Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment

Mattia Lauriola; Yehoshua Enuka; Amit Zeisel; Gabriele D'Uva; Lee Roth; Michal Sharon-Sevilla; Moshit Lindzen; Kirti Sharma; Nava Nevo; Morris Feldman; Silvia Carvalho; Hadas Cohen-Dvashi; Merav Kedmi; Nir Ben-Chetrit; Alon Chen; Rossella Solmi; Stefan Wiemann; Fernando Schmitt; Eytan Domany; Yosef Yarden

doi:10.1038/ncomms6073

Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment

Mattia Lauriola, Yehoshua Enuka, Amit Zeisel, Gabriele D'Uva, Lee Roth, Michal Sharon-Sevilla, Moshit Lindzen, Kirti Sharma, Nava Nevo, Morris Feldman, Silvia Carvalho, Hadas Cohen-Dvashi, Merav Kedmi, Nir Ben-Chetrit, Alon Chen, Rossella Solmi, Stefan Wiemann, Fernando Schmitt, Eytan Domany, Yosef Yarden

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

Abstract

Signal transduction by receptor tyrosine kinases (RTKs) and nuclear receptors for steroid hormones is essential for body homeostasis, but the cross-talk between these receptor families is poorly understood. We observed that glucocorticoids inhibit signalling downstream of EGFR, an RTK. The underlying mechanism entails suppression of EGFR's positive feedback loops and simultaneous triggering of negative feedback loops that normally restrain EGFR. Our studies in mice reveal that the regulation of EGFR's feedback loops by glucocorticoids translates to circadian control of EGFR signalling: EGFR signals are suppressed by high glucocorticoids during the active phase (night-time in rodents), while EGFR signals are enhanced during the resting phase. Consistent with this pattern, treatment of animals bearing EGFR-driven tumours with a specific kinase inhibitor was more effective if administered during the resting phase of the day, when glucocorticoids are low. These findings support a circadian clock-based paradigm in cancer therapy.

Original language	English
Article number	5073
Journal	Nature Communications
Volume	5
DOIs	https://doi.org/10.1038/ncomms6073
State	Published - 2014
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/ncomms6073

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Lauriola, M., Enuka, Y., Zeisel, A., D'Uva, G., Roth, L., Sharon-Sevilla, M., Lindzen, M., Sharma, K., Nevo, N., Feldman, M., Carvalho, S., Cohen-Dvashi, H., Kedmi, M., Ben-Chetrit, N., Chen, A., Solmi, R., Wiemann, S., Schmitt, F., Domany, E., & Yarden, Y. (2014). Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment. Nature Communications, 5, Article 5073. https://doi.org/10.1038/ncomms6073

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title = "Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment",

abstract = "Signal transduction by receptor tyrosine kinases (RTKs) and nuclear receptors for steroid hormones is essential for body homeostasis, but the cross-talk between these receptor families is poorly understood. We observed that glucocorticoids inhibit signalling downstream of EGFR, an RTK. The underlying mechanism entails suppression of EGFR's positive feedback loops and simultaneous triggering of negative feedback loops that normally restrain EGFR. Our studies in mice reveal that the regulation of EGFR's feedback loops by glucocorticoids translates to circadian control of EGFR signalling: EGFR signals are suppressed by high glucocorticoids during the active phase (night-time in rodents), while EGFR signals are enhanced during the resting phase. Consistent with this pattern, treatment of animals bearing EGFR-driven tumours with a specific kinase inhibitor was more effective if administered during the resting phase of the day, when glucocorticoids are low. These findings support a circadian clock-based paradigm in cancer therapy.",

author = "Mattia Lauriola and Yehoshua Enuka and Amit Zeisel and Gabriele D'Uva and Lee Roth and Michal Sharon-Sevilla and Moshit Lindzen and Kirti Sharma and Nava Nevo and Morris Feldman and Silvia Carvalho and Hadas Cohen-Dvashi and Merav Kedmi and Nir Ben-Chetrit and Alon Chen and Rossella Solmi and Stefan Wiemann and Fernando Schmitt and Eytan Domany and Yosef Yarden",

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doi = "10.1038/ncomms6073",

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volume = "5",

journal = "Nature Communications",

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}

Lauriola, M, Enuka, Y, Zeisel, A, D'Uva, G, Roth, L, Sharon-Sevilla, M, Lindzen, M, Sharma, K, Nevo, N, Feldman, M, Carvalho, S, Cohen-Dvashi, H, Kedmi, M, Ben-Chetrit, N, Chen, A, Solmi, R, Wiemann, S, Schmitt, F, Domany, E & Yarden, Y 2014, 'Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment', Nature Communications, vol. 5, 5073. https://doi.org/10.1038/ncomms6073

TY - JOUR

T1 - Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment

AU - Lauriola, Mattia

AU - Enuka, Yehoshua

AU - Zeisel, Amit

AU - D'Uva, Gabriele

AU - Roth, Lee

AU - Sharon-Sevilla, Michal

AU - Lindzen, Moshit

AU - Sharma, Kirti

AU - Nevo, Nava

AU - Feldman, Morris

AU - Carvalho, Silvia

AU - Cohen-Dvashi, Hadas

AU - Kedmi, Merav

AU - Ben-Chetrit, Nir

AU - Chen, Alon

AU - Solmi, Rossella

AU - Wiemann, Stefan

AU - Schmitt, Fernando

AU - Domany, Eytan

AU - Yarden, Yosef

PY - 2014

Y1 - 2014

N2 - Signal transduction by receptor tyrosine kinases (RTKs) and nuclear receptors for steroid hormones is essential for body homeostasis, but the cross-talk between these receptor families is poorly understood. We observed that glucocorticoids inhibit signalling downstream of EGFR, an RTK. The underlying mechanism entails suppression of EGFR's positive feedback loops and simultaneous triggering of negative feedback loops that normally restrain EGFR. Our studies in mice reveal that the regulation of EGFR's feedback loops by glucocorticoids translates to circadian control of EGFR signalling: EGFR signals are suppressed by high glucocorticoids during the active phase (night-time in rodents), while EGFR signals are enhanced during the resting phase. Consistent with this pattern, treatment of animals bearing EGFR-driven tumours with a specific kinase inhibitor was more effective if administered during the resting phase of the day, when glucocorticoids are low. These findings support a circadian clock-based paradigm in cancer therapy.

AB - Signal transduction by receptor tyrosine kinases (RTKs) and nuclear receptors for steroid hormones is essential for body homeostasis, but the cross-talk between these receptor families is poorly understood. We observed that glucocorticoids inhibit signalling downstream of EGFR, an RTK. The underlying mechanism entails suppression of EGFR's positive feedback loops and simultaneous triggering of negative feedback loops that normally restrain EGFR. Our studies in mice reveal that the regulation of EGFR's feedback loops by glucocorticoids translates to circadian control of EGFR signalling: EGFR signals are suppressed by high glucocorticoids during the active phase (night-time in rodents), while EGFR signals are enhanced during the resting phase. Consistent with this pattern, treatment of animals bearing EGFR-driven tumours with a specific kinase inhibitor was more effective if administered during the resting phase of the day, when glucocorticoids are low. These findings support a circadian clock-based paradigm in cancer therapy.

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U2 - 10.1038/ncomms6073

DO - 10.1038/ncomms6073

M3 - مقالة

C2 - 25278152

SN - 2041-1723

VL - 5

JO - Nature Communications

JF - Nature Communications

M1 - 5073

ER -

Diurnal suppression of EGFR signalling by glucocorticoids and implications for tumour progression and treatment

Abstract

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