Calprotectin in Serially Collected Meconium Portions as a Biomarker for Intrauterine Fetal Environment

Resistance and partial responses to targeted monotherapy are major obstacles in cancer treatment. Systematic approaches to identify efficacious drug combinations for cancer are not well established, especially in the context of genotype. To address this, we have tested pairwise combinations of an array of small molecule inhibitors on early passage melanoma cultures using combinatorial drug screening. Results reveal several inhibitor combinations effective for melanomas with activating RAS or BRAF mutations, including mutant BRAF melanomas with intrinsic or acquired resistance to vemurafenib. Inhibition of both EGFR and AKT sensitized treatment-resistant BRAF-mutant melanoma cultures to vemurafenib. Melanomas with RAS mutations were more resistant to combination therapies relative to BRAF mutants, but were sensitive to combinations of statins and cyclin-dependent kinase inhibitors in vitro and in vivo. These results demonstrate the utility of combinatorial drug screening for discovering unique treatment regimens that overcome resistance phenotypes of mutant BRAF and RAS driven melanomas.

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Neuregulin 1–activated ERBB4 interacts with YAP to induce Hippo pathway target genes and promote cell migration

Haskins

2014

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The receptor tyrosine kinase ERBB4, a member of the epidermal growth factor receptor (EGFR) family, is unusual in that when phosphorylated, ERBB4 can undergo intramembrane proteolysis, releasing a soluble intracellular domain (ICD) that activates transcription in the nucleus. We found that ERBB4 activated the transcriptional coactivator YAP, which promotes organ and tissue growth and is inhibited by the tumor-suppressor Hippo pathway. Overexpressing ERBB4 in cultured mammary epithelial cells or adding the ERBB4 ligand neuregulin 1 (NRG1) to breast cancer cell cultures promoted the expression of genes regulated by YAP, such as CTGF. Knocking down YAP or ERBB4 prevented the induction of CTGF expression by NRG1, as did preventing ERBB4 cleavage by treating cells with the pan-EGFR inhibitors lapatinib or erlotinib. A PPxY motif in the ERBB4 ICD enabled its interaction with WW domains in YAP, similar to the mode of interaction between YAP and the kinase LATS1, which inhibits the transcriptional activity of YAP. The ERBB4 ICD coimmunoprecipitated with YAP and TEAD1, a YAP coactivator, suggesting that the ERBB4 ICD may functionally interact with YAP and TEAD to promote transcriptional activity. NRG1 stimulated YAP activity to an extent comparable to that of EGF or LPA (lysophosphatidic acid), known activators of YAP. NRG1 stimulated YAP-dependent cell migration in breast cancer cell lines. These observations connect the unusual nuclear function of a growth factor receptor with a mechanosensory pathway and suggest that NRG1-ERBB4-YAP signaling may underlie the aggressive behavior of tumor cells.

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EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

et al. 2013

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MET amplification as a mechanism of acquired resistance to EGFR targeted therapies in non-small cell lung carcinoma (NSCLC) led to investigation of novel combinations of EGFR and MET kinase inhibitors. However, promiscuous interactions between MET and ERBB family members have made it difficult to evaluate the effects of MET on EGFR signaling, both independent of drug treatment and in the context of drug resistance. We addressed this issue by establishing a 32D model cell system wherein ERBBs or MET are expressed alone and in combination. Using this model, we determined that EGFR signaling is sufficient to induce MET phosphorylation, although MET activation is enhanced by co-expression of ERBB3. EGFR-MET crosstalk was not direct but occurred by a combined regulation of MET levels and intermediary signaling through MAP kinases. In NSCLCs harboring either wild-type or mutant EGFR, inhibiting EGFR or MAP kinases reduced MET activation and protein levels. Furthermore, MET signaling promoted EGFR-driven migration and invasion. Lastly, EGFR-MET signaling was enhanced in a highly metastatic EGFR mutant cell subpopulation, compared to the indolent parental line, and MET attenuation decreased the incidence of brain metastasis. Overall, our results establish that EGFR-MET signaling is critical for aggressive behavior of NSCLCs and rationalize its continued investigation as a therapeutic target for tumors harboring both wild-type and mutant EGFR at early stages of progression.

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Convergent and Divergent Cellular Responses by ErbB4 Isoforms in Mammary Epithelial Cells

Wali

Haskins

Gilmore-Hebert

et al. 2014

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Associations of ErbB4 (ERBB4/HER4), the fourth member of the EGFR family, with cancer are variable, possibly as a result of structural diversity of this receptor. There are multiple structural isoforms of ERBB4 arising by alternative mRNA splicing, and a subset undergo proteolysis that releases membrane-anchored and soluble isoforms that associate with transcription factors and co-regulators to modulate transcription. In order to compare the differential and common signaling activities of full-length and soluble intracellular isoforms of ERBB4, four JM-a isoforms (full-length and soluble intracellular domain CYT-1 and CYT-2) were expressed in isogenic MCF10A cells and their biological activities were analyzed. Both full-length and intracellular domain CYT-2 promoted cell proliferation and invasion, and CYT-1 suppressed cell growth. Transcriptional profiling revealed several new and underexplored ERBB4 regulated transcripts including: proteases/protease inhibitors (MMP3, SERPINE2), YAP/Hippo pathway (CTGF, CYR61, SPARC), mevalonate/cholesterol pathway (HMGCR, HMGCS1, LDLR, DHCR7), and cytokines (IL8, CCL20, CXCL1). Many of these transcripts were subsequently validated in a luminal, breast cancer cell line that normally express ERBB4. Furthermore, ChiP-seq experiments identified ADAP1, APOE, SPARC, STMN1, and MXD1 as novel molecular targets of ERBB4. These findings clarify the diverse biological activities of ERBB4 isoforms, and reveal new and divergent functions.

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Neuregulin-activated ERBB4 induces the SREBP-2 cholesterol biosynthetic pathway and increases low-density lipoprotein uptake

et al. 2015

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We have found that ERBB4 activates sterol regulatory element binding protein-2 (SREBP-2) to enhance expression of genes essential for cholesterol metabolism including mevalonate pathway enzymes and the low-density lipoprotein receptor (LDLR). ERBB4 is unusual among receptor kinases in undergoing ligand-induced proteolytic cleavage to release a soluble intracellular domain that enters the nucleus and modifies transcription. Expression of the ERBB4 intracellular domain or activation of ERBB4 with the ligand Neuregulin 1 (NRG1) in mammary epithelial cells induced expression of SREBP target genes involved in cholesterol biosynthesis including HMGCR, HMGCS1, and LDLR beyond amounts induced through lipoprotein depletion. ERBB4 increased expression of cholesterogenic genes by enhancing abundance of the mature form of SREBP-2. NRG1 activated SREBP-2 through ERBB family kinases and PI3K, but independent from AKT or mTORC1 activity. NRG1 increased cholesterol metabolism by 1) increasing de novo biosynthesis through the mevalonate pathway, and 2) enhancing LDL binding and uptake through the LDLR. As all EGFR family receptors can appropriate ERBB4 signaling by cross-activating ERBB4, these data show that the ERBBs are linked to SREBP-regulated cholesterol metabolism, with potential impact on dyslipidemia and cancer.

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Overexpression of ERBB4 JM-a CYT-1 and CYT-2 isoforms in transgenic mice reveals isoform-specific roles in mammary gland development and carcinogenesis

et al. 2014

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IntroductionHuman Epidermal Growth Factor Receptor (ERBB4/HER4) belongs to the Epidermal Growth Factor receptor/ERBB family of receptor tyrosine kinases. While ERBB1, ERBB2 and ERBB3 are often overexpressed or activated in breast cancer, and are oncogenic, the role of ERBB4 in breast cancer is uncertain. Some studies suggest a tumor suppressor role of ERBB4, while other reports suggest an oncogenic potential. Alternative splicing of ERBB4 yields four major protein products, these spliced isoforms differ in the extracellular juxtamembrane domain (JM-a versus JM-b) and cytoplasmic domain (CYT-1 versus CYT-2). Two of these isoforms, JM-a CYT-1 and JM-a CYT-2, are expressed in the mammary gland. Failure to account for isoform-specific functions in previous studies may account for conflicting reports on the role of ERBB4 in breast cancer.MethodsWe have produced mouse mammary tumour virus (MMTV) -ERBB4 transgenic mice to evaluate potential developmental and carcinogenic changes associated with full length (FL) JM-a ERBB4 CYT-1 versus ERBB4 CYT-2. Mammary tissue was isolated from transgenic mice and sibling controls at various developmental stages for whole mount analysis, RNA extraction, and immunohistochemistry. To maintain maximal ERBB4 expression, transgenic mice were bred continuously for a year after which mammary glands were isolated and analyzed.ResultsOverexpressing FL CYT-1 isoform resulted in suppression of mammary ductal morphogenesis which was accompanied by decreased number of mammary terminal end buds (TEBs) and Ki-67 positive cells within TEBs, while FL CYT-2 isoform had no effect on ductal growth in pubescent mice. The suppressive ductal phenotype in CYT-1 mice disappeared after mid-pregnancy, and subsequent developmental stages showed no abnormality in mammary gland morphology or function in CYT-1 or CYT-2 transgenic mice. However, sustained expression of FL CYT-1 isoform resulted in formation of neoplastic mammary lesions, suggesting a potential oncogenic function for this isoform.ConclusionsTogether, we present isoform-specific roles of ERBB4 during puberty and early pregnancy, and reveal a novel oncogenic property of CYT-1 ERBB4. The results may be exploited to develop better therapeutic strategies in breast cancer.Electronic supplementary materialThe online version of this article (doi:10.1186/s13058-014-0501-z) contains supplementary material, which is available to authorized users.

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Supplementary Figure 1 from EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

Breindel¹,

Haskins²,

Cowell³

et al. 2023

Preprint

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Supplementary Figure 6 from EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

Breindel¹,

Haskins²,

Cowell³

et al. 2023

Preprint

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Jonathan W. Haskins

Genotype-Selective Combination Therapies for Melanoma Identified by High-Throughput Drug Screening

Neuregulin 1–activated ERBB4 interacts with YAP to induce Hippo pathway target genes and promote cell migration

EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

Convergent and Divergent Cellular Responses by ErbB4 Isoforms in Mammary Epithelial Cells

Neuregulin-activated ERBB4 induces the SREBP-2 cholesterol biosynthetic pathway and increases low-density lipoprotein uptake

Overexpression of ERBB4 JM-a CYT-1 and CYT-2 isoforms in transgenic mice reveals isoform-specific roles in mammary gland development and carcinogenesis

Supplementary Figure 1 from EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

Supplementary Figure 6 from EGF Receptor Activates MET through MAPK to Enhance Non–Small Cell Lung Carcinoma Invasion and Brain Metastasis

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