[PDF][PDF] Functional identification of tumor-suppressor genes through an in vivo RNA interference screen in a mouse lymphoma model
Cancer cell, 2009•cell.com
Short hairpin RNAs (shRNAs) capable of stably suppressing gene function by RNA
interference (RNAi) can mimic tumor-suppressor-gene loss in mice. By selecting for shRNAs
capable of accelerating lymphomagenesis in a well-characterized mouse lymphoma model,
we identified over ten candidate tumor suppressors, including Sfrp1, Numb, Mek1, and
Angiopoietin 2. Several components of the DNA damage response machinery were also
identified, including Rad17, which acts as a haploinsufficient tumor suppressor that …
interference (RNAi) can mimic tumor-suppressor-gene loss in mice. By selecting for shRNAs
capable of accelerating lymphomagenesis in a well-characterized mouse lymphoma model,
we identified over ten candidate tumor suppressors, including Sfrp1, Numb, Mek1, and
Angiopoietin 2. Several components of the DNA damage response machinery were also
identified, including Rad17, which acts as a haploinsufficient tumor suppressor that …
Summary
Short hairpin RNAs (shRNAs) capable of stably suppressing gene function by RNA interference (RNAi) can mimic tumor-suppressor-gene loss in mice. By selecting for shRNAs capable of accelerating lymphomagenesis in a well-characterized mouse lymphoma model, we identified over ten candidate tumor suppressors, including Sfrp1, Numb, Mek1, and Angiopoietin 2. Several components of the DNA damage response machinery were also identified, including Rad17, which acts as a haploinsufficient tumor suppressor that responds to oncogenic stress and whose loss is associated with poor prognosis in human patients. Our results emphasize the utility of in vivo RNAi screens, identify and validate a diverse set of tumor suppressors, and have therapeutic implications.
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