Your search keyword '"Mathes, Samuel"' showing total 2 results

1. Growth Hormone Upregulates Mediators of Melanoma Drug Efflux and Epithelial-to-Mesenchymal Transition In Vitro and In Vivo.

Author

Qian, Yanrong, Basu, Reetobrata, Mathes, Samuel C., Arnett, Nathan A., Duran-Ortiz, Silvana, Funk, Kevin R., Brittain, Alison L., Kulkarni, Prateek, Terry, Joseph C., Davis, Emily, Singerman, Jordyn T., Henry, Brooke E., List, Edward O., Berryman, Darlene E., and Kopchick, John J.

Subjects

CELL proliferation, ANIMAL experimentation, BIOLOGICAL models, CELL lines, CELL receptors, DRUG resistance in cancer cells, MELANOMA, MICE, SOMATOMEDIN, GENETIC markers, HUMAN growth hormone, IN vitro studies, IN vivo studies, EPITHELIAL-mesenchymal transition

Abstract

Simple Summary: Growth hormone (GH) action is strongly implicated in the progression and therapy resistance in several types of solid tumors which overexpress the GH receptor (GHR). The aim of our study was to characterize the effects of GH and its downstream effector insulin-like growth factor 1 (IGF-1) on melanoma using in vitro and in vivo models. We confirmed an IGF-1-independent role of elevated circulating GH in upregulating key mechanisms of therapy resistance and malignancy with analyses conducted at the molecular and cellular level. We identified that GH upregulates key mechanisms of therapy resistance and metastases in melanoma tumors in an IGF-1 dependent and independent manner by upregulating multidrug efflux pumps and EMT transcription factors. Our study reveals that GH action renders an intrinsic drug resistance phenotype to the melanoma tumors—a clinically crucial property of GH verifiable in other human cancers with GHR expression. Growth hormone (GH) and the GH receptor (GHR) are expressed in a wide range of malignant tumors including melanoma. However, the effect of GH/insulin-like growth factor (IGF) on melanoma in vivo has not yet been elucidated. Here we assessed the physical and molecular effects of GH on mouse melanoma B16-F10 and human melanoma SK-MEL-30 cells in vitro. We then corroborated these observations with syngeneic B16-F10 tumors in two mouse lines with different levels of GH/IGF: bovine GH transgenic mice (bGH; high GH, high IGF-1) and GHR gene-disrupted or knockout mice (GHRKO; high GH, low IGF-1). In vitro, GH treatment enhanced mouse and human melanoma cell growth, drug retention and cell invasion. While the in vivo tumor size was unaffected in both bGH and GHRKO mouse lines, multiple drug-efflux pumps were up regulated. This intrinsic capacity of therapy resistance appears to be GH dependent. Additionally, epithelial-to-mesenchymal transition (EMT) gene transcription markers were significantly upregulated in vivo supporting our current and recent in vitro observations. These syngeneic mouse melanoma models of differential GH/IGF action can be valuable tools in screening for therapeutic options where lowering GH/IGF-1 action is important. [ABSTRACT FROM AUTHOR]

Published

2020

2. Growth Hormone Upregulates Melanocyte-Inducing Transcription Factor Expression and Activity via JAK2-STAT5 and SRC Signaling in GH Receptor-Positive Human Melanoma.

Author

Basu, Reetobrata, Kulkarni, Prateek, Qian, Yanrong, Walsh, Christopher, Arora, Pranay, Davis, Emily, Duran-Ortiz, Silvana, Funk, Kevin, Ibarra, Diego, Kruse, Colin, Mathes, Samuel, McHugh, Todd, Brittain, Alison, Berryman, Darlene E., List, Edward O., Okada, Shigeru, and Kopchick, John J.

Subjects

PROTEIN-tyrosine kinase inhibitors, ANIMAL experimentation, CANCER chemotherapy, CELL receptors, CELLULAR signal transduction, DRUG resistance, EPITHELIAL cells, GENE expression, MELANOMA, MICE, TRANSCRIPTION factors, HUMAN growth hormone, IN vitro studies, IN vivo studies, THERAPEUTICS

Abstract

Growth hormone (GH) facilitates therapy resistance in the cancers of breast, colon, endometrium, and melanoma. The GH-stimulated pathways responsible for this resistance were identified as suppression of apoptosis, induction of epithelial-to-mesenchymal transition (EMT), and upregulated drug efflux by increased expression of ATP-binding cassette containing multidrug efflux pumps (ABC-transporters). In extremely drug-resistant melanoma, ABC-transporters have also been reported to mediate drug sequestration in intracellular melanosomes, thereby reducing drug efficacy. Melanocyte-inducing transcription factor (MITF) is the master regulator of melanocyte and melanoma cell fate as well as the melanosomal machinery. MITF targets such as the oncogene MET, as well as MITF-mediated processes such as resistance to radiation therapy, are both known to be upregulated by GH. Therefore, we chose to query the direct effects of GH on MITF expression and activity towards conferring chemoresistance in melanoma. Here, we demonstrate that GH significantly upregulates MITF as well as the MITF target genes following treatment with multiple anticancer drug treatments such as chemotherapy, BRAF-inhibitors, as well as tyrosine-kinase inhibitors. GH action also upregulated MITF-regulated processes such as melanogenesis and tyrosinase activity. Significant elevation in MITF and MITF target gene expression was also observed in mouse B16F10 melanoma cells and xenografts in bovine GH transgenic (bGH) mice compared to wild-type littermates. Through pathway inhibitor analysis we identified that both the JAK2-STAT5 and SRC activities were critical for the observed effects. Additionally, a retrospective analysis of gene expression data from GTEx, NCI60, CCLE, and TCGA databases corroborated our observed correlation of MITF function and GH action. Therefore, we present in vitro, in vivo, and in silico evidence which strongly implicates the GH–GHR axis in inducing chemoresistance in human melanoma by driving MITF-regulated and ABC-transporter-mediated drug clearance pathways. [ABSTRACT FROM AUTHOR]

Published

2019