Author
Listed:
- Julia Boshuizen
(Oncode Institute, The Netherlands Cancer Institute)
- David W. Vredevoogd
(Oncode Institute, The Netherlands Cancer Institute)
- Oscar Krijgsman
(Oncode Institute, The Netherlands Cancer Institute)
- Maarten A. Ligtenberg
(Oncode Institute, The Netherlands Cancer Institute)
- Stephanie Blankenstein
(The Netherlands Cancer Institute)
- Beaunelle Bruijn
(Oncode Institute, The Netherlands Cancer Institute)
- Dennie T. Frederick
(Massachusetts General Hospital)
- Juliana C. N. Kenski
(Oncode Institute, The Netherlands Cancer Institute)
- Mara Parren
(Oncode Institute, The Netherlands Cancer Institute)
- Marieke Brüggemann
(Oncode Institute, The Netherlands Cancer Institute)
- Max F. Madu
(The Netherlands Cancer Institute)
- Elisa A. Rozeman
(Oncode Institute, The Netherlands Cancer Institute)
- Ji-Ying Song
(The Netherlands Cancer Institute)
- Hugo M. Horlings
(The Netherlands Cancer Institute)
- Christian U. Blank
(Oncode Institute, The Netherlands Cancer Institute)
- Alexander C. J. Akkooi
(The Netherlands Cancer Institute)
- Keith T. Flaherty
(Massachusetts General Hospital)
- Genevieve M. Boland
(Massachusetts General Hospital)
- Daniel S. Peeper
(Oncode Institute, The Netherlands Cancer Institute)
Abstract
Melanomas can switch to a dedifferentiated cell state upon exposure to cytotoxic T cells. However, it is unclear whether such tumor cells pre-exist in patients and whether they can be resensitized to immunotherapy. Here, we chronically expose (patient-derived) melanoma cell lines to differentiation antigen-specific cytotoxic T cells and observe strong enrichment of a pre-existing NGFRhi population. These fractions are refractory also to T cells recognizing non-differentiation antigens, as well as to BRAF + MEK inhibitors. NGFRhi cells induce the neurotrophic factor BDNF, which contributes to T cell resistance, as does NGFR. In melanoma patients, a tumor-intrinsic NGFR signature predicts anti-PD-1 therapy resistance, and NGFRhi tumor fractions are associated with immune exclusion. Lastly, pharmacologic NGFR inhibition restores tumor sensitivity to T cell attack in vitro and in melanoma xenografts. These findings demonstrate the existence of a stable and pre-existing NGFRhi multitherapy-refractory melanoma subpopulation, which ought to be eliminated to revert intrinsic resistance to immunotherapeutic intervention.
Suggested Citation
Julia Boshuizen & David W. Vredevoogd & Oscar Krijgsman & Maarten A. Ligtenberg & Stephanie Blankenstein & Beaunelle Bruijn & Dennie T. Frederick & Juliana C. N. Kenski & Mara Parren & Marieke Brüggem, 2020.
"Reversal of pre-existing NGFR-driven tumor and immune therapy resistance,"
Nature Communications, Nature, vol. 11(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17739-8
DOI: 10.1038/s41467-020-17739-8
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Citations
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Cited by:
- Su Yin Lim & Elena Shklovskaya & Jenny H. Lee & Bernadette Pedersen & Ashleigh Stewart & Zizhen Ming & Mal Irvine & Brindha Shivalingam & Robyn P. M. Saw & Alexander M. Menzies & Matteo S. Carlino & R, 2023.
"The molecular and functional landscape of resistance to immune checkpoint blockade in melanoma,"
Nature Communications, Nature, vol. 14(1), pages 1-18, December.
- Josefine Radke & Elisa Schumann & Julia Onken & Randi Koll & Güliz Acker & Bohdan Bodnar & Carolin Senger & Sascha Tierling & Markus Möbs & Peter Vajkoczy & Anna Vidal & Sandra Högler & Petra Kodajova, 2022.
"Decoding molecular programs in melanoma brain metastases,"
Nature Communications, Nature, vol. 13(1), pages 1-24, December.
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