A preexisting rare PIK3CA                         e545k                          subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling

Gabriele Romano; Pei Ling Chen; Ping Song; Jennifer L. McQuade; Roger J. Liang; Mingguang Liu; Whijae Roh; Dzifa Y. Duose; Fernando C.L. Carapeto; Jun Li; Jessica L.F. Teh; Andrew E. Aplin; Merry Chen; Jianhua Zhang; Alexander J. Lazar; Michael A. Davies; P. Andrew Futreal; Rodabe N. Amaria; David Y. Zhang; Jennifer A. Wargo; Lawrence N. Kwong

doi:10.1158/2159-8290.CD-17-0745

A preexisting rare PIK3CA ^e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling

Gabriele Romano, Pei Ling Chen, Ping Song, Jennifer L. McQuade, Roger J. Liang, Mingguang Liu, Whijae Roh, Dzifa Y. Duose, Fernando C.L. Carapeto, Jun Li, Jessica L.F. Teh, Andrew E. Aplin, Merry Chen, Jianhua Zhang, Alexander J. Lazar, Michael A. Davies, P. Andrew Futreal, Rodabe N. Amaria, David Y. Zhang, Jennifer A. WargoLawrence N. Kwong

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

Combined MEK and CDK4/6 inhibition (MEKi + CDK4i) has shown promising clinical outcomes in patients with NRAS- mutant melanoma. Here, we interrogated longitudinal biopsies from a patient who initially responded to MEKi + CDK4i therapy but subsequently developed resistance. Whole-exome sequencing and functional validation identified an acquired PIK3CA ^E545K mutation as conferring drug resistance. We demonstrate that PIK3CA ^E545K preexisted in a rare subpopulation that was missed by both clinical and research testing, but was revealed upon multiregion sampling due to PIK3CA ^E545K being nonuniformly distributed. This resistant population rapidly expanded after the initiation of MEKi + CDK4i therapy and persisted in all successive samples even after immune checkpoint therapy and distant metastasis. Functional studies identified activated S6K1 as both a key marker and specific therapeutic vulnerability downstream of PIK3CA ^E545K -induced resistance. These results demonstrate that difficult-to-detect preexisting resistance mutations may exist more often than previously appreciated and also posit S6K1 as a common downstream therapeutic nexus for the MAPK, CDK4/6, and PI3K pathways. SIGNIFICANCE: We report the first characterization of clinical acquired resistance to MEKi + CDK4i, identifying a rare preexisting PIK3CA ^E545K subpopulation that expands upon therapy and exhibits drug resistance. We suggest that single-region pretreatment biopsy is insufficient to detect rare, spatially segregated drug-resistant subclones. Inhibition of S6K1 is able to resensitize PIK3CA ^E545K -expressing NRAS-mutant melanoma cells to MEKi + CDK4i.

Original language	English (US)
Pages (from-to)	556-567
Number of pages	12
Journal	Cancer discovery
Volume	8
Issue number	5
DOIs	https://doi.org/10.1158/2159-8290.CD-17-0745
State	Published - May 2018

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Oncology

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10.1158/2159-8290.CD-17-0745

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Romano, G., Chen, P. L., Song, P., McQuade, J. L., Liang, R. J., Liu, M., Roh, W., Duose, D. Y., Carapeto, F. C. L., Li, J., Teh, J. L. F., Aplin, A. E., Chen, M., Zhang, J., Lazar, A. J., Davies, M. A., Futreal, P. A., Amaria, R. N., Zhang, D. Y., ... Kwong, L. N. (2018). A preexisting rare PIK3CA ^e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling Cancer discovery, 8(5), 556-567. https://doi.org/10.1158/2159-8290.CD-17-0745

A preexisting rare PIK3CA ^e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling . / Romano, Gabriele; Chen, Pei Ling; Song, Ping et al.
In: Cancer discovery, Vol. 8, No. 5, 05.2018, p. 556-567.

Research output: Contribution to journal › Article › peer-review

Romano, G, Chen, PL, Song, P, McQuade, JL, Liang, RJ, Liu, M, Roh, W, Duose, DY, Carapeto, FCL, Li, J, Teh, JLF, Aplin, AE, Chen, M, Zhang, J, Lazar, AJ , Davies, MA , Futreal, PA , Amaria, RN, Zhang, DY, Wargo, JA & Kwong, LN 2018, ' A preexisting rare PIK3CA ^e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling ', Cancer discovery, vol. 8, no. 5, pp. 556-567. https://doi.org/10.1158/2159-8290.CD-17-0745

Romano G, Chen PL, Song P, McQuade JL, Liang RJ, Liu M et al. A preexisting rare PIK3CA ^e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling Cancer discovery. 2018 May;8(5):556-567. doi: 10.1158/2159-8290.CD-17-0745

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title = " A preexisting rare PIK3CA e545k subpopulation confers clinical resistance to MEK plus CDK4/6 inhibition in NRAS melanoma and is dependent on S6K1 signaling ",

abstract = " Combined MEK and CDK4/6 inhibition (MEKi + CDK4i) has shown promising clinical outcomes in patients with NRAS- mutant melanoma. Here, we interrogated longitudinal biopsies from a patient who initially responded to MEKi + CDK4i therapy but subsequently developed resistance. Whole-exome sequencing and functional validation identified an acquired PIK3CA E545K mutation as conferring drug resistance. We demonstrate that PIK3CA E545K preexisted in a rare subpopulation that was missed by both clinical and research testing, but was revealed upon multiregion sampling due to PIK3CA E545K being nonuniformly distributed. This resistant population rapidly expanded after the initiation of MEKi + CDK4i therapy and persisted in all successive samples even after immune checkpoint therapy and distant metastasis. Functional studies identified activated S6K1 as both a key marker and specific therapeutic vulnerability downstream of PIK3CA E545K -induced resistance. These results demonstrate that difficult-to-detect preexisting resistance mutations may exist more often than previously appreciated and also posit S6K1 as a common downstream therapeutic nexus for the MAPK, CDK4/6, and PI3K pathways. SIGNIFICANCE: We report the first characterization of clinical acquired resistance to MEKi + CDK4i, identifying a rare preexisting PIK3CA E545K subpopulation that expands upon therapy and exhibits drug resistance. We suggest that single-region pretreatment biopsy is insufficient to detect rare, spatially segregated drug-resistant subclones. Inhibition of S6K1 is able to resensitize PIK3CA E545K -expressing NRAS-mutant melanoma cells to MEKi + CDK4i.",

author = "Gabriele Romano and Chen, {Pei Ling} and Ping Song and McQuade, {Jennifer L.} and Liang, {Roger J.} and Mingguang Liu and Whijae Roh and Duose, {Dzifa Y.} and Carapeto, {Fernando C.L.} and Jun Li and Teh, {Jessica L.F.} and Aplin, {Andrew E.} and Merry Chen and Jianhua Zhang and Lazar, {Alexander J.} and Davies, {Michael A.} and Futreal, {P. Andrew} and Amaria, {Rodabe N.} and Zhang, {David Y.} and Wargo, {Jennifer A.} and Kwong, {Lawrence N.}",

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AU - Romano, Gabriele

AU - Chen, Pei Ling

AU - Song, Ping

AU - McQuade, Jennifer L.

AU - Liang, Roger J.

AU - Liu, Mingguang

AU - Roh, Whijae

AU - Duose, Dzifa Y.

AU - Carapeto, Fernando C.L.

AU - Li, Jun

AU - Teh, Jessica L.F.

AU - Aplin, Andrew E.

AU - Chen, Merry

AU - Zhang, Jianhua

AU - Lazar, Alexander J.

AU - Davies, Michael A.

AU - Futreal, P. Andrew

AU - Amaria, Rodabe N.

AU - Zhang, David Y.

AU - Wargo, Jennifer A.

AU - Kwong, Lawrence N.

PY - 2018/5

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N2 - Combined MEK and CDK4/6 inhibition (MEKi + CDK4i) has shown promising clinical outcomes in patients with NRAS- mutant melanoma. Here, we interrogated longitudinal biopsies from a patient who initially responded to MEKi + CDK4i therapy but subsequently developed resistance. Whole-exome sequencing and functional validation identified an acquired PIK3CA E545K mutation as conferring drug resistance. We demonstrate that PIK3CA E545K preexisted in a rare subpopulation that was missed by both clinical and research testing, but was revealed upon multiregion sampling due to PIK3CA E545K being nonuniformly distributed. This resistant population rapidly expanded after the initiation of MEKi + CDK4i therapy and persisted in all successive samples even after immune checkpoint therapy and distant metastasis. Functional studies identified activated S6K1 as both a key marker and specific therapeutic vulnerability downstream of PIK3CA E545K -induced resistance. These results demonstrate that difficult-to-detect preexisting resistance mutations may exist more often than previously appreciated and also posit S6K1 as a common downstream therapeutic nexus for the MAPK, CDK4/6, and PI3K pathways. SIGNIFICANCE: We report the first characterization of clinical acquired resistance to MEKi + CDK4i, identifying a rare preexisting PIK3CA E545K subpopulation that expands upon therapy and exhibits drug resistance. We suggest that single-region pretreatment biopsy is insufficient to detect rare, spatially segregated drug-resistant subclones. Inhibition of S6K1 is able to resensitize PIK3CA E545K -expressing NRAS-mutant melanoma cells to MEKi + CDK4i.

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