Author
Listed:
- Guangchun Han
(The University of Texas MD Anderson Cancer Center)
- Guoliang Yang
(The University of Texas MD Anderson Cancer Center)
- Dapeng Hao
(The University of Texas MD Anderson Cancer Center)
- Yang Lu
(The University of Texas MD Anderson Cancer Center)
- Kyaw Thein
(The University of Texas MD Anderson Cancer Center)
- Benjamin S. Simpson
(University College London Cancer Institute)
- Jianfeng Chen
(The University of Texas MD Anderson Cancer Center)
- Ryan Sun
(The University of Texas MD Anderson Cancer Center)
- Omar Alhalabi
(The University of Texas MD Anderson Cancer Center)
- Ruiping Wang
(The University of Texas MD Anderson Cancer Center)
- Minghao Dang
(The University of Texas MD Anderson Cancer Center)
- Enyu Dai
(The University of Texas MD Anderson Cancer Center)
- Shaojun Zhang
(The University of Texas MD Anderson Cancer Center)
- Fengqi Nie
(The University of Texas MD Anderson Cancer Center)
- Shuangtao Zhao
(The University of Texas MD Anderson Cancer Center)
- Charles Guo
(The University of Texas MD Anderson Cancer Center)
- Ameer Hamza
(The University of Texas MD Anderson Cancer Center)
- Bogdan Czerniak
(The University of Texas MD Anderson Cancer Center)
- Chao Cheng
(Epidemiology and Population Science, Baylor College of Medicine)
- Arlene Siefker-Radtke
(The University of Texas MD Anderson Cancer Center)
- Krishna Bhat
(The University of Texas MD Anderson Cancer Center)
- Andrew Futreal
(The University of Texas MD Anderson Cancer Center)
- Guang Peng
(The University of Texas MD Anderson Cancer Center)
- Jennifer Wargo
(The University of Texas MD Anderson Cancer Center)
- Weiyi Peng
(University of Houston)
- Humam Kadara
(The University of Texas MD Anderson Cancer Center)
- Jaffer Ajani
(The University of Texas MD Anderson Cancer Center)
- Charles Swanton
(The Francis Crick Institute
University College London Cancer Institute)
- Kevin Litchfield
(University College London Cancer Institute
University College London Cancer Institute)
- Jordi Rodon Ahnert
(The University of Texas MD Anderson Cancer Center
The University of Texas MD Anderson Cancer Center)
- Jianjun Gao
(The University of Texas MD Anderson Cancer Center)
- Linghua Wang
(The University of Texas MD Anderson Cancer Center
The University of Texas MD Anderson Cancer Center UTHealth Graduate School of Biomedical Sciences (GSBS))
Abstract
Immune checkpoint therapy (ICT) provides substantial clinical benefits to cancer patients, but a large proportion of cancers do not respond to ICT. To date, the genomic underpinnings of primary resistance to ICT remain elusive. Here, we performed immunogenomic analysis of data from TCGA and clinical trials of anti-PD-1/PD-L1 therapy, with a particular focus on homozygous deletion of 9p21.3 (9p21 loss), one of the most frequent genomic defects occurring in ~13% of all cancers. We demonstrate that 9p21 loss confers “cold” tumor-immune phenotypes, characterized by reduced abundance of tumor-infiltrating leukocytes (TILs), particularly, T/B/NK cells, altered spatial TILs patterns, diminished immune cell trafficking/activation, decreased rate of PD-L1 positivity, along with activation of immunosuppressive signaling. Notably, patients with 9p21 loss exhibited significantly lower response rates to ICT and worse outcomes, which were corroborated in eight ICT trials of >1,000 patients. Further, 9p21 loss synergizes with PD-L1/TMB for patient stratification. A “response score” was derived by incorporating 9p21 loss, PD-L1 expression and TMB levels in pre-treatment tumors, which outperforms PD-L1, TMB, and their combination in identifying patients with high likelihood of achieving sustained response from otherwise non-responders. Moreover, we describe potential druggable targets in 9p21-loss tumors, which could be exploited to design rational therapeutic interventions.
Suggested Citation
Guangchun Han & Guoliang Yang & Dapeng Hao & Yang Lu & Kyaw Thein & Benjamin S. Simpson & Jianfeng Chen & Ryan Sun & Omar Alhalabi & Ruiping Wang & Minghao Dang & Enyu Dai & Shaojun Zhang & Fengqi Nie, 2021.
"9p21 loss confers a cold tumor immune microenvironment and primary resistance to immune checkpoint therapy,"
Nature Communications, Nature, vol. 12(1), pages 1-19, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25894-9
DOI: 10.1038/s41467-021-25894-9
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Cited by:
- Maria Pouyiourou & Bianca N. Kraft & Timothy Wohlfromm & Michael Stahl & Boris Kubuschok & Harald Löffler & Ulrich T. Hacker & Gerdt Hübner & Lena Weiss & Michael Bitzer & Thomas Ernst & Philipp Schüt, 2023.
"Nivolumab and ipilimumab in recurrent or refractory cancer of unknown primary: a phase II trial,"
Nature Communications, Nature, vol. 14(1), pages 1-21, December.
- Omar Alhalabi & Jianfeng Chen & Yuxue Zhang & Yang Lu & Qi Wang & Sumankalai Ramachandran & Rebecca Slack Tidwell & Guangchun Han & Xinmiao Yan & Jieru Meng & Ruiping Wang & Anh G. Hoang & Wei-Lien Wa, 2022.
"MTAP deficiency creates an exploitable target for antifolate therapy in 9p21-loss cancers,"
Nature Communications, Nature, vol. 13(1), pages 1-12, December.
- Lingzhi Hong & Muhammad Aminu & Shenduo Li & Xuetao Lu & Milena Petranovic & Maliazurina B. Saad & Pingjun Chen & Kang Qin & Susan Varghese & Waree Rinsurongkawong & Vadeerat Rinsurongkawong & Amy Spe, 2023.
"Efficacy and clinicogenomic correlates of response to immune checkpoint inhibitors alone or with chemotherapy in non-small cell lung cancer,"
Nature Communications, Nature, vol. 14(1), pages 1-15, December.
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