Author
Listed:
- Alexander L. Ling
(Brigham and Women’s Hospital)
- Isaac H. Solomon
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Ana Montalvo Landivar
(Brigham and Women’s Hospital)
- Hiroshi Nakashima
(Brigham and Women’s Hospital)
- Jared K. Woods
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Andres Santos
(Brigham and Women’s Hospital
Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Nafisa Masud
(Brigham and Women’s Hospital)
- Geoffrey Fell
(Dana-Farber Cancer Institute)
- Xiaokui Mo
(The Ohio State University
The Ohio State University)
- Ayse S. Yilmaz
(The Ohio State University
The Ohio State University)
- James Grant
(Brigham and Women’s Hospital)
- Abigail Zhang
(Brigham and Women’s Hospital)
- Joshua D. Bernstock
(Brigham and Women’s Hospital)
- Erickson Torio
(Brigham and Women’s Hospital)
- Hirotaka Ito
(Brigham and Women’s Hospital)
- Junfeng Liu
(Brigham and Women’s Hospital)
- Naoyuki Shono
(Brigham and Women’s Hospital)
- Michal O. Nowicki
(Brigham and Women’s Hospital)
- Daniel Triggs
(Brigham and Women’s Hospital)
- Patrick Halloran
(Brigham and Women’s Hospital)
- Raziye Piranlioglu
(Brigham and Women’s Hospital)
- Himanshu Soni
(Brigham and Women’s Hospital)
- Brittany Stopa
(Brigham and Women’s Hospital)
- Wenya Linda Bi
(Brigham and Women’s Hospital)
- Pierpaolo Peruzzi
(Brigham and Women’s Hospital)
- Ethan Chen
(Brigham and Women’s Hospital)
- Seth W. Malinowski
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Michael C. Prabhu
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Yu Zeng
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- Anne Carlisle
(Dana-Farber Cancer Institute)
- Scott J. Rodig
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute
Dana-Farber Cancer Institute)
- Patrick Y. Wen
(Dana-Farber Cancer Institute)
- Eudocia Quant Lee
(Dana-Farber Cancer Institute)
- Lakshmi Nayak
(Dana-Farber Cancer Institute)
- Ugonma Chukwueke
(Dana-Farber Cancer Institute)
- L. Nicolas Gonzalez Castro
(Dana-Farber Cancer Institute
Brigham and Women’s Hospital)
- Sydney D. Dumont
(Massachusetts General Hospital
Broad Institute of MIT and Harvard)
- Tracy Batchelor
(Brigham and Women’s Hospital)
- Kara Kittelberger
(ClearPoint Neuro)
- Ekaterina Tikhonova
(BostonGene)
- Natalia Miheecheva
(BostonGene)
- Dmitry Tabakov
(BostonGene)
- Nara Shin
(BostonGene)
- Alisa Gorbacheva
(BostonGene)
- Artemy Shumskiy
(BostonGene)
- Felix Frenkel
(BostonGene)
- Estuardo Aguilar-Cordova
(Candel Therapeutics)
- Laura K. Aguilar
(Candel Therapeutics)
- David Krisky
(Candel Therapeutics)
- James Wechuck
(Candel Therapeutics)
- Andrea Manzanera
(Candel Therapeutics)
- Chris Matheny
(Candel Therapeutics)
- Paul P. Tak
(Candel Therapeutics)
- Francesca Barone
(Candel Therapeutics)
- Daniel Kovarsky
(Weizmann Institute of Medical Sciences)
- Itay Tirosh
(Weizmann Institute of Medical Sciences)
- Mario L. Suvà
(Massachusetts General Hospital
Broad Institute of MIT and Harvard)
- Kai W. Wucherpfennig
(Dana Farber Cancer Institute)
- Keith Ligon
(Brigham and Women’s Hospital
Dana-Farber Cancer Institute)
- David A. Reardon
(Dana-Farber Cancer Institute)
- E. Antonio Chiocca
(Brigham and Women’s Hospital)
Abstract
Immunotherapy failures can result from the highly suppressive tumour microenvironment that characterizes aggressive forms of cancer such as recurrent glioblastoma (rGBM)1,2. Here we report the results of a first-in-human phase I trial in 41 patients with rGBM who were injected with CAN-3110—an oncolytic herpes virus (oHSV)3. In contrast to other clinical oHSVs, CAN-3110 retains the viral neurovirulence ICP34.5 gene transcribed by a nestin promoter; nestin is overexpressed in GBM and other invasive tumours, but not in the adult brain or healthy differentiated tissue4. These modifications confer CAN-3110 with preferential tumour replication. No dose-limiting toxicities were encountered. Positive HSV1 serology was significantly associated with both improved survival and clearance of CAN-3110 from injected tumours. Survival after treatment, particularly in individuals seropositive for HSV1, was significantly associated with (1) changes in tumour/PBMC T cell counts and clonal diversity, (2) peripheral expansion/contraction of specific T cell clonotypes; and (3) tumour transcriptomic signatures of immune activation. These results provide human validation that intralesional oHSV treatment enhances anticancer immune responses even in immunosuppressive tumour microenvironments, particularly in individuals with cognate serology to the injected virus. This provides a biological rationale for use of this oncolytic modality in cancers that are otherwise unresponsive to immunotherapy (ClinicalTrials.gov: NCT03152318 ).
Suggested Citation
Alexander L. Ling & Isaac H. Solomon & Ana Montalvo Landivar & Hiroshi Nakashima & Jared K. Woods & Andres Santos & Nafisa Masud & Geoffrey Fell & Xiaokui Mo & Ayse S. Yilmaz & James Grant & Abigail Z, 2023.
"Clinical trial links oncolytic immunoactivation to survival in glioblastoma,"
Nature, Nature, vol. 623(7985), pages 157-166, November.
Handle:
RePEc:nat:nature:v:623:y:2023:i:7985:d:10.1038_s41586-023-06623-2
DOI: 10.1038/s41586-023-06623-2
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