We observed strong association between SNPs in all six genes and TGCT (lowest P-value per gene: ATF7IP 6.2 × 10(-6); BAK1 2.1 × 10(-10); DMRT1 6.7 × 10(-25); KITLG 2.1 × 10(-48); SPRY4 1.4 × 10(-29); TERT 1.8 × 10(-18)).
Previous studies have linked PTEN to TGCT etiology, and there is also a link between PTEN and KITLG, which contains TGCT susceptibility loci revealed through recent genome-wide studies.
KITLG, encoding the ligand for the receptor tyrosine kinase KIT, which has previously been implicated in the pathogenesis of TGCT and the biology of germ cells, may explain the association on chromosome 12.
In conclusion, this study provides evidence that KITLG variants are involved in TGCT development and they represent an independent and strong specific risk factor for TGCT independently from spermatogenic function.
Additionally, we propose that soluble KITL in Sld/+ heterozygous mutant mice complements a dosage effect of transmembrane-associated kit ligand on TGCT susceptibility and that the kit receptor (Kit) is haplosufficient for primordial germ cell development.