Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma

Emily J. Lelliott; Stefano Mangiola; Kelly M. Ramsbottom; Magnus Zethoven; Lydia Lim; Peter K.H. Lau; Amanda J. Oliver; Luciano G. Martelotto; Laura Kirby; Claire Martin; Riyaben P. Patel; Alison Slater; Carleen Cullinane; Anthony T. Papenfuss; Nicole M. Haynes; Grant A. McArthur; Jane Oliaro; Karen E. Sheppard

doi:10.1158/2326-6066.CIR-20-0401

Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma

Emily J. Lelliott, Stefano Mangiola, Kelly M. Ramsbottom, Magnus Zethoven, Lydia Lim, Peter K.H. Lau, Amanda J. Oliver, Luciano G. Martelotto, Laura Kirby, Claire Martin, Riyaben P. Patel, Alison Slater, Carleen Cullinane, Anthony T. Papenfuss, Nicole M. Haynes, Grant A. McArthur, Jane Oliaro, Karen E. Sheppard

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16 Citations (Scopus)

Abstract

Combined inhibition of BRAF, MEK, and CDK4/6 is currently under evaluation in clinical trials for patients with melanoma harboring a BRAF^V600 mutation. While this triple therapy has potent tumor-intrinsic effects, the impact of this combination on antitumor immunity remains unexplored. Here, using a syngeneic Braf^V600ECdkn2a-/-Pten-/- melanoma model, we demonstrated that triple therapy promoted durable tumor control through tumor-intrinsic mechanisms and promoted immunogenic cell death and T-cell infiltration. Despite this, tumors treated with triple therapy were unresponsive to immune checkpoint blockade (ICB). Flow cytometric and single-cell RNA sequencing analyses of tumor-infiltrating immune populations revealed that triple therapy markedly depleted proinflammatory macrophages and cross-priming CD103⁺ dendritic cells, the absence of which correlated with poor overall survival and clinical responses to ICB in patients with melanoma. Indeed, immune populations isolated from tumors of mice treated with triple therapy failed to stimulate T-cell responses ex vivo. While combined BRAF, MEK, and CDK4/6 inhibition demonstrates favorable tumor-intrinsic activity, these data suggest that collateral effects on tumor-infiltrating myeloid populations may impact antitumor immunity. These findings have important implications for the design of combination strategies and clinical trials that incorporate BRAF, MEK, and CDK4/6 inhibition with immunotherapy for the treatment of patients with melanoma.

Original language	English
Pages (from-to)	136-146
Number of pages	11
Journal	Cancer Immunology Research
Volume	9
Issue number	2
DOIs	https://doi.org/10.1158/2326-6066.CIR-20-0401
Publication status	Published - 1 Feb 2021
Externally published	Yes

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Lelliott, E. J., Mangiola, S., Ramsbottom, K. M., Zethoven, M., Lim, L., Lau, P. K. H., Oliver, A. J., Martelotto, L. G., Kirby, L., Martin, C., Patel, R. P., Slater, A., Cullinane, C., Papenfuss, A. T., Haynes, N. M., McArthur, G. A., Oliaro, J., & Sheppard, K. E. (2021). Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma. Cancer Immunology Research, 9(2), 136-146. https://doi.org/10.1158/2326-6066.CIR-20-0401

@article{f10039540ac24e459b2e55ed4ffd4b53,

title = "Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma",

abstract = "Combined inhibition of BRAF, MEK, and CDK4/6 is currently under evaluation in clinical trials for patients with melanoma harboring a BRAFV600 mutation. While this triple therapy has potent tumor-intrinsic effects, the impact of this combination on antitumor immunity remains unexplored. Here, using a syngeneic BrafV600ECdkn2a-/-Pten-/- melanoma model, we demonstrated that triple therapy promoted durable tumor control through tumor-intrinsic mechanisms and promoted immunogenic cell death and T-cell infiltration. Despite this, tumors treated with triple therapy were unresponsive to immune checkpoint blockade (ICB). Flow cytometric and single-cell RNA sequencing analyses of tumor-infiltrating immune populations revealed that triple therapy markedly depleted proinflammatory macrophages and cross-priming CD103+ dendritic cells, the absence of which correlated with poor overall survival and clinical responses to ICB in patients with melanoma. Indeed, immune populations isolated from tumors of mice treated with triple therapy failed to stimulate T-cell responses ex vivo. While combined BRAF, MEK, and CDK4/6 inhibition demonstrates favorable tumor-intrinsic activity, these data suggest that collateral effects on tumor-infiltrating myeloid populations may impact antitumor immunity. These findings have important implications for the design of combination strategies and clinical trials that incorporate BRAF, MEK, and CDK4/6 inhibition with immunotherapy for the treatment of patients with melanoma.",

author = "Lelliott, {Emily J.} and Stefano Mangiola and Ramsbottom, {Kelly M.} and Magnus Zethoven and Lydia Lim and Lau, {Peter K.H.} and Oliver, {Amanda J.} and Martelotto, {Luciano G.} and Laura Kirby and Claire Martin and Patel, {Riyaben P.} and Alison Slater and Carleen Cullinane and Papenfuss, {Anthony T.} and Haynes, {Nicole M.} and McArthur, {Grant A.} and Jane Oliaro and Sheppard, {Karen E.}",

note = "Funding Information: P.K.H. Lau reports personal fees from Pfizer (honoraria) outside the submitted work. G.A. McArthur reports grants from National Health and Medical Research Council during the conduct of the study, as well as other from Roche/Genentech (clinical trial reimbursement of costs) and Array/Pfizer (clinical trial reimbursement of costs) outside the submitted work. K.E. Sheppard reports grants from National Health and Medical Research Council and nonfinancial support from Pfizer Oncology (supply of palbociclib) during the conduct of the study, as well as nonfinancial support from GlaxoSmithKline (supply of therapeutics not used in this study) outside the submitted work. No disclosures were reported by the other authors. Funding Information: This work was supported by National Health and Medical Research Council project grants to G.A. McArthur and K.E. Sheppard (1100189) and J. Oliaro (1139626); a National Breast Cancer Foundation grant to J. Oliaro (IIRS-18-151); Peter Mac Postgraduate Scholarship, Melbourne University Research Scholarship (58616), and Cancer Therapeutics CRC PhD Top Up Scholarship to E.J. Lelliott; and Pfizer Oncology. Publisher Copyright: {\textcopyright} 2020 American Association for Cancer Research.",

year = "2021",

month = feb,

day = "1",

doi = "10.1158/2326-6066.CIR-20-0401",

language = "English",

volume = "9",

pages = "136--146",

journal = "Cancer Immunology Research",

issn = "2326-6066",

publisher = "American Association for Cancer Research Inc.",

number = "2",

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Lelliott, EJ, Mangiola, S, Ramsbottom, KM, Zethoven, M, Lim, L, Lau, PKH, Oliver, AJ, Martelotto, LG, Kirby, L, Martin, C, Patel, RP, Slater, A, Cullinane, C, Papenfuss, AT, Haynes, NM, McArthur, GA, Oliaro, J & Sheppard, KE 2021, 'Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma', Cancer Immunology Research, vol. 9, no. 2, pp. 136-146. https://doi.org/10.1158/2326-6066.CIR-20-0401

TY - JOUR

T1 - Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma

AU - Lelliott, Emily J.

AU - Mangiola, Stefano

AU - Ramsbottom, Kelly M.

AU - Zethoven, Magnus

AU - Lim, Lydia

AU - Lau, Peter K.H.

AU - Oliver, Amanda J.

AU - Martelotto, Luciano G.

AU - Kirby, Laura

AU - Martin, Claire

AU - Patel, Riyaben P.

AU - Slater, Alison

AU - Cullinane, Carleen

AU - Papenfuss, Anthony T.

AU - Haynes, Nicole M.

AU - McArthur, Grant A.

AU - Oliaro, Jane

AU - Sheppard, Karen E.

N1 - Funding Information: P.K.H. Lau reports personal fees from Pfizer (honoraria) outside the submitted work. G.A. McArthur reports grants from National Health and Medical Research Council during the conduct of the study, as well as other from Roche/Genentech (clinical trial reimbursement of costs) and Array/Pfizer (clinical trial reimbursement of costs) outside the submitted work. K.E. Sheppard reports grants from National Health and Medical Research Council and nonfinancial support from Pfizer Oncology (supply of palbociclib) during the conduct of the study, as well as nonfinancial support from GlaxoSmithKline (supply of therapeutics not used in this study) outside the submitted work. No disclosures were reported by the other authors. Funding Information: This work was supported by National Health and Medical Research Council project grants to G.A. McArthur and K.E. Sheppard (1100189) and J. Oliaro (1139626); a National Breast Cancer Foundation grant to J. Oliaro (IIRS-18-151); Peter Mac Postgraduate Scholarship, Melbourne University Research Scholarship (58616), and Cancer Therapeutics CRC PhD Top Up Scholarship to E.J. Lelliott; and Pfizer Oncology. Publisher Copyright: © 2020 American Association for Cancer Research.

PY - 2021/2/1

Y1 - 2021/2/1

N2 - Combined inhibition of BRAF, MEK, and CDK4/6 is currently under evaluation in clinical trials for patients with melanoma harboring a BRAFV600 mutation. While this triple therapy has potent tumor-intrinsic effects, the impact of this combination on antitumor immunity remains unexplored. Here, using a syngeneic BrafV600ECdkn2a-/-Pten-/- melanoma model, we demonstrated that triple therapy promoted durable tumor control through tumor-intrinsic mechanisms and promoted immunogenic cell death and T-cell infiltration. Despite this, tumors treated with triple therapy were unresponsive to immune checkpoint blockade (ICB). Flow cytometric and single-cell RNA sequencing analyses of tumor-infiltrating immune populations revealed that triple therapy markedly depleted proinflammatory macrophages and cross-priming CD103+ dendritic cells, the absence of which correlated with poor overall survival and clinical responses to ICB in patients with melanoma. Indeed, immune populations isolated from tumors of mice treated with triple therapy failed to stimulate T-cell responses ex vivo. While combined BRAF, MEK, and CDK4/6 inhibition demonstrates favorable tumor-intrinsic activity, these data suggest that collateral effects on tumor-infiltrating myeloid populations may impact antitumor immunity. These findings have important implications for the design of combination strategies and clinical trials that incorporate BRAF, MEK, and CDK4/6 inhibition with immunotherapy for the treatment of patients with melanoma.

AB - Combined inhibition of BRAF, MEK, and CDK4/6 is currently under evaluation in clinical trials for patients with melanoma harboring a BRAFV600 mutation. While this triple therapy has potent tumor-intrinsic effects, the impact of this combination on antitumor immunity remains unexplored. Here, using a syngeneic BrafV600ECdkn2a-/-Pten-/- melanoma model, we demonstrated that triple therapy promoted durable tumor control through tumor-intrinsic mechanisms and promoted immunogenic cell death and T-cell infiltration. Despite this, tumors treated with triple therapy were unresponsive to immune checkpoint blockade (ICB). Flow cytometric and single-cell RNA sequencing analyses of tumor-infiltrating immune populations revealed that triple therapy markedly depleted proinflammatory macrophages and cross-priming CD103+ dendritic cells, the absence of which correlated with poor overall survival and clinical responses to ICB in patients with melanoma. Indeed, immune populations isolated from tumors of mice treated with triple therapy failed to stimulate T-cell responses ex vivo. While combined BRAF, MEK, and CDK4/6 inhibition demonstrates favorable tumor-intrinsic activity, these data suggest that collateral effects on tumor-infiltrating myeloid populations may impact antitumor immunity. These findings have important implications for the design of combination strategies and clinical trials that incorporate BRAF, MEK, and CDK4/6 inhibition with immunotherapy for the treatment of patients with melanoma.

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U2 - 10.1158/2326-6066.CIR-20-0401

DO - 10.1158/2326-6066.CIR-20-0401

M3 - Article

C2 - 33303574

SN - 2326-6066

VL - 9

SP - 136

EP - 146

JO - Cancer Immunology Research

JF - Cancer Immunology Research

IS - 2

ER -

Combined BRAF, MEK, and CDK4/6 inhibition depletes intratumoral immune-potentiating myeloid populations in Melanoma

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