Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells

Veronica Vella; Marika Giuliano; Alessandro La Ferlita; Michele Pellegrino; Germano Gaudenzi; Salvatore Alaimo; Michele Massimino; Alfredo Pulvirenti; Alessandra Dicitore; Paolo Vigneri; Giovanni Vitale; Roberta Malaguarnera; Andrea Morrione; Andrew H. Sims; Alfredo Ferro; Marcello Maggiolini; Rosamaria Lappano; Ernestina Marianna De Francesco; Antonino Belfiore

doi:10.3390/cells10113145

Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells

Veronica Vella, Marika Giuliano, Alessandro La Ferlita, Michele Pellegrino, Germano Gaudenzi, Salvatore Alaimo, Michele Massimino, Alfredo Pulvirenti, Alessandra Dicitore, Paolo Vigneri, Giovanni Vitale, Roberta Malaguarnera, Andrea Morrione, Andrew H. Sims, Alfredo Ferro, Marcello Maggiolini, Rosamaria Lappano, Ernestina Marianna De Francesco, Antonino Belfiore

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

Abstract

The insulin receptor isoform A (IR-A) plays an increasingly recognized role in fetal growth and tumor biology in response to circulating insulin and/or locally produced IGF2. This role seems not to be shared by the IR isoform B (IR-B). We aimed to dissect the specific impact of IR isoforms in modulating insulin signaling in triple negative breast cancer (TNBC) cells. We generated murine 4T1 TNBC cells deleted from the endogenous insulin receptor (INSR) gene and expressing comparable levels of either human IR-A or IR-B. We then measured IR isoform-specific in vitro and in vivo biological effects and transcriptome in response to insulin. Overall, the IR-A was more potent than the IR-B in mediating cell migration, invasion, and in vivo tumor growth. Transcriptome analysis showed that approximately 89% of insulin-stimulated transcripts depended solely on the expression of the specific isoform. Notably, in cells overexpressing IR-A, insulin strongly induced genes involved in tumor progression and immune evasion including chemokines and genes related to innate immunity. Conversely, in IR-B overexpressing cells, insulin predominantly induced the expression of genes primarily involved in the regulation of metabolic pathways and, to a lesser extent, tumor growth and angiogenesis.

Original language	English
Article number	3145
Journal	Cells
Volume	10
Issue number	11
DOIs	https://doi.org/10.3390/cells10113145
Publication status	Published - Nov 2021

Keywords

Breast cancer
Hyperinsulinemia
IGF axis
Insulin receptor isoform A
Insulin receptor isoform transcriptome
Insulin receptor isoforms
Triple negative breast cancer
Tumor promotion

ASJC Scopus subject areas

Medicine(all)

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10.3390/cells10113145

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Vella, V., Giuliano, M., Ferlita, A. L., Pellegrino, M., Gaudenzi, G., Alaimo, S., Massimino, M., Pulvirenti, A., Dicitore, A., Vigneri, P., Vitale, G., Malaguarnera, R., Morrione, A., Sims, A. H., Ferro, A., Maggiolini, M., Lappano, R., De Francesco, E. M., & Belfiore, A. (2021). Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells. Cells, 10(11), [3145]. https://doi.org/10.3390/cells10113145

Vella, V, Giuliano, M, Ferlita, AL, Pellegrino, M, Gaudenzi, G, Alaimo, S, Massimino, M, Pulvirenti, A, Dicitore, A, Vigneri, P, Vitale, G, Malaguarnera, R, Morrione, A, Sims, AH, Ferro, A, Maggiolini, M, Lappano, R, De Francesco, EM & Belfiore, A 2021, 'Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells', Cells, vol. 10, no. 11, 3145. https://doi.org/10.3390/cells10113145

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title = "Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells",

abstract = "The insulin receptor isoform A (IR-A) plays an increasingly recognized role in fetal growth and tumor biology in response to circulating insulin and/or locally produced IGF2. This role seems not to be shared by the IR isoform B (IR-B). We aimed to dissect the specific impact of IR isoforms in modulating insulin signaling in triple negative breast cancer (TNBC) cells. We generated murine 4T1 TNBC cells deleted from the endogenous insulin receptor (INSR) gene and expressing comparable levels of either human IR-A or IR-B. We then measured IR isoform-specific in vitro and in vivo biological effects and transcriptome in response to insulin. Overall, the IR-A was more potent than the IR-B in mediating cell migration, invasion, and in vivo tumor growth. Transcriptome analysis showed that approximately 89% of insulin-stimulated transcripts depended solely on the expression of the specific isoform. Notably, in cells overexpressing IR-A, insulin strongly induced genes involved in tumor progression and immune evasion including chemokines and genes related to innate immunity. Conversely, in IR-B overexpressing cells, insulin predominantly induced the expression of genes primarily involved in the regulation of metabolic pathways and, to a lesser extent, tumor growth and angiogenesis.",

keywords = "Breast cancer, Hyperinsulinemia, IGF axis, Insulin receptor isoform A, Insulin receptor isoform transcriptome, Insulin receptor isoforms, Triple negative breast cancer, Tumor promotion",

author = "Veronica Vella and Marika Giuliano and Ferlita, {Alessandro La} and Michele Pellegrino and Germano Gaudenzi and Salvatore Alaimo and Michele Massimino and Alfredo Pulvirenti and Alessandra Dicitore and Paolo Vigneri and Giovanni Vitale and Roberta Malaguarnera and Andrea Morrione and Sims, {Andrew H.} and Alfredo Ferro and Marcello Maggiolini and Rosamaria Lappano and {De Francesco}, {Ernestina Marianna} and Antonino Belfiore",

note = "Funding Information: Funding: The work has been partially supported by grants from Fondazione AIRC (Start-Up Grant 21651 to EDF, IG grant n. 23369 to AB, and IG grant n. 21322MM to MM) and grant RF-2019-12368937 from Ministero della Salute, Italy, to AB. ALF has been supported by the Ph.D. fellowship on Complex Systems for Physical, Socio-economic and Life Sciences funded by the Italian MIUR “PON RI FSE-FESR 2014–2020”. AF, ALF, AP, and SA have been partially supported by the PO-FESR Sicilia 2014–2020 “DiOncoGen: Innovative diagnostics”. Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = nov,

doi = "10.3390/cells10113145",

language = "English",

volume = "10",

journal = "Cells",

issn = "2073-4409",

number = "11",

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T1 - Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells

AU - Vella, Veronica

AU - Giuliano, Marika

AU - Ferlita, Alessandro La

AU - Pellegrino, Michele

AU - Gaudenzi, Germano

AU - Alaimo, Salvatore

AU - Massimino, Michele

AU - Pulvirenti, Alfredo

AU - Dicitore, Alessandra

AU - Vigneri, Paolo

AU - Vitale, Giovanni

AU - Malaguarnera, Roberta

AU - Morrione, Andrea

AU - Sims, Andrew H.

AU - Ferro, Alfredo

AU - Maggiolini, Marcello

AU - Lappano, Rosamaria

AU - De Francesco, Ernestina Marianna

AU - Belfiore, Antonino

N1 - Funding Information: Funding: The work has been partially supported by grants from Fondazione AIRC (Start-Up Grant 21651 to EDF, IG grant n. 23369 to AB, and IG grant n. 21322MM to MM) and grant RF-2019-12368937 from Ministero della Salute, Italy, to AB. ALF has been supported by the Ph.D. fellowship on Complex Systems for Physical, Socio-economic and Life Sciences funded by the Italian MIUR “PON RI FSE-FESR 2014–2020”. AF, ALF, AP, and SA have been partially supported by the PO-FESR Sicilia 2014–2020 “DiOncoGen: Innovative diagnostics”. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/11

Y1 - 2021/11

N2 - The insulin receptor isoform A (IR-A) plays an increasingly recognized role in fetal growth and tumor biology in response to circulating insulin and/or locally produced IGF2. This role seems not to be shared by the IR isoform B (IR-B). We aimed to dissect the specific impact of IR isoforms in modulating insulin signaling in triple negative breast cancer (TNBC) cells. We generated murine 4T1 TNBC cells deleted from the endogenous insulin receptor (INSR) gene and expressing comparable levels of either human IR-A or IR-B. We then measured IR isoform-specific in vitro and in vivo biological effects and transcriptome in response to insulin. Overall, the IR-A was more potent than the IR-B in mediating cell migration, invasion, and in vivo tumor growth. Transcriptome analysis showed that approximately 89% of insulin-stimulated transcripts depended solely on the expression of the specific isoform. Notably, in cells overexpressing IR-A, insulin strongly induced genes involved in tumor progression and immune evasion including chemokines and genes related to innate immunity. Conversely, in IR-B overexpressing cells, insulin predominantly induced the expression of genes primarily involved in the regulation of metabolic pathways and, to a lesser extent, tumor growth and angiogenesis.

AB - The insulin receptor isoform A (IR-A) plays an increasingly recognized role in fetal growth and tumor biology in response to circulating insulin and/or locally produced IGF2. This role seems not to be shared by the IR isoform B (IR-B). We aimed to dissect the specific impact of IR isoforms in modulating insulin signaling in triple negative breast cancer (TNBC) cells. We generated murine 4T1 TNBC cells deleted from the endogenous insulin receptor (INSR) gene and expressing comparable levels of either human IR-A or IR-B. We then measured IR isoform-specific in vitro and in vivo biological effects and transcriptome in response to insulin. Overall, the IR-A was more potent than the IR-B in mediating cell migration, invasion, and in vivo tumor growth. Transcriptome analysis showed that approximately 89% of insulin-stimulated transcripts depended solely on the expression of the specific isoform. Notably, in cells overexpressing IR-A, insulin strongly induced genes involved in tumor progression and immune evasion including chemokines and genes related to innate immunity. Conversely, in IR-B overexpressing cells, insulin predominantly induced the expression of genes primarily involved in the regulation of metabolic pathways and, to a lesser extent, tumor growth and angiogenesis.

KW - Breast cancer

KW - Hyperinsulinemia

KW - IGF axis

KW - Insulin receptor isoform A

KW - Insulin receptor isoform transcriptome

KW - Insulin receptor isoforms

KW - Triple negative breast cancer

KW - Tumor promotion

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U2 - 10.3390/cells10113145

DO - 10.3390/cells10113145

M3 - Article

AN - SCOPUS:85118886057

SN - 2073-4409

VL - 10

JO - Cells

JF - Cells

IS - 11

M1 - 3145

ER -

Novel mechanisms of tumor promotion by the insulin receptor isoform a in triple-negative breast cancer cells

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