Primary resistance to PD-1 blockade mediated by JAK1/2 mutations

Daniel Sanghoon Shin; Jesse M. Zaretsky; Helena Escuin-Ordinas; Angel Garcia-Diaz; Siwen Hu-Lieskovan; Anusha Kalbasi; Catherine S. Grasso; Willy Hugo; Salemiz Sandoval; Davis Y. Torrejon; Nicolaos Palaskas; Gabriel Abril-Rodriguez; Giulia Parisi; Ariel Azhdam; Bartosz Chmielowski; Grace Cherry; Elizabeth Seja; Beata Berent-Maoz; I. Peter Shintaku; Dung T. Le; Drew M. Pardoll; Luis A. Diaz; Paul C. Tumeh; Thomas G. Graeber; Roger S. Lo; Begoña Comin-Anduix; Antoni Ribas

doi:10.1158/2159-8290.CD-16-1223

Primary resistance to PD-1 blockade mediated by JAK1/2 mutations

Daniel Sanghoon Shin
, Jesse M. Zaretsky
, Helena Escuin-Ordinas
, Angel Garcia-Diaz
, Siwen Hu-Lieskovan
, Anusha Kalbasi
, Catherine S. Grasso
, Willy Hugo
, Salemiz Sandoval
, Davis Y. Torrejon
, Nicolaos Palaskas
, Gabriel Abril-Rodriguez
, Giulia Parisi
, Ariel Azhdam
, Bartosz Chmielowski
, Grace Cherry
, Elizabeth Seja
, Beata Berent-Maoz
, I. Peter Shintaku
, Dung T. Le

Drew M. Pardoll, Luis A. Diaz, Paul C. Tumeh, Thomas G. Graeber, Roger S. Lo, Begoña Comin-Anduix, Antoni Ribas

Section of Medical Oncology

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

1108 Scopus citations

Abstract

Loss-of-function mutations in JAK1 / 2 can lead to acquired resistance to antiprogrammed death protein 1 (PD-1) therapy. We reasoned that they may also be involved in primary resistance to anti-PD-1 therapy. JAK1 / 2-inactivating mutations were noted in tumor biopsies of 1 of 23 patients with melanoma and in 1 of 16 patients with mismatch repair-deficient colon cancer treated with PD-1 blockade. Both cases had a high mutational load but did not respond to anti-PD-1 therapy. Two out of 48 human melanoma cell lines had JAK1/2 mutations, which led to a lack of PD-L1 expression upon interferon gamma exposure mediated by an inability to signal through the interferon gamma receptor pathway. JAK1/2 loss-of-function alterations in The Cancer Genome Atlas confer adverse outcomes in patients. We propose that JAK1/2 loss-of-function mutations are a genetic mechanism of lack of reactive PD-L1 expression and response to interferon gamma, leading to primary resistance to PD-1 blockade therapy. SIGNIFICANCE: A key functional result from somatic JAK1/2 mutations in a cancer cell is the inability to respond to interferon gamma by expressing PD-L1 and many other interferon-stimulated genes. These mutations result in a genetic mechanism for the absence of reactive PD-L1 expression, and patients harboring such tumors would be unlikely to respond to PD-1 blockade therapy.

Original language	English
Pages (from-to)	188-201
Number of pages	14
Journal	Cancer discovery
Volume	7
Issue number	2
DOIs	https://doi.org/10.1158/2159-8290.CD-16-1223
State	Published - Feb 2017

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Shin, D. S., Zaretsky, J. M., Escuin-Ordinas, H., Garcia-Diaz, A., Hu-Lieskovan, S., Kalbasi, A., Grasso, C. S., Hugo, W., Sandoval, S., Torrejon, D. Y., Palaskas, N., Abril-Rodriguez, G., Parisi, G., Azhdam, A., Chmielowski, B., Cherry, G., Seja, E., Berent-Maoz, B., Shintaku, I. P., ... Ribas, A. (2017). Primary resistance to PD-1 blockade mediated by JAK1/2 mutations. Cancer discovery, 7(2), 188-201. https://doi.org/10.1158/2159-8290.CD-16-1223

@article{1fd0128401f34a10b860f25295f22c7a,

title = "Primary resistance to PD-1 blockade mediated by JAK1/2 mutations",

abstract = "Loss-of-function mutations in JAK1 / 2 can lead to acquired resistance to antiprogrammed death protein 1 (PD-1) therapy. We reasoned that they may also be involved in primary resistance to anti-PD-1 therapy. JAK1 / 2-inactivating mutations were noted in tumor biopsies of 1 of 23 patients with melanoma and in 1 of 16 patients with mismatch repair-deficient colon cancer treated with PD-1 blockade. Both cases had a high mutational load but did not respond to anti-PD-1 therapy. Two out of 48 human melanoma cell lines had JAK1/2 mutations, which led to a lack of PD-L1 expression upon interferon gamma exposure mediated by an inability to signal through the interferon gamma receptor pathway. JAK1/2 loss-of-function alterations in The Cancer Genome Atlas confer adverse outcomes in patients. We propose that JAK1/2 loss-of-function mutations are a genetic mechanism of lack of reactive PD-L1 expression and response to interferon gamma, leading to primary resistance to PD-1 blockade therapy. SIGNIFICANCE: A key functional result from somatic JAK1/2 mutations in a cancer cell is the inability to respond to interferon gamma by expressing PD-L1 and many other interferon-stimulated genes. These mutations result in a genetic mechanism for the absence of reactive PD-L1 expression, and patients harboring such tumors would be unlikely to respond to PD-1 blockade therapy.",

author = "Shin, \{Daniel Sanghoon\} and Zaretsky, \{Jesse M.\} and Helena Escuin-Ordinas and Angel Garcia-Diaz and Siwen Hu-Lieskovan and Anusha Kalbasi and Grasso, \{Catherine S.\} and Willy Hugo and Salemiz Sandoval and Torrejon, \{Davis Y.\} and Nicolaos Palaskas and Gabriel Abril-Rodriguez and Giulia Parisi and Ariel Azhdam and Bartosz Chmielowski and Grace Cherry and Elizabeth Seja and Beata Berent-Maoz and Shintaku, \{I. Peter\} and Le, \{Dung T.\} and Pardoll, \{Drew M.\} and Diaz, \{Luis A.\} and Tumeh, \{Paul C.\} and Graeber, \{Thomas G.\} and Lo, \{Roger S.\} and Bego{\~n}a Comin-Anduix and Antoni Ribas",

note = "Publisher Copyright: {\textcopyright} 2017 American Association for Cancer Research.",

year = "2017",

month = feb,

doi = "10.1158/2159-8290.CD-16-1223",

language = "English",

volume = "7",

pages = "188--201",

journal = "Cancer discovery",

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Shin, DS, Zaretsky, JM, Escuin-Ordinas, H, Garcia-Diaz, A, Hu-Lieskovan, S, Kalbasi, A, Grasso, CS, Hugo, W, Sandoval, S, Torrejon, DY, Palaskas, N, Abril-Rodriguez, G, Parisi, G, Azhdam, A, Chmielowski, B, Cherry, G, Seja, E, Berent-Maoz, B, Shintaku, IP, Le, DT, Pardoll, DM, Diaz, LA, Tumeh, PC, Graeber, TG, Lo, RS, Comin-Anduix, B & Ribas, A 2017, 'Primary resistance to PD-1 blockade mediated by JAK1/2 mutations', Cancer discovery, vol. 7, no. 2, pp. 188-201. https://doi.org/10.1158/2159-8290.CD-16-1223

TY - JOUR

T1 - Primary resistance to PD-1 blockade mediated by JAK1/2 mutations

AU - Shin, Daniel Sanghoon

AU - Zaretsky, Jesse M.

AU - Escuin-Ordinas, Helena

AU - Garcia-Diaz, Angel

AU - Hu-Lieskovan, Siwen

AU - Kalbasi, Anusha

AU - Grasso, Catherine S.

AU - Hugo, Willy

AU - Sandoval, Salemiz

AU - Torrejon, Davis Y.

AU - Palaskas, Nicolaos

AU - Abril-Rodriguez, Gabriel

AU - Parisi, Giulia

AU - Azhdam, Ariel

AU - Chmielowski, Bartosz

AU - Cherry, Grace

AU - Seja, Elizabeth

AU - Berent-Maoz, Beata

AU - Shintaku, I. Peter

AU - Le, Dung T.

AU - Pardoll, Drew M.

AU - Diaz, Luis A.

AU - Tumeh, Paul C.

AU - Graeber, Thomas G.

AU - Lo, Roger S.

AU - Comin-Anduix, Begoña

AU - Ribas, Antoni

PY - 2017/2

Y1 - 2017/2

N2 - Loss-of-function mutations in JAK1 / 2 can lead to acquired resistance to antiprogrammed death protein 1 (PD-1) therapy. We reasoned that they may also be involved in primary resistance to anti-PD-1 therapy. JAK1 / 2-inactivating mutations were noted in tumor biopsies of 1 of 23 patients with melanoma and in 1 of 16 patients with mismatch repair-deficient colon cancer treated with PD-1 blockade. Both cases had a high mutational load but did not respond to anti-PD-1 therapy. Two out of 48 human melanoma cell lines had JAK1/2 mutations, which led to a lack of PD-L1 expression upon interferon gamma exposure mediated by an inability to signal through the interferon gamma receptor pathway. JAK1/2 loss-of-function alterations in The Cancer Genome Atlas confer adverse outcomes in patients. We propose that JAK1/2 loss-of-function mutations are a genetic mechanism of lack of reactive PD-L1 expression and response to interferon gamma, leading to primary resistance to PD-1 blockade therapy. SIGNIFICANCE: A key functional result from somatic JAK1/2 mutations in a cancer cell is the inability to respond to interferon gamma by expressing PD-L1 and many other interferon-stimulated genes. These mutations result in a genetic mechanism for the absence of reactive PD-L1 expression, and patients harboring such tumors would be unlikely to respond to PD-1 blockade therapy.

AB - Loss-of-function mutations in JAK1 / 2 can lead to acquired resistance to antiprogrammed death protein 1 (PD-1) therapy. We reasoned that they may also be involved in primary resistance to anti-PD-1 therapy. JAK1 / 2-inactivating mutations were noted in tumor biopsies of 1 of 23 patients with melanoma and in 1 of 16 patients with mismatch repair-deficient colon cancer treated with PD-1 blockade. Both cases had a high mutational load but did not respond to anti-PD-1 therapy. Two out of 48 human melanoma cell lines had JAK1/2 mutations, which led to a lack of PD-L1 expression upon interferon gamma exposure mediated by an inability to signal through the interferon gamma receptor pathway. JAK1/2 loss-of-function alterations in The Cancer Genome Atlas confer adverse outcomes in patients. We propose that JAK1/2 loss-of-function mutations are a genetic mechanism of lack of reactive PD-L1 expression and response to interferon gamma, leading to primary resistance to PD-1 blockade therapy. SIGNIFICANCE: A key functional result from somatic JAK1/2 mutations in a cancer cell is the inability to respond to interferon gamma by expressing PD-L1 and many other interferon-stimulated genes. These mutations result in a genetic mechanism for the absence of reactive PD-L1 expression, and patients harboring such tumors would be unlikely to respond to PD-1 blockade therapy.

UR - https://www.scopus.com/pages/publications/85011827059

U2 - 10.1158/2159-8290.CD-16-1223

DO - 10.1158/2159-8290.CD-16-1223

M3 - Article

C2 - 27903500

AN - SCOPUS:85011827059

SN - 2159-8274

VL - 7

SP - 188

EP - 201

JO - Cancer discovery

JF - Cancer discovery

IS - 2

ER -

Primary resistance to PD-1 blockade mediated by JAK1/2 mutations

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