Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients

Sarabjot Pabla; Jeffrey M. Conroy; Mary K. Nesline; Sean T. Glenn; Antonios Papanicolau-Sengos; Blake Burgher; Jacob Hagen; Vincent Giamo; Jonathan Andreas; Felicia L. Lenzo; Wang Yirong; Grace K. Dy; Edwin Yau; Amy Early; Hongbin Chen; Wiam Bshara; Katherine G. Madden; Keisuke Shirai; Konstantin Dragnev; Laura J. Tafe; Daniele Marin; Jason Zhu; Jeff Clarke; Matthew Labriola; Shannon McCall; Tian Zhang; Matthew Zibelman; Pooja Ghatalia; Isabel Araujo-Fernandez; Arun Singavi; Ben George; Andrew Craig MacKinnon; Jonathan Thompson; Rajbir Singh; Robin Jacob; Lynn Dressler; Mark Steciuk; Oliver Binns; Deepa Kasuganti; Neel Shah; Marc Ernstoff; Kunle Odunsi; Razelle Kurzrock; Mark Gardner; Lorenzo Galluzzi; Carl Morrison

doi:10.1186/s40425-019-0506-3

Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients

Sarabjot Pabla, Jeffrey M. Conroy, Mary K. Nesline, Sean T. Glenn, Antonios Papanicolau-Sengos, Blake Burgher, Jacob Hagen, Vincent Giamo, Jonathan Andreas, Felicia L. Lenzo, Wang Yirong, Grace K. Dy, Edwin Yau, Amy Early, Hongbin Chen, Wiam Bshara, Katherine G. Madden, Keisuke Shirai, Konstantin Dragnev, Laura J. TafeDaniele Marin, Jason Zhu, Jeff Clarke, Matthew Labriola, Shannon McCall, Tian Zhang, Matthew Zibelman, Pooja Ghatalia, Isabel Araujo-Fernandez, Arun Singavi, Ben George, Andrew Craig MacKinnon, Jonathan Thompson, Rajbir Singh, Robin Jacob, Lynn Dressler, Mark Steciuk, Oliver Binns, Deepa Kasuganti, Neel Shah, Marc Ernstoff, Kunle Odunsi, Razelle Kurzrock, Mark Gardner, Lorenzo Galluzzi, Carl Morrison

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

61 Scopus citations

Abstract

Background: Resistance to immune checkpoint inhibitors (ICIs) has been linked to local immunosuppression independent of major ICI targets (e.g., PD-1). Clinical experience with response prediction based on PD-L1 expression suggests that other factors influence sensitivity to ICIs in non-small cell lung cancer (NSCLC) patients. Methods: Tumor specimens from 120 NSCLC patients from 10 institutions were evaluated for PD-L1 expression by immunohistochemistry, and global proliferative profile by targeted RNA-seq. Results: Cell proliferation, derived from the mean expression of 10 proliferation-associated genes (namely BUB1, CCNB2, CDK1, CDKN3, FOXM1, KIAA0101, MAD2L1, MELK, MKI67, and TOP2A), was identified as a marker of response to ICIs in NSCLC. Poorly, moderately, and highly proliferative tumors were somewhat equally represented in NSCLC, with tumors with the highest PD-L1 expression being more frequently moderately proliferative as compared to lesser levels of PD-L1 expression. Proliferation status had an impact on survival in patients with both PD-L1 positive and negative tumors. There was a significant survival advantage for moderately proliferative tumors compared to their combined highly/poorly counterparts (p = 0.021). Moderately proliferative PD-L1 positive tumors had a median survival of 14.6 months that was almost twice that of PD-L1 negative highly/poorly proliferative at 7.6 months (p = 0.028). Median survival in moderately proliferative PD-L1 negative tumors at 12.6 months was comparable to that of highly/poorly proliferative PD-L1 positive tumors at 11.5 months, but in both instances less than that of moderately proliferative PD-L1 positive tumors. Similar to survival, proliferation status has impact on disease control (DC) in patients with both PD-L1 positive and negative tumors. Patients with moderately versus those with poorly or highly proliferative tumors have a superior DC rate when combined with any classification schema used to score PD-L1 as a positive result (i.e., TPS ≥ 50% or ≥ 1%), and best displayed by a DC rate for moderately proliferative tumors of no less than 40% for any classification of PD-L1 as a negative result. While there is an over representation of moderately proliferative tumors as PD-L1 expression increases this does not account for the improved survival or higher disease control rates seen in PD-L1 negative tumors. Conclusions: Cell proliferation is potentially a new biomarker of response to ICIs in NSCLC and is applicable to PD-L1 negative tumors.

Original language	English (US)
Article number	27
Journal	Journal for ImmunoTherapy of Cancer
Volume	7
Issue number	1
DOIs	https://doi.org/10.1186/s40425-019-0506-3
State	Published - Feb 1 2019
Externally published	Yes

Keywords

Atezolizumab
Ipilimumab
Nivolumab
PD-1
Pembrolizumab

ASJC Scopus subject areas

Immunology and Allergy
Immunology
Molecular Medicine
Oncology
Pharmacology
Cancer Research

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10.1186/s40425-019-0506-3

Cite this

Pabla, S., Conroy, J. M., Nesline, M. K., Glenn, S. T., Papanicolau-Sengos, A., Burgher, B., Hagen, J., Giamo, V., Andreas, J., Lenzo, F. L., Yirong, W., Dy, G. K., Yau, E., Early, A., Chen, H., Bshara, W., Madden, K. G., Shirai, K., Dragnev, K., ... Morrison, C. (2019). Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients. Journal for ImmunoTherapy of Cancer, 7(1), Article 27. https://doi.org/10.1186/s40425-019-0506-3

Pabla, S, Conroy, JM, Nesline, MK, Glenn, ST, Papanicolau-Sengos, A, Burgher, B, Hagen, J, Giamo, V, Andreas, J, Lenzo, FL, Yirong, W, Dy, GK, Yau, E, Early, A, Chen, H, Bshara, W, Madden, KG, Shirai, K, Dragnev, K, Tafe, LJ, Marin, D, Zhu, J, Clarke, J, Labriola, M, McCall, S, Zhang, T, Zibelman, M, Ghatalia, P, Araujo-Fernandez, I, Singavi, A, George, B, MacKinnon, AC, Thompson, J, Singh, R, Jacob, R, Dressler, L, Steciuk, M, Binns, O, Kasuganti, D, Shah, N, Ernstoff, M, Odunsi, K, Kurzrock, R, Gardner, M, Galluzzi, L & Morrison, C 2019, 'Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients', Journal for ImmunoTherapy of Cancer, vol. 7, no. 1, 27. https://doi.org/10.1186/s40425-019-0506-3

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title = "Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients",

abstract = "Background: Resistance to immune checkpoint inhibitors (ICIs) has been linked to local immunosuppression independent of major ICI targets (e.g., PD-1). Clinical experience with response prediction based on PD-L1 expression suggests that other factors influence sensitivity to ICIs in non-small cell lung cancer (NSCLC) patients. Methods: Tumor specimens from 120 NSCLC patients from 10 institutions were evaluated for PD-L1 expression by immunohistochemistry, and global proliferative profile by targeted RNA-seq. Results: Cell proliferation, derived from the mean expression of 10 proliferation-associated genes (namely BUB1, CCNB2, CDK1, CDKN3, FOXM1, KIAA0101, MAD2L1, MELK, MKI67, and TOP2A), was identified as a marker of response to ICIs in NSCLC. Poorly, moderately, and highly proliferative tumors were somewhat equally represented in NSCLC, with tumors with the highest PD-L1 expression being more frequently moderately proliferative as compared to lesser levels of PD-L1 expression. Proliferation status had an impact on survival in patients with both PD-L1 positive and negative tumors. There was a significant survival advantage for moderately proliferative tumors compared to their combined highly/poorly counterparts (p = 0.021). Moderately proliferative PD-L1 positive tumors had a median survival of 14.6 months that was almost twice that of PD-L1 negative highly/poorly proliferative at 7.6 months (p = 0.028). Median survival in moderately proliferative PD-L1 negative tumors at 12.6 months was comparable to that of highly/poorly proliferative PD-L1 positive tumors at 11.5 months, but in both instances less than that of moderately proliferative PD-L1 positive tumors. Similar to survival, proliferation status has impact on disease control (DC) in patients with both PD-L1 positive and negative tumors. Patients with moderately versus those with poorly or highly proliferative tumors have a superior DC rate when combined with any classification schema used to score PD-L1 as a positive result (i.e., TPS ≥ 50% or ≥ 1%), and best displayed by a DC rate for moderately proliferative tumors of no less than 40% for any classification of PD-L1 as a negative result. While there is an over representation of moderately proliferative tumors as PD-L1 expression increases this does not account for the improved survival or higher disease control rates seen in PD-L1 negative tumors. Conclusions: Cell proliferation is potentially a new biomarker of response to ICIs in NSCLC and is applicable to PD-L1 negative tumors.",

keywords = "Atezolizumab, Ipilimumab, Nivolumab, PD-1, Pembrolizumab",

author = "Sarabjot Pabla and Conroy, {Jeffrey M.} and Nesline, {Mary K.} and Glenn, {Sean T.} and Antonios Papanicolau-Sengos and Blake Burgher and Jacob Hagen and Vincent Giamo and Jonathan Andreas and Lenzo, {Felicia L.} and Wang Yirong and Dy, {Grace K.} and Edwin Yau and Amy Early and Hongbin Chen and Wiam Bshara and Madden, {Katherine G.} and Keisuke Shirai and Konstantin Dragnev and Tafe, {Laura J.} and Daniele Marin and Jason Zhu and Jeff Clarke and Matthew Labriola and Shannon McCall and Tian Zhang and Matthew Zibelman and Pooja Ghatalia and Isabel Araujo-Fernandez and Arun Singavi and Ben George and MacKinnon, {Andrew Craig} and Jonathan Thompson and Rajbir Singh and Robin Jacob and Lynn Dressler and Mark Steciuk and Oliver Binns and Deepa Kasuganti and Neel Shah and Marc Ernstoff and Kunle Odunsi and Razelle Kurzrock and Mark Gardner and Lorenzo Galluzzi and Carl Morrison",

note = "Publisher Copyright: {\textcopyright} 2019 The Author(s).",

year = "2019",

month = feb,

day = "1",

doi = "10.1186/s40425-019-0506-3",

language = "English (US)",

volume = "7",

journal = "Journal for ImmunoTherapy of Cancer",

issn = "2051-1426",

publisher = "BioMed Central",

number = "1",

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TY - JOUR

T1 - Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients

AU - Pabla, Sarabjot

AU - Conroy, Jeffrey M.

AU - Nesline, Mary K.

AU - Glenn, Sean T.

AU - Papanicolau-Sengos, Antonios

AU - Burgher, Blake

AU - Hagen, Jacob

AU - Giamo, Vincent

AU - Andreas, Jonathan

AU - Lenzo, Felicia L.

AU - Yirong, Wang

AU - Dy, Grace K.

AU - Yau, Edwin

AU - Early, Amy

AU - Chen, Hongbin

AU - Bshara, Wiam

AU - Madden, Katherine G.

AU - Shirai, Keisuke

AU - Dragnev, Konstantin

AU - Tafe, Laura J.

AU - Marin, Daniele

AU - Zhu, Jason

AU - Clarke, Jeff

AU - Labriola, Matthew

AU - McCall, Shannon

AU - Zhang, Tian

AU - Zibelman, Matthew

AU - Ghatalia, Pooja

AU - Araujo-Fernandez, Isabel

AU - Singavi, Arun

AU - George, Ben

AU - MacKinnon, Andrew Craig

AU - Thompson, Jonathan

AU - Singh, Rajbir

AU - Jacob, Robin

AU - Dressler, Lynn

AU - Steciuk, Mark

AU - Binns, Oliver

AU - Kasuganti, Deepa

AU - Shah, Neel

AU - Ernstoff, Marc

AU - Odunsi, Kunle

AU - Kurzrock, Razelle

AU - Gardner, Mark

AU - Galluzzi, Lorenzo

AU - Morrison, Carl

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Background: Resistance to immune checkpoint inhibitors (ICIs) has been linked to local immunosuppression independent of major ICI targets (e.g., PD-1). Clinical experience with response prediction based on PD-L1 expression suggests that other factors influence sensitivity to ICIs in non-small cell lung cancer (NSCLC) patients. Methods: Tumor specimens from 120 NSCLC patients from 10 institutions were evaluated for PD-L1 expression by immunohistochemistry, and global proliferative profile by targeted RNA-seq. Results: Cell proliferation, derived from the mean expression of 10 proliferation-associated genes (namely BUB1, CCNB2, CDK1, CDKN3, FOXM1, KIAA0101, MAD2L1, MELK, MKI67, and TOP2A), was identified as a marker of response to ICIs in NSCLC. Poorly, moderately, and highly proliferative tumors were somewhat equally represented in NSCLC, with tumors with the highest PD-L1 expression being more frequently moderately proliferative as compared to lesser levels of PD-L1 expression. Proliferation status had an impact on survival in patients with both PD-L1 positive and negative tumors. There was a significant survival advantage for moderately proliferative tumors compared to their combined highly/poorly counterparts (p = 0.021). Moderately proliferative PD-L1 positive tumors had a median survival of 14.6 months that was almost twice that of PD-L1 negative highly/poorly proliferative at 7.6 months (p = 0.028). Median survival in moderately proliferative PD-L1 negative tumors at 12.6 months was comparable to that of highly/poorly proliferative PD-L1 positive tumors at 11.5 months, but in both instances less than that of moderately proliferative PD-L1 positive tumors. Similar to survival, proliferation status has impact on disease control (DC) in patients with both PD-L1 positive and negative tumors. Patients with moderately versus those with poorly or highly proliferative tumors have a superior DC rate when combined with any classification schema used to score PD-L1 as a positive result (i.e., TPS ≥ 50% or ≥ 1%), and best displayed by a DC rate for moderately proliferative tumors of no less than 40% for any classification of PD-L1 as a negative result. While there is an over representation of moderately proliferative tumors as PD-L1 expression increases this does not account for the improved survival or higher disease control rates seen in PD-L1 negative tumors. Conclusions: Cell proliferation is potentially a new biomarker of response to ICIs in NSCLC and is applicable to PD-L1 negative tumors.

AB - Background: Resistance to immune checkpoint inhibitors (ICIs) has been linked to local immunosuppression independent of major ICI targets (e.g., PD-1). Clinical experience with response prediction based on PD-L1 expression suggests that other factors influence sensitivity to ICIs in non-small cell lung cancer (NSCLC) patients. Methods: Tumor specimens from 120 NSCLC patients from 10 institutions were evaluated for PD-L1 expression by immunohistochemistry, and global proliferative profile by targeted RNA-seq. Results: Cell proliferation, derived from the mean expression of 10 proliferation-associated genes (namely BUB1, CCNB2, CDK1, CDKN3, FOXM1, KIAA0101, MAD2L1, MELK, MKI67, and TOP2A), was identified as a marker of response to ICIs in NSCLC. Poorly, moderately, and highly proliferative tumors were somewhat equally represented in NSCLC, with tumors with the highest PD-L1 expression being more frequently moderately proliferative as compared to lesser levels of PD-L1 expression. Proliferation status had an impact on survival in patients with both PD-L1 positive and negative tumors. There was a significant survival advantage for moderately proliferative tumors compared to their combined highly/poorly counterparts (p = 0.021). Moderately proliferative PD-L1 positive tumors had a median survival of 14.6 months that was almost twice that of PD-L1 negative highly/poorly proliferative at 7.6 months (p = 0.028). Median survival in moderately proliferative PD-L1 negative tumors at 12.6 months was comparable to that of highly/poorly proliferative PD-L1 positive tumors at 11.5 months, but in both instances less than that of moderately proliferative PD-L1 positive tumors. Similar to survival, proliferation status has impact on disease control (DC) in patients with both PD-L1 positive and negative tumors. Patients with moderately versus those with poorly or highly proliferative tumors have a superior DC rate when combined with any classification schema used to score PD-L1 as a positive result (i.e., TPS ≥ 50% or ≥ 1%), and best displayed by a DC rate for moderately proliferative tumors of no less than 40% for any classification of PD-L1 as a negative result. While there is an over representation of moderately proliferative tumors as PD-L1 expression increases this does not account for the improved survival or higher disease control rates seen in PD-L1 negative tumors. Conclusions: Cell proliferation is potentially a new biomarker of response to ICIs in NSCLC and is applicable to PD-L1 negative tumors.

KW - Atezolizumab

KW - Ipilimumab

KW - Nivolumab

KW - PD-1

KW - Pembrolizumab

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DO - 10.1186/s40425-019-0506-3

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SN - 2051-1426

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JO - Journal for ImmunoTherapy of Cancer

JF - Journal for ImmunoTherapy of Cancer

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ER -

Proliferative potential and resistance to immune checkpoint blockade in lung cancer patients

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