An activating Pik3ca mutation coupled with Pten loss is sufficient to initiate ovarian tumorigenesis in mice
Kathryn M. Kinross, … , Grant A. McArthur, Wayne A. Phillips
Kathryn M. Kinross, … , Grant A. McArthur, Wayne A. Phillips
Published January 3, 2012
Citation Information: J Clin Invest. 2012;122(2):553-557. https://doi.org/10.1172/JCI59309.
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An activating Pik3ca mutation coupled with Pten loss is sufficient to initiate ovarian tumorigenesis in mice

Abstract

Mutations in the gene encoding the p110α subunit of PI3K (PIK3CA) that result in enhanced PI3K activity are frequently observed in human cancers. To better understand the role of mutant PIK3CA in the initiation or progression of tumorigenesis, we generated mice in which a PIK3CA mutation commonly detected in human cancers (the H1047R mutation) could be conditionally knocked into the endogenous Pik3ca locus. Activation of this mutation in the mouse ovary revealed that alone, Pik3caH1047R induced premalignant hyperplasia of the ovarian surface epithelium but no tumors. Concomitantly, we analyzed several human ovarian cancers and found PIK3CA mutations coexistent with KRAS and/or PTEN mutations, raising the possibility that a secondary defect in a co-regulator of PI3K activity may be required for mutant PIK3CA to promote transformation. Consistent with this notion, we found that Pik3caH1047R mutation plus Pten deletion in the mouse ovary led to the development of ovarian serous adenocarcinomas and granulosa cell tumors. Both mutational events were required for early, robust Akt activation. Pharmacological inhibition of PI3K/mTOR in these mice delayed tumor growth and prolonged survival. These results demonstrate that the Pik3caH1047R mutation with loss of Pten is enough to promote ovarian cell transformation and that we have developed a model system for studying possible therapies.

Authors

Kathryn M. Kinross, Karen G. Montgomery, Margarete Kleinschmidt, Paul Waring, Ivan Ivetac, Anjali Tikoo, Mirette Saad, Lauren Hare, Vincent Roh, Theo Mantamadiotis, Karen E. Sheppard, Georgina L. Ryland, Ian G. Campbell, Kylie L. Gorringe, James G. Christensen, Carleen Cullinane, Rodney J. Hicks, Richard B. Pearson, Ricky W. Johnstone, Grant A. McArthur, Wayne A. Phillips

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Figure 3

Pik3caH1047R and Ptendel/del cooperate to promote tumorigenesis in mouse ovary.

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Pik3caH1047R and Ptendel/del cooperate to promote tumorigenesis in mous...
(A) Kaplan-Meier curve of Pik3caH1047RPtendel/del mice (red; median survival, 16 weeks) compared with control mice (n in parentheses) exposed to AdCre in the ovarian bursa. (B) Ovarian tumors from Pik3caH1047RPtendel/del mice (20–25 weeks after AdCre infection) and non-tumor-bearing control mice 1 year after AdCre infection. Scale bars: 1 cm. (CK) Representative histopathology of tumors from Pik3caH1047RPtendel/del mice. Non-AdCre-exposed ovary (C), serous adenocarcinoma (DH), and granulosa cell tumor (IK). Staining with H&E (CE, I, and J), p-Akt S473 (F, high-power inset), p-Rps6 (G, high power inset), pan-keratin (H, adjacent uterus inset), or inhibin (K) is shown. Scale bars: bracketed, 500 mm; unbracketed, 50 mm. B, bursa; CL, corpus luteum; F, follicle; FP, fat pad. (L) Protein blots from KrasG12DPtendel/del (Pten Kras), Pik3caH1047RPtende/del (Pten Pik3ca), and ApcS580/S580Ptendel/del (Pten Apc) ovarian tumors. (M) Tumor-bearing Pik3caH1047RPtendel/del mice were treated with vehicle or PF04691502 daily. Mice receiving vehicle exhibited 4.5 weeks median survival compared with 11 weeks in PF04691502-treated mice; log-rank (Mantel-Cox) test, P = 0.0006.