Author
Listed:
- Gaetana Restivo
(University of Zürich, Institute of Anatomy)
- Johanna Diener
(University of Zürich, Institute of Anatomy)
- Phil F. Cheng
(University of Zürich Hospital, Department of Dermatology)
- Gregor Kiowski
(University of Zürich, Institute of Anatomy)
- Mario Bonalli
(University of Zürich, Institute of Anatomy)
- Thomas Biedermann
(University of Zürich Children’s Hospital, Tissue Biology Research Unit)
- Ernst Reichmann
(University of Zürich Hospital, Department of Dermatology)
- Mitchell P. Levesque
(University of Zürich Hospital, Department of Dermatology)
- Reinhard Dummer
(University of Zürich Hospital, Department of Dermatology)
- Lukas Sommer
(University of Zürich, Institute of Anatomy)
Abstract
Cutaneous melanoma represents the most fatal skin cancer due to its high metastatic capacity. According to the “phenotype switching” model, the aggressive nature of melanoma cells results from their intrinsic potential to dynamically switch from a high-proliferative/low-invasive to a low-proliferative/high-invasive state. Here we identify the low affinity neurotrophin receptor CD271 as a key effector of phenotype switching in melanoma. CD271 plays a dual role in this process by decreasing proliferation, while simultaneously promoting invasiveness. Dynamic modification of CD271 expression allows tumor cells to grow at low levels of CD271, to reduce growth and invade when CD271 expression is high, and to re-expand at a distant site upon decrease of CD271 expression. Mechanistically, the cleaved intracellular domain of CD271 controls proliferation, while the interaction of CD271 with the neurotrophin receptor Trk-A modulates cell adhesiveness through dynamic regulation of a set of cholesterol synthesis genes relevant for patient survival.
Suggested Citation
Gaetana Restivo & Johanna Diener & Phil F. Cheng & Gregor Kiowski & Mario Bonalli & Thomas Biedermann & Ernst Reichmann & Mitchell P. Levesque & Reinhard Dummer & Lukas Sommer, 2017.
"The low affinity neurotrophin receptor CD271 regulates phenotype switching in melanoma,"
Nature Communications, Nature, vol. 8(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01573-6
DOI: 10.1038/s41467-017-01573-6
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