The Role of MTK1 in Cell Migration and Extracellular Acidification

Garcia Flores, Alejandro Eduardo, Garcia Flores, Alejandro Eduardo

January 2017

Mitogen activated protein kinase (MAPK) signaling consists of a phosphorylation cascade leading to the phosphorylation of an effector that can translocate to the nucleus and regulate transcription. MAPK signaling can be activated by diverse stimuli such as osmotic stress and hormones. Additionally, MAPK signaling can be activated by receptor tyrosine kinase (RTK) signaling in response to a growth factor binding to the RTK. It has been shown that heterodimerization of the RTKs human epidermal growth factor receptor 2 (HER2) with HER3 is highly correlated to tumor growth and metastasis in breast cancer. Previous research showed that in breast cancer cells, Mitogen Three Kinase 1 (MTK1) is a protein kinase that functions in association with the HER3 receptor upon heregulin (HRG) stimulation. Here, MTK1 has been shown to form a complex in breast cancer cells consisting of Grb2, Shc, GIT1 and ERK1/2. Furthermore, MTK1 was shown to induce extracellular acidification due to lactate secretion and cell migration. A shift from aerobic metabolism to glycolysis in cancer cells was first observed by Otto Warburg. Since then, increased glycolysis and the resulting lactate secretion have been described in multiple types of cancers and is recognized as one of the hallmarks of cancer. This dissertation aims to establish the function of MTK1 in HRG induced RTK signaling in breast cancer cells. To accomplish this goal, we identified proteins of known function that interact with MTK1 to infer the role of MTK1. Applying this strategy, we provide evidence for the first time of mitochondrial regulation of oxidative phosphorylation by MTK1, independent of glycolytic regulation. In addition, our results demonstrate that GIT1 regulates glycolysis-mediated lactic acidosis (higher extracellular acidification caused by increased lactic acid efflux) in MCF-7 cells, independent of mitochondrial function. For the first time, our research shows that the glycolytic enzyme phosphoglycerate kinase 1 (PGK1) associates with MTK1 and GIT1 in MCF-7 cells. Furthermore, it is demonstrated that PGK1 is regulated by HRG stimulation through both phosphorylation of PGK1 and its dissociation from the MTK1 complex. The protein complex consisting of MTK1, GIT1, and PGK1 favors the conversion of pyruvate to lactate resulting rather than oxidative phosphorylation of pyruvate inside the mitochondria. The resulting lactate is secreted and drives extracellular acidification, a hallmark of cancer.

Cancer

GIT1

Heregulin

Lactate

MTK1

PGK1

Neuregulin-Dependent Protein Synthesis in C₂C₁₂ Myotubes and Rat Diaphragm Muscle

Hellyer, Nathan, Mantilla, Carlos B., Park, Eunice W., Zhan, Wen Zhi, Sieck, Gary C.

23 November 2006

The nerve-derived trophic factor neuregulin (NRG) is a prime candidate molecule for modulating muscle fiber growth. NRG regulates signal transduction in skeletal muscle through activation of ErbB receptors present at the neuromuscular junction. In this study, we hypothesize that NRG increases protein synthesis in maturing muscle via a phosphatidylinositol 3-kinase (PI3K)-dependent mechanism. NRG signal transduction and its ability to stimulate protein synthesis (measured by incorporation of [3H]phenylalanine into the protein pool) were investigated in differentiated C2C 12 myotubes and rat diaphragm muscle (DIAm). In C2C 12 myotubes, NRG dose dependently increased phosphorylation of ErbB3 and recruitment of the p85 subunit of PI3K. NRG also increased phosphorylation of Akt, a downstream effector of PI3K. NRG treatment increased total protein synthesis by 35% compared with untreated control myotubes. This NRG-induced increase in Akt phosphorylation and protein synthesis was completely blocked by wortmannin, an inhibitor of PI3K but was unaffected by PD-98059, an inhibitor of MEK. In DIAm obtained from 3-day-old rat pups, Akt phosphorylation increased ∼30-fold with NRG treatment (vs. untreated DIAm). NRG treatment also significantly increased protein synthesis in the DIAm by 29% after 3 h of incubation with [3H]phenylalanine (vs. untreated DIAm). Pretreatment with wortmannin abolished the NRG-induced increase in protein synthesis, suggesting a critical role for PI3K in this response. The results of the present study support the hypothesis that nerve-derived NRG contributes to the regulation of skeletal muscle mass by increasing protein synthesis via activation of PI3K.

Akt

ErbB

heregulin

protein biosynthesis

skeletal muscle

The regulation of RANK and RANKL mRNA expression through activation of the JAK2/STAT5a pathway in human breast cancer cell lines ©

Praetorius, Lisa J.

01 September 2009

The receptor activator of nuclear factor-kB (RANK) and its ligand, RANKL has have been implicated as an important link between breast cancer and metastasis to bone because of their ability to activate intracellular signal cascades leading to altered cancer cell behaviour and bone breakdown. The JAK/STAT5a cell signaling pathway is also crucial to breast biology and is involved in transcriptional regulation of many genes. The objective of this study is to determine if RANKL mRNA expression is regulated through the JAK/STAT5a pathway by stimulating human breast cancer cell lines, MCF-7 and MDA-MB-231, with prolactin (PRL), epidermal growth factor (EGF) and heregulin-beta1 (HRG-1), all known to activate STAT5a and play a role in breast cancer progression. This study shows that RANKL expression is upregulated by PRL, EGF and HRG-1, and that PRL and HRG-1 regulate transcription through the JAK/STAT5a pathway. / UOIT

RANKL

STAT5

Breast cancer

Prolactin

Epidermal growth factor

Heregulin

SATB1-Mediated Upregulation of the Oncogenic Receptor Tyrosine Kinase HER3 Antagonizes MET Inhibition in Gastric Cancer Cells

Jenke, Robert, Holzhäuser-Rein, Miriam, Mueller-Wilke, Stefanie, Lordick, Florian, Aigner, Achim, Büch, Thomas

19 December 2023

MET-amplified gastric cancer cells are extremely sensitive to MET inhibition in vitro, whereas clinical efficacy of MET inhibitors is disappointing. The compensatory activation of other oncogenic growth factor receptors may serve as an underlying mechanism of resistance. In this study, we analyzed the role of HER receptors, in particular HER3 and its ligand heregulin, in this respect. This also included the chromatin-organizer protein SATB1, as an established regulator of HER expression in other tumor entities. In a panel of MET-amplified gastric carcinoma cell lines, cell growth under anchorage-dependent and independent conditions was studied upon inhibitor treatment or siRNA-mediated knockdown. Expression analyses were performed using RT-qPCR, FACS, and immunoblots. Signal transduction was monitored via antibody arrays and immunoblots. As expected, MET inhibition led to a growth arrest and inhibition of MAPK signaling. Strikingly, however, this was accompanied by a rapid and profound upregulation of the oncogenic receptor HER3. This finding was determined as functionally relevant, since HER3 activation by HRG led to partial MET inhibitor resistance, and MAPK/Akt signaling was even found enhanced upon HRG+MET inhibitor treatment compared to HRG alone. SATB1 was identified as mediator of HER3 upregulation. Concomitantly, SATB1 knockdown prevented upregulation of HER3, thus abrogating the HRG-promoted rescue from MET inhibition. Taken together, our results introduce the combined HER3/MET inhibition as strategy to overcome resistance towards MET inhibitors.

info:eu-repo/classification/ddc/610

ddc:610

Régulation de l’activité transcriptionnelle des récepteurs des estrogènes (ER) par le récepteur à chimiokine CXCR4 et les récepteurs à activité tyrosine kinase ErbB2 et ErbB3

Sauvé, Karine

08 1900

La régulation de la transcription des gènes par les récepteurs des estrogènes ERα et ERβ joue un rôle important dans la croissance cellulaire et dans le développement du cancer du sein. Une augmentation de l’expression de CXCR4 et de son ligand SDF-1/CXCL12 corrèle avec un phénotype plus agressif du cancer du sein. Ici, nous démontrons un mécanisme de boucle de régulation positive entre la signalisation de CXCR4/SDF-1 et l’activité transcriptionnelle des ERs dans des cellules cancéreuses mammaires. L’activité transcriptionnelle de ER et l’expression de gènes cibles de ER, dont SDF-1 lui-même, sont augmentées dans la lignée cancéreuse mammaire MCF-7 en réponse à SDF-1. Ces effets sont bloqués par l’anti-estrogène fulvestrant et par la délétion de CXCR4. Par ailleurs, l’expression des gènes et la prolifération des cellules cancéreuses mammaires MCF-7 en réponse à l’estrogène sont altérées par l’inhibition de CXCR4. La signalisation par les facteurs de croissance joue un rôle important dans le cancer du sein. La surexpression et la dérégulation de la signalisation par le récepteur à activité tyrosine kinase ErbB2 corrèlent avec un phénotype tumoral mammaire plus agressif et un moins bon pronostic. Cependant, comment la signalisation de ErbB2 et de CXCR4 sont fonctionnellement reliées dans la régulation de la réponse de ER dans les cellules cancéreuses mammaires n’est pas connue. Nous démontrons ici que CXCR4 régule négativement l’expression protéique de ErbB2 et de son partenaire d’interaction ErbB3 ainsi que la phosphorylation de ErbB2. CXCR4 altère l’activation de la voie PI3-K/Akt par le dimère ErbB2/ErbB3 en réponse à héréguline alors qu’en présence de SDF-1, les niveaux d’activation sont récupérés. Nous avons trouvé que héréguline-β promouvoit la phosphorylation de la sérine 339 de CXCR4, un site important pour l’internalisation et la signalisation du récepteur. De plus, le recrutement de ErbB2 à CXCR4 est favorisé par ErbB3 et héréguline-β. L’activité transcriptionnelle ainsi que l’expression des gènes cibles de ER en réponse à l’héréguline sont relevées avec l’expression de CXCR4 et partiellement récupérées avec l’addition de SDF-1. Ces résultats démontrent que le recrutement de CXCR4 à ErbB2 altère la signalisation médiée par ErbB2/ErbB3 ainsi que l’activité hormonale de ER dans des cellules cancéreuses mammaires. Nous travaux ont permis d’identifier et de caractériser l’impact de la signalisation médiée par des récepteurs membranaires sur la réponse transcriptionnelle de ER dans des cellules cancéreuses mammaires. La signalisation membranaire est un facteur pouvant contribuer à la résistance aux thérapies endocriniennes et donc cibler les récepteurs impliqués s’avèrerait utile pour améliorer les traitements existants et mettre au point de nouvelles approches. / Induction of estrogen-regulated gene transcription by estrogen receptors ERα and ERβ plays an important role in breast cancer development and growth. High expression of the chemokine receptor CXCR4 and its ligand CXCL12/SDF-1 has also been correlated with aggressive breast tumor phenotypes. Here, we describe a positive regulatory loop between CXCR4/SDF-1 signaling pathway and ER transcriptional competence in human breast cancer cells. Treatment of breast carcinoma MCF-7 cells with SDF-1 increased ER transcriptional activity and expression of ER target genes, including SDF-1 itself. These effects were blocked by the antiestrogen ICI-182780 and by CXCR4 silencing, and conversely, estrogen-induced gene expression and growth of MCF-7 cells were impaired upon CXCR4 inhibition. Growth factor signaling also plays an important role in breast cancer. Overexpression and deregulated signaling of receptor tyrosine kinase ErbB2 correlate with aggressive breast tumor phenotype and poor outcomes. However, how ErbB2 and CXCR4 signaling is functionally related to regulate ER response in breast cancer cells is not known. Here we show that steady-state levels of ErbB2 and its dimeric partner ErbB3, as well as ErbB2 tyrosine phosphorylation were negatively regulated with the expression of CXCR4. CXCR4 downregulated ErbB2/ErbB3 dimer activation of the PI3-K/Akt pathway in response to ErbB3 ligand heregulin-β, whereas addition of SDF-1 restored activation levels. We found that heregulin-β promoted CXCR4 phosphorylation at serine 339, an important site for CXCR4 internalization and signaling. In addition, ErbB2 recruitment to CXCR4 was enhanced by ErbB3 and heregulin-β. Transcriptional activity and gene expression measurement showed that the hormonal repression of ER was relieved with the expression of CXCR4 and partially recuperated with the addition of SDF-1. Together, these results show that CXCR4 recruitment to ErbB2 alters ErbB2/ErbB3 signaling pathway and downstream regulation of ER hormonal activity in in breast cancer cells. Our work has enabled us to identify and characterize the impact of membrane receptors signaling on ER transcriptionnal response in breast cancer cells. Membrane signaling is one of the factors involved in endocrine therapy resistance and targeting the receptors implicated could be benificial to improve existing treatments and to work on the creation of new ones.

ERβ

ERα

SDF-1

CXCR4

MAPK/ERK

ErbB2/Her-2/Neu

ErbB3

Héréguline

PI3-K/Akt

cancer du sein

Heregulin

breast cancer

Muc4 Modulation of Ligand-Independent ErbB2 Signaling

Kozloski, Goldi Attias

04 June 2009

The membrane mucin Muc4 is a heterodimer, bi-functional glycoprotein complex that is normally expressed in epithelial tissue. Functional studies on the extracellular mucin subunit of Muc4 have shown that it acts to promote anti-adhesion properties by sterically interfering with cell-cell and cell-matrix interactions and that the extent of this effect is directly associated with the number of tandem repeats on this subunit. Functional studies on the transmembrane subunit of Muc4 have shown that this subunit participates in intracellular signaling through interaction with the receptor tyrosine kinase ErbB2. This role of Muc4 was shown to be mediated by stabilizing the heregulin ligand-induced ErbB2-ErbB3 heterodimer through interference with the internalization process of these receptors, thus potentiating the PI3K, a survival-signaling pathway that is mediated by this heterodimer. However, Muc4 was also shown to potentiate ErbB2 phosphorylation in the absence of heregulin by an unknown mechanism. The aim of this work was to examine the role of Muc4 in intracellular signaling by evaluating the ligand-independent Muc4-ErbB2 interaction. Biochemical analyses of A375 human melanoma cells expressing Muc4 under different cell treatments, and probed with phospho-specific antibodies, were used to understand the mechanism. An antibody microarray screen was used to decipher the intracellular activated signaling pathways. The results of the mechanistic analysis indicated that Muc4 potentiates ErbB2 signaling significantly by interacting with ErbB2 and ErbB3 and by stabilizing the kinase active ErbB2 receptor, thus increasing its phosphorylation signal half-life and resulting in sustained ErbB2 signaling. The signaling pathway analysis suggests that through Muc4 direct interaction with ErbB2, signaling pathways that promote loss of cell polarity are activated. Loss of cell-cell adhesion is mediated by interference with the cadherin-catenin complex stability, and loss of cell-matrix adhesion is mediated by facilitating focal adhesion turnover. Together, these results suggest that Muc4 is a potent oncogenic factor, and further enhance our understanding of the role that Muc4 plays in ligand-independent intracellular signaling.

Régulation de l’activité transcriptionnelle des récepteurs des estrogènes (ER) par le récepteur à chimiokine CXCR4 et les récepteurs à activité tyrosine kinase ErbB2 et ErbB3

Sauvé, Karine

08 1900

La régulation de la transcription des gènes par les récepteurs des estrogènes ERα et ERβ joue un rôle important dans la croissance cellulaire et dans le développement du cancer du sein. Une augmentation de l’expression de CXCR4 et de son ligand SDF-1/CXCL12 corrèle avec un phénotype plus agressif du cancer du sein. Ici, nous démontrons un mécanisme de boucle de régulation positive entre la signalisation de CXCR4/SDF-1 et l’activité transcriptionnelle des ERs dans des cellules cancéreuses mammaires. L’activité transcriptionnelle de ER et l’expression de gènes cibles de ER, dont SDF-1 lui-même, sont augmentées dans la lignée cancéreuse mammaire MCF-7 en réponse à SDF-1. Ces effets sont bloqués par l’anti-estrogène fulvestrant et par la délétion de CXCR4. Par ailleurs, l’expression des gènes et la prolifération des cellules cancéreuses mammaires MCF-7 en réponse à l’estrogène sont altérées par l’inhibition de CXCR4. La signalisation par les facteurs de croissance joue un rôle important dans le cancer du sein. La surexpression et la dérégulation de la signalisation par le récepteur à activité tyrosine kinase ErbB2 corrèlent avec un phénotype tumoral mammaire plus agressif et un moins bon pronostic. Cependant, comment la signalisation de ErbB2 et de CXCR4 sont fonctionnellement reliées dans la régulation de la réponse de ER dans les cellules cancéreuses mammaires n’est pas connue. Nous démontrons ici que CXCR4 régule négativement l’expression protéique de ErbB2 et de son partenaire d’interaction ErbB3 ainsi que la phosphorylation de ErbB2. CXCR4 altère l’activation de la voie PI3-K/Akt par le dimère ErbB2/ErbB3 en réponse à héréguline alors qu’en présence de SDF-1, les niveaux d’activation sont récupérés. Nous avons trouvé que héréguline-β promouvoit la phosphorylation de la sérine 339 de CXCR4, un site important pour l’internalisation et la signalisation du récepteur. De plus, le recrutement de ErbB2 à CXCR4 est favorisé par ErbB3 et héréguline-β. L’activité transcriptionnelle ainsi que l’expression des gènes cibles de ER en réponse à l’héréguline sont relevées avec l’expression de CXCR4 et partiellement récupérées avec l’addition de SDF-1. Ces résultats démontrent que le recrutement de CXCR4 à ErbB2 altère la signalisation médiée par ErbB2/ErbB3 ainsi que l’activité hormonale de ER dans des cellules cancéreuses mammaires. Nous travaux ont permis d’identifier et de caractériser l’impact de la signalisation médiée par des récepteurs membranaires sur la réponse transcriptionnelle de ER dans des cellules cancéreuses mammaires. La signalisation membranaire est un facteur pouvant contribuer à la résistance aux thérapies endocriniennes et donc cibler les récepteurs impliqués s’avèrerait utile pour améliorer les traitements existants et mettre au point de nouvelles approches. / Induction of estrogen-regulated gene transcription by estrogen receptors ERα and ERβ plays an important role in breast cancer development and growth. High expression of the chemokine receptor CXCR4 and its ligand CXCL12/SDF-1 has also been correlated with aggressive breast tumor phenotypes. Here, we describe a positive regulatory loop between CXCR4/SDF-1 signaling pathway and ER transcriptional competence in human breast cancer cells. Treatment of breast carcinoma MCF-7 cells with SDF-1 increased ER transcriptional activity and expression of ER target genes, including SDF-1 itself. These effects were blocked by the antiestrogen ICI-182780 and by CXCR4 silencing, and conversely, estrogen-induced gene expression and growth of MCF-7 cells were impaired upon CXCR4 inhibition. Growth factor signaling also plays an important role in breast cancer. Overexpression and deregulated signaling of receptor tyrosine kinase ErbB2 correlate with aggressive breast tumor phenotype and poor outcomes. However, how ErbB2 and CXCR4 signaling is functionally related to regulate ER response in breast cancer cells is not known. Here we show that steady-state levels of ErbB2 and its dimeric partner ErbB3, as well as ErbB2 tyrosine phosphorylation were negatively regulated with the expression of CXCR4. CXCR4 downregulated ErbB2/ErbB3 dimer activation of the PI3-K/Akt pathway in response to ErbB3 ligand heregulin-β, whereas addition of SDF-1 restored activation levels. We found that heregulin-β promoted CXCR4 phosphorylation at serine 339, an important site for CXCR4 internalization and signaling. In addition, ErbB2 recruitment to CXCR4 was enhanced by ErbB3 and heregulin-β. Transcriptional activity and gene expression measurement showed that the hormonal repression of ER was relieved with the expression of CXCR4 and partially recuperated with the addition of SDF-1. Together, these results show that CXCR4 recruitment to ErbB2 alters ErbB2/ErbB3 signaling pathway and downstream regulation of ER hormonal activity in in breast cancer cells. Our work has enabled us to identify and characterize the impact of membrane receptors signaling on ER transcriptionnal response in breast cancer cells. Membrane signaling is one of the factors involved in endocrine therapy resistance and targeting the receptors implicated could be benificial to improve existing treatments and to work on the creation of new ones.

ERβ

ERα

SDF-1

CXCR4

MAPK/ERK

ErbB2/Her-2/Neu

ErbB3

Héréguline

PI3-K/Akt

cancer du sein

Heregulin

breast cancer