Skip to Content
Merck
  • Homozygous loss of BHD causes early embryonic lethality and kidney tumor development with activation of mTORC1 and mTORC2.

Homozygous loss of BHD causes early embryonic lethality and kidney tumor development with activation of mTORC1 and mTORC2.

Proceedings of the National Academy of Sciences of the United States of America (2009-10-24)
Yukiko Hasumi, Masaya Baba, Rieko Ajima, Hisashi Hasumi, Vladimir A Valera, Mara E Klein, Diana C Haines, Maria J Merino, Seung-Beom Hong, Terry P Yamaguchi, Laura S Schmidt, W Marston Linehan
ABSTRACT

Germline mutations in the BHD/FLCN tumor suppressor gene predispose patients to develop renal tumors in the hamartoma syndrome, Birt-Hogg-Dubé (BHD). BHD encodes folliculin, a protein with unknown function that may interact with the energy- and nutrient-sensing AMPK-mTOR signaling pathways. To clarify BHD function in the mouse, we generated a BHD knockout mouse model. BHD homozygous null (BHD(d/d)) mice displayed early embryonic lethality at E5.5-E6.5, showing defects in the visceral endoderm. BHD heterozygous knockout (BHDd(/+)) mice appeared normal at birth but developed kidney cysts and solid tumors as they aged (median kidney-lesion-free survival = 23 months, median tumor-free survival = 25 months). As observed in human BHD kidney tumors, three different histologic types of kidney tumors developed in BHD(d/+) mice including oncocytic hybrid, oncocytoma, and clear cell with concomitant loss of heterozygosity (LOH), supporting a tumor suppressor function for BHD in the mouse. The PI3K-AKT pathway was activated in both human BHD renal tumors and kidney tumors in BHD(d/+) mice. Interestingly, total AKT protein was elevated in kidney tumors compared to normal kidney tissue, but without increased levels of AKT mRNA, suggesting that AKT may be regulated by folliculin through post translational or post-transcriptional modification. Finally, BHD inactivation led to both mTORC1 and mTORC2 activation in kidney tumors from BHD(d/+) mice and human BHD patients. These data support a role for PI3K-AKT pathway activation in kidney tumor formation caused by loss of BHD and suggest that inhibitors of both mTORC1 and mTORC2 may be effective as potential therapeutic agents for BHD-associated kidney cancer.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Duolink® In Situ Detection Reagents Orange
Sigma-Aldrich
Duolink® In Situ Probemaker MINUS
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Mouse PLUS
Sigma-Aldrich
Duolink® In Situ Detection Reagents FarRed
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Goat PLUS
Sigma-Aldrich
Duolink® In Situ Wash Buffers, Fluorescence
Sigma-Aldrich
Duolink® In Situ Detection Reagents Green
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Rabbit MINUS
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Goat MINUS, Affinity purified Donkey anti-Goat IgG (H+L)
Sigma-Aldrich
Duolink® In Situ Detection Reagents Red
Sigma-Aldrich
Duolink® In Situ Probemaker PLUS
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Rabbit PLUS, Affinity purified Donkey anti-Rabbit IgG (H+L)
Sigma-Aldrich
Duolink® In Situ Microplate Nuclear Stain, Anti-Fade
Sigma-Aldrich
Duolink® In Situ Mounting Medium with DAPI
Sigma-Aldrich
Duolink® In Situ PLA® Probe Anti-Mouse MINUS, Affinity purified Donkey anti-Mouse IgG (H+L)
Sigma-Aldrich
Duolink® In Situ Microplate Heat Transfer Block