susceptibility genes, two of which suggest that control of mRNA translation has dramatic effects on susceptibility. In this application, we propose studies to test hypotheses about mechanisms by which changes in translation control modulate TGCT susceptibility. We also discovered, and propose to characterize spontaneous TGCT metastases in several of our mouse models.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
7R01CA075056-12
Application #
8265530
Study Section
Cancer Genetics Study Section (CG)
Program Officer
Sharman, Anu
Project Start
1998-06-01
Project End
2015-01-31
Budget Start
2011-05-01
Budget End
2012-01-31
Support Year
12
Fiscal Year
2011
Total Cost
$334,035
Indirect Cost
Name
Institute for Systems Biology
Department
Type
DUNS #
135646524
City
Seattle
State
WA
Country
United States
Zip Code
98109
Nadeau, Joseph H (2017) Do Gametes Woo? Evidence for Their Nonrandom Union at Fertilization. Genetics 207:369-387
Carouge, Delphine; Blanc, Valerie; Knoblaugh, Sue E et al. (2016) Parent-of-origin effects of A1CF and AGO2 on testicular germ-cell tumors, testicular abnormalities, and fertilization bias. Proc Natl Acad Sci U S A 113:E5425-33
Buchner, David A; Nadeau, Joseph H (2015) Contrasting genetic architectures in different mouse reference populations used for studying complex traits. Genome Res 25:775-91
Blanc, Valerie; Park, Eddie; Schaefer, Sabine et al. (2014) Genome-wide identification and functional analysis of Apobec-1-mediated C-to-U RNA editing in mouse small intestine and liver. Genome Biol 15:R79
Zechel, Jennifer L; Doerner, Stephanie K; Lager, Angela et al. (2013) Contrasting effects of Deadend1 (Dnd1) gain and loss of function mutations on allelic inheritance, testicular cancer, and intestinal polyposis. BMC Genet 14:54
Nelson, Vicki R; Heaney, Jason D; Tesar, Paul J et al. (2012) Transgenerational epigenetic effects of the Apobec1 cytidine deaminase deficiency on testicular germ cell tumor susceptibility and embryonic viability. Proc Natl Acad Sci U S A 109:E2766-73
Heaney, Jason D; Anderson, Ericka L; Michelson, Megan V et al. (2012) Germ cell pluripotency, premature differentiation and susceptibility to testicular teratomas in mice. Development 139:1577-86
Zechel, J L; MacLennan, G T; Heaney, J D et al. (2011) Spontaneous metastasis in mouse models of testicular germ-cell tumours. Int J Androl 34:e278-87
Cook, Matthew S; Munger, Steven C; Nadeau, Joseph H et al. (2011) Regulation of male germ cell cycle arrest and differentiation by DND1 is modulated by genetic background. Development 138:23-32
Najm, Fadi J; Chenoweth, Josh G; Anderson, Philip D et al. (2011) Isolation of epiblast stem cells from preimplantation mouse embryos. Cell Stem Cell 8:318-25

Showing the most recent 10 out of 33 publications