Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation

Marco Gaviraghi; Andrea Rabellino; Annapaola Andolfo; Matthias Brand; Chiara Brombin; Paola Bagnato; Giuseppina De Feudis; Andrea Raimondi; Alberta Locatelli; Daniela Tosoni; Davide Mazza; Luca Gianni; Giovanni Tonon; Yosef Yarden; Carlo Tacchetti; Tiziana Daniele

doi:10.1038/s41598-020-73835-1

Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation

Marco Gaviraghi, Andrea Rabellino, Annapaola Andolfo, Matthias Brand, Chiara Brombin, Paola Bagnato, Giuseppina De Feudis, Andrea Raimondi, Alberta Locatelli, Daniela Tosoni, Davide Mazza, Luca Gianni, Giovanni Tonon, Yosef Yarden, Carlo Tacchetti, Tiziana Daniele

Department of Immunology and Regenerative Biology

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

ERBB2 is a ligand-less tyrosine kinase receptor expressed at very low levels in normal tissues; when overexpressed, it is involved in malignant transformation and tumorigenesis in several carcinomas. In cancer cells, ERBB2 represents the preferred partner of other members of the ERBB receptor family, leading to stronger oncogenic signals, by promoting both ERK and AKT activation. The identification of the specific signaling downstream of ERBB2 has been impaired by the lack of a ligand and of an efficient way to selectively activate the receptor. In this paper, we found that antibodies (Abs) targeting different epitopes on the ERBB2 extracellular domain foster the activation of ERBB2 homodimers, and surprisingly induce a unique cytostatic signaling cascade promoting an ERK-dependent ERBB2-Thr(701) phosphorylation, leading to AKT de-phosphorylation, via PP2A Ser/Thr phosphatases. Furthermore, the immunophilin Cyclophilin A plays a crucial role in this pathway, acting as a negative modulator of AKT de-phosphorylation, possibly by competing with Ser/Thr phosphatases for binding to AKT. Altogether, our data show that Ab recognizing ERBB2 extracellular domain function as receptor agonists, promoting ERBB2 homodimer activation, leading to an anti-proliferative signaling. Thus, the ultimate outcome of ERBB2 activity might depend on the dimerization status: pro-oncogenic in the hetero-, and anti-oncogenic in the homo-dimeric form.

Original language	English
Article number	16906
Number of pages	17
Journal	Scientific Reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-020-73835-1
State	Published Online - 9 Oct 2020

All Science Journal Classification (ASJC) codes

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Gaviraghi, M., Rabellino, A., Andolfo, A., Brand, M., Brombin, C., Bagnato, P., De Feudis, G., Raimondi, A., Locatelli, A., Tosoni, D., Mazza, D., Gianni, L., Tonon, G., Yarden, Y., Tacchetti, C., & Daniele, T. (2020). Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation. Scientific Reports, 10(1), Article 16906. Advance online publication. https://doi.org/10.1038/s41598-020-73835-1

@article{2d6f898f96204c5dad643e24fc6f3260,

title = "Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation",

abstract = "ERBB2 is a ligand-less tyrosine kinase receptor expressed at very low levels in normal tissues; when overexpressed, it is involved in malignant transformation and tumorigenesis in several carcinomas. In cancer cells, ERBB2 represents the preferred partner of other members of the ERBB receptor family, leading to stronger oncogenic signals, by promoting both ERK and AKT activation. The identification of the specific signaling downstream of ERBB2 has been impaired by the lack of a ligand and of an efficient way to selectively activate the receptor. In this paper, we found that antibodies (Abs) targeting different epitopes on the ERBB2 extracellular domain foster the activation of ERBB2 homodimers, and surprisingly induce a unique cytostatic signaling cascade promoting an ERK-dependent ERBB2-Thr(701) phosphorylation, leading to AKT de-phosphorylation, via PP2A Ser/Thr phosphatases. Furthermore, the immunophilin Cyclophilin A plays a crucial role in this pathway, acting as a negative modulator of AKT de-phosphorylation, possibly by competing with Ser/Thr phosphatases for binding to AKT. Altogether, our data show that Ab recognizing ERBB2 extracellular domain function as receptor agonists, promoting ERBB2 homodimer activation, leading to an anti-proliferative signaling. Thus, the ultimate outcome of ERBB2 activity might depend on the dimerization status: pro-oncogenic in the hetero-, and anti-oncogenic in the homo-dimeric form.",

author = "Marco Gaviraghi and Andrea Rabellino and Annapaola Andolfo and Matthias Brand and Chiara Brombin and Paola Bagnato and {De Feudis}, Giuseppina and Andrea Raimondi and Alberta Locatelli and Daniela Tosoni and Davide Mazza and Luca Gianni and Giovanni Tonon and Yosef Yarden and Carlo Tacchetti and Tiziana Daniele",

note = "The authors would like to thank Prof. Pier Paolo Di Fiore for helpful discussion, Prof. Giulio Draetta for helpful suggestions and critical reading of the manuscript, Prof. Paolo Antonelli and Dr. Alessandro Nonis for help with statistical analysis, and Dr. Fabiana Vallone for help with mass spectrometry analyses. Mass spectrometry analyses were performed at ProMiFa (Protein Microsequencing Facility), Ospedale San Raffaele, Milan, Italy. Super-resolution microscopy was carried out in Alembic (Advanced Light and Electron Microscopy BioImaging Center), Ospedale San Raffaele, Milan, Italy. Funding - Financial support from Compagnia San Paolo (grant number 2011.1172 and 2015.0323) to CT, and from AIRC (Associazione Italiana Ricerca sul Cancro, IG number 12035 and 17109) to CT and GT is gratefully acknowledged. Author contributions - Conceived and designed the experiments: T.D., and C.T. Performed the experiments: M.G., A.Rab., A.A., M.B., P.B., G.D.F., A.Rai., D.M., T.D. Analysed and interpreted the data: M.G., M.B., C.B., A.A., D.M., C.T., T.D. Wrote the paper: T.D., C.T. Drafted or revised the article: G.T., L.G., Y.Y. Contributed data or reagents: A.L., D.T., L.G., G.T. Co-last authors: C.T., and T.D. All authors reviewed the manuscript.",

year = "2020",

month = oct,

day = "9",

doi = "10.1038/s41598-020-73835-1",

language = "الإنجليزيّة",

volume = "10",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

number = "1",

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Gaviraghi, M, Rabellino, A, Andolfo, A, Brand, M, Brombin, C, Bagnato, P, De Feudis, G, Raimondi, A, Locatelli, A, Tosoni, D, Mazza, D, Gianni, L, Tonon, G, Yarden, Y, Tacchetti, C & Daniele, T 2020, 'Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation', Scientific Reports, vol. 10, no. 1, 16906. https://doi.org/10.1038/s41598-020-73835-1

TY - JOUR

T1 - Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation

AU - Gaviraghi, Marco

AU - Rabellino, Andrea

AU - Andolfo, Annapaola

AU - Brand, Matthias

AU - Brombin, Chiara

AU - Bagnato, Paola

AU - De Feudis, Giuseppina

AU - Raimondi, Andrea

AU - Locatelli, Alberta

AU - Tosoni, Daniela

AU - Mazza, Davide

AU - Gianni, Luca

AU - Tonon, Giovanni

AU - Yarden, Yosef

AU - Tacchetti, Carlo

AU - Daniele, Tiziana

N1 - The authors would like to thank Prof. Pier Paolo Di Fiore for helpful discussion, Prof. Giulio Draetta for helpful suggestions and critical reading of the manuscript, Prof. Paolo Antonelli and Dr. Alessandro Nonis for help with statistical analysis, and Dr. Fabiana Vallone for help with mass spectrometry analyses. Mass spectrometry analyses were performed at ProMiFa (Protein Microsequencing Facility), Ospedale San Raffaele, Milan, Italy. Super-resolution microscopy was carried out in Alembic (Advanced Light and Electron Microscopy BioImaging Center), Ospedale San Raffaele, Milan, Italy. Funding - Financial support from Compagnia San Paolo (grant number 2011.1172 and 2015.0323) to CT, and from AIRC (Associazione Italiana Ricerca sul Cancro, IG number 12035 and 17109) to CT and GT is gratefully acknowledged. Author contributions - Conceived and designed the experiments: T.D., and C.T. Performed the experiments: M.G., A.Rab., A.A., M.B., P.B., G.D.F., A.Rai., D.M., T.D. Analysed and interpreted the data: M.G., M.B., C.B., A.A., D.M., C.T., T.D. Wrote the paper: T.D., C.T. Drafted or revised the article: G.T., L.G., Y.Y. Contributed data or reagents: A.L., D.T., L.G., G.T. Co-last authors: C.T., and T.D. All authors reviewed the manuscript.

PY - 2020/10/9

Y1 - 2020/10/9

N2 - ERBB2 is a ligand-less tyrosine kinase receptor expressed at very low levels in normal tissues; when overexpressed, it is involved in malignant transformation and tumorigenesis in several carcinomas. In cancer cells, ERBB2 represents the preferred partner of other members of the ERBB receptor family, leading to stronger oncogenic signals, by promoting both ERK and AKT activation. The identification of the specific signaling downstream of ERBB2 has been impaired by the lack of a ligand and of an efficient way to selectively activate the receptor. In this paper, we found that antibodies (Abs) targeting different epitopes on the ERBB2 extracellular domain foster the activation of ERBB2 homodimers, and surprisingly induce a unique cytostatic signaling cascade promoting an ERK-dependent ERBB2-Thr(701) phosphorylation, leading to AKT de-phosphorylation, via PP2A Ser/Thr phosphatases. Furthermore, the immunophilin Cyclophilin A plays a crucial role in this pathway, acting as a negative modulator of AKT de-phosphorylation, possibly by competing with Ser/Thr phosphatases for binding to AKT. Altogether, our data show that Ab recognizing ERBB2 extracellular domain function as receptor agonists, promoting ERBB2 homodimer activation, leading to an anti-proliferative signaling. Thus, the ultimate outcome of ERBB2 activity might depend on the dimerization status: pro-oncogenic in the hetero-, and anti-oncogenic in the homo-dimeric form.

AB - ERBB2 is a ligand-less tyrosine kinase receptor expressed at very low levels in normal tissues; when overexpressed, it is involved in malignant transformation and tumorigenesis in several carcinomas. In cancer cells, ERBB2 represents the preferred partner of other members of the ERBB receptor family, leading to stronger oncogenic signals, by promoting both ERK and AKT activation. The identification of the specific signaling downstream of ERBB2 has been impaired by the lack of a ligand and of an efficient way to selectively activate the receptor. In this paper, we found that antibodies (Abs) targeting different epitopes on the ERBB2 extracellular domain foster the activation of ERBB2 homodimers, and surprisingly induce a unique cytostatic signaling cascade promoting an ERK-dependent ERBB2-Thr(701) phosphorylation, leading to AKT de-phosphorylation, via PP2A Ser/Thr phosphatases. Furthermore, the immunophilin Cyclophilin A plays a crucial role in this pathway, acting as a negative modulator of AKT de-phosphorylation, possibly by competing with Ser/Thr phosphatases for binding to AKT. Altogether, our data show that Ab recognizing ERBB2 extracellular domain function as receptor agonists, promoting ERBB2 homodimer activation, leading to an anti-proliferative signaling. Thus, the ultimate outcome of ERBB2 activity might depend on the dimerization status: pro-oncogenic in the hetero-, and anti-oncogenic in the homo-dimeric form.

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U2 - 10.1038/s41598-020-73835-1

DO - 10.1038/s41598-020-73835-1

M3 - مقالة

SN - 2045-2322

VL - 10

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 16906

ER -

Direct stimulation of ERBB2 highlights a novel cytostatic signaling pathway driven by the receptor-Thr(701) phosphorylation

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