SMAD3 regulates gonadal tumorigenesis

Qinglei Li, Jonathan M. Graff, Anne E. O'Connor, Kate L. Loveland, Martin M. Matzuk

Research output: Contribution to journalArticlepeer-review

70 Scopus citations


Inhibin is a secreted tumor suppressor and an activin antagonist. Inhibin α null mice develop gonadal sex cord-stromal tumors with 100% penetrance and die of a cachexia-like syndrome due to increased activin signaling. Because Sma and Mad-related protein (SMAD)2 and SMAD3 transduce activin signals in vitro, we attempted to define the role of SMAD3 in gonadal tumorigenesis and the wasting syndrome by generating inhibin α and Smad3 double mutant mice. Inhibin α and Smad3 double homozygous males were protected from early tumorigenesis and the usual weight loss and death. Approximately 90% of these males survived to 26 wk in contrast to 95% of inhibin-deficient males, which develop bilateral testicular tumors and die of the wasting syndrome by 12 wk. Testicular tumors were either absent or unilaterally slow growing and less hemorrhagic in the majority of double-knockout males. In contrast, development of the ovarian tumors and wasting syndrome was delayed, but still occurred, in the majority of the double-knockout females by 26 wk. In double mutant females, tumor development was accompanied by typical activin-induced pathological changes. In summary, we identify an important function of SMAD3 in gonadal tumorigenesis in both sexes. However, this effect is significantly more pronounced in the male, indicating that SMAD3 is the primary transducer of male gonadal tumorigenesis, whereas SMAD3 potentially overlaps with SMAD2 function in the ovary. Moreover, the activin-induced cachexia syndrome is potentially mediated through both SMAD2 and SMAD3 or only through SMAD2 in the liver and stomach. These studies identify sexually dimorphic functions of SMAD3 in gonadal tumorigenesis.

Original languageEnglish (US)
Pages (from-to)2472-2486
Number of pages15
JournalMolecular Endocrinology
Issue number10
StatePublished - Oct 2007

ASJC Scopus subject areas

  • Molecular Biology
  • Endocrinology


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