Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma

Philip A. Philip; Ibrahim Azar; Joanne Xiu; Michael J. Hall; Andrew Eugene Hendifar; Emil Lou; Jimmy J. Hwang; Jun Gong; Rebecca Feldman; Michelle Ellis; Phil Stafford; David Spetzler; Moh'D M. Khushman; Davendra Sohal; A. Craig Lockhart; Benjamin A. Weinberg; Wafik S. El-Deiry; John Marshall; Anthony F. Shields; W. Michael Korn

doi:10.1158/1078-0432.CCR-21-3581

Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma

Philip A. Philip, Ibrahim Azar, Joanne Xiu, Michael J. Hall, Andrew Eugene Hendifar, Emil Lou, Jimmy J. Hwang, Jun Gong, Rebecca Feldman, Michelle Ellis, Phil Stafford, David Spetzler, Moh'D M. Khushman, Davendra Sohal, A. Craig Lockhart, Benjamin A. Weinberg, Wafik S. El-Deiry, John Marshall, Anthony F. Shields, W. Michael Korn

Medicine - Hematology, Oncology, Transplant

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

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Abstract

Purpose: KRAS mutation (MT) is a major oncogenic driver in pancreatic ductal adenocarcinoma (PDAC). A small subset of PDACs harbor KRAS wild-type (WT). We aim to characterize the molecular profiles of KRAS WT PDAC to uncover new pathogenic drivers and offer targeted treatments. Experimental Design: Tumor tissue obtained from surgical or biopsy material was subjected to next-generation DNA/RNA sequencing, microsatellite instability (MSI) and mismatch repair status determination. Results: Of the 2,483 patients (male 53.7%, median age 66 years) studied, 266 tumors (10.7%) were KRAS WT. The most frequently mutated gene in KRAS WT PDAC was TP53 (44.5%), followed by BRAF (13.0%). Multiple mutations within the DNA-damage repair (BRCA2, ATM, BAP1, RAD50, FANCE, PALB2), chromatin remodeling (ARID1A, PBRM1, ARID2, KMT2D, KMT2C, SMARCA4, SETD2), and cell-cycle control pathways (CDKN2A, CCND1, CCNE1) were detected frequently. There was no statistically significant difference in PD-L1 expression between KRAS WT (15.8%) and MT (17%) tumors. However, KRAS WT PDAC were more likely to be MSI-high (4.7% vs. 0.7%; P < 0.05), tumor mutational burden-high (4.5% vs. 1%; P < 0.05), and exhibit increased infiltration of CD8+ T cells, natural killer cells, and myeloid dendritic cells. KRAS WT PDACs exhibited gene fusions of BRAF (6.6%), FGFR2 (5.2%), ALK (2.6%), RET (1.3%), and NRG1 (1.3%), as well as amplification of FGF3 (3%), ERBB2 (2.2%), FGFR3 (1.8%), NTRK (1.8%), and MET (1.3%). Realworld evidence reveals a survival advantage of KRAS WT patients in overall cohorts as well as in patients treated with gemcitabine/ nab-paclitaxel or 5-FU/oxaliplatin. Conclusions: KRAS WT PDAC represents 10.7% of PDAC and is enriched with targetable alterations, including immunooncologic markers. Identification of KRAS WT patients in clinical practice may expand therapeutic options in a clinically meaningful manner.

Original language	English (US)
Pages (from-to)	2704-2714
Number of pages	11
Journal	Clinical Cancer Research
Volume	28
Issue number	12
DOIs	https://doi.org/10.1158/1078-0432.CCR-21-3581
State	Published - Jun 15 2022

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© 2022 American Association for Cancer Research.

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Philip, P. A., Azar, I., Xiu, J., Hall, M. J., Hendifar, A. E., Lou, E., Hwang, J. J., Gong, J., Feldman, R., Ellis, M., Stafford, P., Spetzler, D., Khushman, MD. M., Sohal, D., Lockhart, A. C., Weinberg, B. A., El-Deiry, W. S., Marshall, J., Shields, A. F., & Korn, W. M. (2022). Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma. Clinical Cancer Research, 28(12), 2704-2714. https://doi.org/10.1158/1078-0432.CCR-21-3581

Philip, PA, Azar, I, Xiu, J, Hall, MJ, Hendifar, AE, Lou, E, Hwang, JJ, Gong, J, Feldman, R, Ellis, M, Stafford, P, Spetzler, D, Khushman, MDM, Sohal, D, Lockhart, AC, Weinberg, BA, El-Deiry, WS, Marshall, J, Shields, AF & Korn, WM 2022, 'Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma', Clinical Cancer Research, vol. 28, no. 12, pp. 2704-2714. https://doi.org/10.1158/1078-0432.CCR-21-3581

@article{21eb1eec71bb4ccb9258552b629dbbfe,

title = "Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma",

abstract = "Purpose: KRAS mutation (MT) is a major oncogenic driver in pancreatic ductal adenocarcinoma (PDAC). A small subset of PDACs harbor KRAS wild-type (WT). We aim to characterize the molecular profiles of KRAS WT PDAC to uncover new pathogenic drivers and offer targeted treatments. Experimental Design: Tumor tissue obtained from surgical or biopsy material was subjected to next-generation DNA/RNA sequencing, microsatellite instability (MSI) and mismatch repair status determination. Results: Of the 2,483 patients (male 53.7%, median age 66 years) studied, 266 tumors (10.7%) were KRAS WT. The most frequently mutated gene in KRAS WT PDAC was TP53 (44.5%), followed by BRAF (13.0%). Multiple mutations within the DNA-damage repair (BRCA2, ATM, BAP1, RAD50, FANCE, PALB2), chromatin remodeling (ARID1A, PBRM1, ARID2, KMT2D, KMT2C, SMARCA4, SETD2), and cell-cycle control pathways (CDKN2A, CCND1, CCNE1) were detected frequently. There was no statistically significant difference in PD-L1 expression between KRAS WT (15.8%) and MT (17%) tumors. However, KRAS WT PDAC were more likely to be MSI-high (4.7% vs. 0.7%; P < 0.05), tumor mutational burden-high (4.5% vs. 1%; P < 0.05), and exhibit increased infiltration of CD8+ T cells, natural killer cells, and myeloid dendritic cells. KRAS WT PDACs exhibited gene fusions of BRAF (6.6%), FGFR2 (5.2%), ALK (2.6%), RET (1.3%), and NRG1 (1.3%), as well as amplification of FGF3 (3%), ERBB2 (2.2%), FGFR3 (1.8%), NTRK (1.8%), and MET (1.3%). Realworld evidence reveals a survival advantage of KRAS WT patients in overall cohorts as well as in patients treated with gemcitabine/ nab-paclitaxel or 5-FU/oxaliplatin. Conclusions: KRAS WT PDAC represents 10.7% of PDAC and is enriched with targetable alterations, including immunooncologic markers. Identification of KRAS WT patients in clinical practice may expand therapeutic options in a clinically meaningful manner.",

author = "Philip, {Philip A.} and Ibrahim Azar and Joanne Xiu and Hall, {Michael J.} and Hendifar, {Andrew Eugene} and Emil Lou and Hwang, {Jimmy J.} and Jun Gong and Rebecca Feldman and Michelle Ellis and Phil Stafford and David Spetzler and Khushman, {Moh'D M.} and Davendra Sohal and Lockhart, {A. Craig} and Weinberg, {Benjamin A.} and El-Deiry, {Wafik S.} and John Marshall and Shields, {Anthony F.} and Korn, {W. Michael}",

note = "Publisher Copyright: {\textcopyright} 2022 American Association for Cancer Research.",

year = "2022",

month = jun,

day = "15",

doi = "10.1158/1078-0432.CCR-21-3581",

language = "English (US)",

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pages = "2704--2714",

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TY - JOUR

T1 - Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma

AU - Philip, Philip A.

AU - Azar, Ibrahim

AU - Xiu, Joanne

AU - Hall, Michael J.

AU - Hendifar, Andrew Eugene

AU - Lou, Emil

AU - Hwang, Jimmy J.

AU - Gong, Jun

AU - Feldman, Rebecca

AU - Ellis, Michelle

AU - Stafford, Phil

AU - Spetzler, David

AU - Khushman, Moh'D M.

AU - Sohal, Davendra

AU - Lockhart, A. Craig

AU - Weinberg, Benjamin A.

AU - El-Deiry, Wafik S.

AU - Marshall, John

AU - Shields, Anthony F.

AU - Korn, W. Michael

PY - 2022/6/15

Y1 - 2022/6/15

N2 - Purpose: KRAS mutation (MT) is a major oncogenic driver in pancreatic ductal adenocarcinoma (PDAC). A small subset of PDACs harbor KRAS wild-type (WT). We aim to characterize the molecular profiles of KRAS WT PDAC to uncover new pathogenic drivers and offer targeted treatments. Experimental Design: Tumor tissue obtained from surgical or biopsy material was subjected to next-generation DNA/RNA sequencing, microsatellite instability (MSI) and mismatch repair status determination. Results: Of the 2,483 patients (male 53.7%, median age 66 years) studied, 266 tumors (10.7%) were KRAS WT. The most frequently mutated gene in KRAS WT PDAC was TP53 (44.5%), followed by BRAF (13.0%). Multiple mutations within the DNA-damage repair (BRCA2, ATM, BAP1, RAD50, FANCE, PALB2), chromatin remodeling (ARID1A, PBRM1, ARID2, KMT2D, KMT2C, SMARCA4, SETD2), and cell-cycle control pathways (CDKN2A, CCND1, CCNE1) were detected frequently. There was no statistically significant difference in PD-L1 expression between KRAS WT (15.8%) and MT (17%) tumors. However, KRAS WT PDAC were more likely to be MSI-high (4.7% vs. 0.7%; P < 0.05), tumor mutational burden-high (4.5% vs. 1%; P < 0.05), and exhibit increased infiltration of CD8+ T cells, natural killer cells, and myeloid dendritic cells. KRAS WT PDACs exhibited gene fusions of BRAF (6.6%), FGFR2 (5.2%), ALK (2.6%), RET (1.3%), and NRG1 (1.3%), as well as amplification of FGF3 (3%), ERBB2 (2.2%), FGFR3 (1.8%), NTRK (1.8%), and MET (1.3%). Realworld evidence reveals a survival advantage of KRAS WT patients in overall cohorts as well as in patients treated with gemcitabine/ nab-paclitaxel or 5-FU/oxaliplatin. Conclusions: KRAS WT PDAC represents 10.7% of PDAC and is enriched with targetable alterations, including immunooncologic markers. Identification of KRAS WT patients in clinical practice may expand therapeutic options in a clinically meaningful manner.

AB - Purpose: KRAS mutation (MT) is a major oncogenic driver in pancreatic ductal adenocarcinoma (PDAC). A small subset of PDACs harbor KRAS wild-type (WT). We aim to characterize the molecular profiles of KRAS WT PDAC to uncover new pathogenic drivers and offer targeted treatments. Experimental Design: Tumor tissue obtained from surgical or biopsy material was subjected to next-generation DNA/RNA sequencing, microsatellite instability (MSI) and mismatch repair status determination. Results: Of the 2,483 patients (male 53.7%, median age 66 years) studied, 266 tumors (10.7%) were KRAS WT. The most frequently mutated gene in KRAS WT PDAC was TP53 (44.5%), followed by BRAF (13.0%). Multiple mutations within the DNA-damage repair (BRCA2, ATM, BAP1, RAD50, FANCE, PALB2), chromatin remodeling (ARID1A, PBRM1, ARID2, KMT2D, KMT2C, SMARCA4, SETD2), and cell-cycle control pathways (CDKN2A, CCND1, CCNE1) were detected frequently. There was no statistically significant difference in PD-L1 expression between KRAS WT (15.8%) and MT (17%) tumors. However, KRAS WT PDAC were more likely to be MSI-high (4.7% vs. 0.7%; P < 0.05), tumor mutational burden-high (4.5% vs. 1%; P < 0.05), and exhibit increased infiltration of CD8+ T cells, natural killer cells, and myeloid dendritic cells. KRAS WT PDACs exhibited gene fusions of BRAF (6.6%), FGFR2 (5.2%), ALK (2.6%), RET (1.3%), and NRG1 (1.3%), as well as amplification of FGF3 (3%), ERBB2 (2.2%), FGFR3 (1.8%), NTRK (1.8%), and MET (1.3%). Realworld evidence reveals a survival advantage of KRAS WT patients in overall cohorts as well as in patients treated with gemcitabine/ nab-paclitaxel or 5-FU/oxaliplatin. Conclusions: KRAS WT PDAC represents 10.7% of PDAC and is enriched with targetable alterations, including immunooncologic markers. Identification of KRAS WT patients in clinical practice may expand therapeutic options in a clinically meaningful manner.

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U2 - 10.1158/1078-0432.CCR-21-3581

DO - 10.1158/1078-0432.CCR-21-3581

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AN - SCOPUS:85131903186

SN - 1078-0432

VL - 28

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JO - Clinical Cancer Research

JF - Clinical Cancer Research

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ER -

Molecular Characterization of KRAS Wild-type Tumors in Patients with Pancreatic Adenocarcinoma

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