TY - JOUR
T1 - Immune checkpoint inhibition for hypermutant glioblastoma multiforme resulting from germline biallelic mismatch repair deficiency
AU - Bouffet, Eric
AU - Larouche, Valérie
AU - Campbell, Brittany B.
AU - Merico, Daniele
AU - De Borja, Richard
AU - Aronson, Melyssa
AU - Durn, Carol
AU - Krueger, Joerg
AU - Cabric, Vanja
AU - Ramaswamy, Vijay
AU - Zhukova, Nataliya
AU - Mason, Gary
AU - Farah, Roula
AU - Afzal, Samina
AU - Yalon, Michal
AU - Rechavi, Gideon
AU - Magimairajan, Vanan
AU - Walsh, Michael F.
AU - Constantini, Shlomi
AU - Dvir, Rina
AU - Elhasid, Ronit
AU - Reddy, Alyssa
AU - Osborn, Michael
AU - Sullivan, Michael
AU - Hansford, Jordan
AU - Dodgshun, Andrew
AU - Klauber-Demore, Nancy
AU - Peterson, Lindsay
AU - Patel, Sunil
AU - Lindhorst, Scott
AU - Atkinson, Jeffrey
AU - Cohen, Zane
AU - Laframboise, Rachel
AU - Dirks, Peter
AU - Taylor, Michael
AU - Malkin, David
AU - Albrecht, Steffen
AU - Dudley, Roy W.R.
AU - Jabado, Nada
AU - Hawkins, Cynthia E.
AU - Shlien, Adam
AU - Tabori, Uri
N1 - Publisher Copyright:
© 2016 by American Society of Clinical Oncology.
PY - 2016/7/1
Y1 - 2016/7/1
N2 - Purpose Recurrent glioblastoma multiforme (GBM) is incurable with current therapies. Biallelic mismatch repair deficiency (bMMRD) is a highly penetrant childhood cancer syndrome often resulting in GBM characterized by a high mutational burden. Evidence suggests that high mutation and neoantigen loads are associated with response to immune checkpoint inhibition. Patients and Methods We performed exome sequencing and neoantigen prediction on 37 bMMRD cancers and compared them with childhood and adult brain neoplasms. Neoantigen prediction bMMRD GBM was compared with responsive adult cancers from multiple tissues. Two siblings with recurrent multifocal bMMRD GBM were treated with the immune checkpoint inhibitor nivolumab. Results All malignant tumors (n = 32) were hypermutant. Although bMMRD brain tumors had the highest mutational load because of secondary polymerase mutations (mean, 17,740 6 standard deviation, 7,703), all other high-grade tumors were hypermutant (mean, 1,589 6 standard deviation, 1,043), similar to other cancers that responded favorably to immune checkpoint inhibitors. bMMRD GBM had a significantly higher mutational load than sporadic pediatric and adult gliomas and all other brain tumors (P , .001). bMMRD GBM harbored mean neoantigen loads seven to 16 times higher than those in immunoresponsive melanomas, lung cancers, or microsatellite-unstable GI cancers (P , .001). On the basis of these preclinical data, we treated two bMMRD siblings with recurrent multifocal GBM with the anti-programmed death-1 inhibitor nivolumab, which resulted in clinically significant responses and a profound radiologic response. Conclusion This report of initial and durable responses of recurrent GBM to immune checkpoint inhibition may have implications for GBM in general and other hypermutant cancers arising from primary (genetic predisposition) or secondary MMRD.
AB - Purpose Recurrent glioblastoma multiforme (GBM) is incurable with current therapies. Biallelic mismatch repair deficiency (bMMRD) is a highly penetrant childhood cancer syndrome often resulting in GBM characterized by a high mutational burden. Evidence suggests that high mutation and neoantigen loads are associated with response to immune checkpoint inhibition. Patients and Methods We performed exome sequencing and neoantigen prediction on 37 bMMRD cancers and compared them with childhood and adult brain neoplasms. Neoantigen prediction bMMRD GBM was compared with responsive adult cancers from multiple tissues. Two siblings with recurrent multifocal bMMRD GBM were treated with the immune checkpoint inhibitor nivolumab. Results All malignant tumors (n = 32) were hypermutant. Although bMMRD brain tumors had the highest mutational load because of secondary polymerase mutations (mean, 17,740 6 standard deviation, 7,703), all other high-grade tumors were hypermutant (mean, 1,589 6 standard deviation, 1,043), similar to other cancers that responded favorably to immune checkpoint inhibitors. bMMRD GBM had a significantly higher mutational load than sporadic pediatric and adult gliomas and all other brain tumors (P , .001). bMMRD GBM harbored mean neoantigen loads seven to 16 times higher than those in immunoresponsive melanomas, lung cancers, or microsatellite-unstable GI cancers (P , .001). On the basis of these preclinical data, we treated two bMMRD siblings with recurrent multifocal GBM with the anti-programmed death-1 inhibitor nivolumab, which resulted in clinically significant responses and a profound radiologic response. Conclusion This report of initial and durable responses of recurrent GBM to immune checkpoint inhibition may have implications for GBM in general and other hypermutant cancers arising from primary (genetic predisposition) or secondary MMRD.
UR - http://www.scopus.com/inward/record.url?scp=84976467739&partnerID=8YFLogxK
U2 - 10.1200/JCO.2016.66.6552
DO - 10.1200/JCO.2016.66.6552
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AN - SCOPUS:84976467739
SN - 0732-183X
VL - 34
SP - 2206
EP - 2211
JO - Journal of Clinical Oncology
JF - Journal of Clinical Oncology
IS - 19
ER -