Karen A. Seta scite author profile

Subtractive suppression hybridization was used to generate a cDNA library enriched in cDNA sequences corresponding to mRNA species that are specifically upregulated by hypoxia (6 h, 1% O 2 ) in the oxygen-responsive pheochromocytoma cell line. The dual specificity protein-tyrosine phosphatase MAPK phosphatase-1 (MKP-1) was highly represented in this library. Clones were arrayed on glass slides to create a hypoxia-specific cDNA microarray chip. Microarray, northern blot, and western blot analyses confirmed that MKP-1 mRNA and protein levels were up-regulated by hypoxia by ϳ8-fold. The magnitude of the effect of hypoxia on MKP-1 was approximately equal to that induced by KCl depolarization and much larger than the effects of either epidermal growth factor or nerve growth factor on MKP-1 mRNA levels. In contrast to the calcium-dependent induction of MKP-1 by KCl depolarization, the effect of hypoxia on MKP-1 persisted under calcium-free conditions. Cobalt and deferoxamine also increased MKP-1 mRNA levels, suggesting that hypoxia-inducible factor proteins may play a role in the regulation of MKP-1 by hypoxia. Pretreatment of cells with SB203580, which inhibits p38 kinase activity, significantly reduced the hypoxia-induced increase in MKP-1 RNA levels. Thus, hypoxia robustly increases MKP-1 levels, at least in part through a p38 kinase-mediated mechanism.

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Overexpression of Insulin Degrading Enzyme: Cellular Localization and Effects on Insulin Signaling

Seta

Roth

1997

Biochemical and Biophysical Research Communications

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Responding to Hypoxia: Lessons From a Model Cell Line

Seta¹,

Spicer²,

Yuan³

et al. 2002

Science Signaling

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Functional genomics approach to hypoxia signaling

Seta

Millhorn

2004

Journal of Applied Physiology

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Mammalian cells require a constant supply of oxygen to maintain energy balance, and sustained hypoxia can result in cell death. It is therefore not surprising that sophisticated adaptive mechanisms have evolved that enhance cell survival during hypoxia. During the past few years, there have been a growing number of reports on hypoxia-induced transcription of specific genes. In this review, we describe a unique experimental approach that utilizes focused cDNA libraries coupled to microarray analyses to identify hypoxia-responsive signal transduction pathways and genes that confer the hypoxia-tolerant phenotype. We have used the subtractive suppression hybridization (SSH) method to create a cDNA library enriched in hypoxia-regulated genes in oxygen-sensing pheochromocytoma cells and have used this library to create microarrays that allow us to examine hundreds of genes at a time. This library contains over 300 genes and expressed sequence tags upregulated by hypoxia, including tyrosine hydroxylase, vascular endothelial growth factor, and junB. Hypoxic regulation of these and other genes in the library has been confirmed by microarray, Northern blot, and real-time PCR analyses. Coupling focused SSH libraries with microarray analyses allows one to specifically study genes relevant to a phenotype of interest while reducing much of the biological noise associated with these types of studies. When used in conjunction with high-throughput, dye-based assays for cell survival and apoptosis, this approach offers a rapid method for discovering validated therapeutic targets for the treatment of cardiovascular disease, stroke, and tumors.

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Responding to Hypoxia: Lessons From a Model Cell Line

et al. 2002

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Mammalian cells require a constant supply of oxygen to maintain adequate energy production, which is essential for maintaining normal function and for ensuring cell survival. Sustained hypoxia can result in cell death. It is, therefore, not surprising that sophisticated mechanisms have evolved that allow cells to adapt to hypoxia. "Oxygen-sensing" is a special phenotype that functions to detect changes in oxygen tension and to transduce this signal into organ system functions that enhance the delivery of oxygen to tissue in various organisms. Oxygen-sensing cells can be segregated into two distinct cell types: those that functionally depolarize (excitable) and those that do not functionally depolarize (nonexcitable) in response to reduced oxygen. Theoretically, excitable cells have all the same signaling capabilities as the nonexcitable cells, but the nonexcitable cells cannot have all the signaling capabilities as excitable cells. A number of signaling pathways have been identified that regulate gene expression during hypoxia. These include the Ca2+-calmodulin pathway, the 3'-5' adenosine monophosphate (cAMP)-protein kinase A (PKA) pathway, the p42 and p44 mitogen-activated protein kinase [(MAPK); also known as the extracellular signal-related kinase (ERK) for ERK1 and ERK2] pathway, the stress-activated protein kinase (SAPK; also known as p38 kinase) pathway, and the phosphatidylinositol 3-kinase (PI3K)-Akt pathway. In this review, we describe hypoxia-induced signaling in the model O2-sensing rat pheochromocytoma (PC12) cell line, the current level of understanding of the major signaling events that are activated by reduced O2, and how these signaling events lead to altered gene expression in both excitable and nonexcitable oxygen-sensing cells.

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The molecular basis of O2-sensing and hypoxia tolerance in pheochromocytoma cells

Conrad

Conforti

Kobayashi

et al. 2001

Comparative Biochemistry and Physiology Part B: Biochemistry an

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Microsomal Prostaglandin E2 Synthase-1 Is Induced by Conditional Expression of RET/PTC in Thyroid PCCL3 Cells through the Activation of the MEK-ERK Pathway

Puxeddu

Mitsutake²,

Knauf³

et al. 2003

Journal of Biological Chemistry

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RET/PTC rearrangements are believed to be tumor-initiating events in papillary thyroid carcinomas. We identified microsomal prostaglandin E 2 synthase-1 (mPGES-1) as a RET/PTC-inducible gene through subtraction hybridization cloning and expression profiling with custom microarrays. The inducible prostaglandin E 2 (PGE 2 ) biosynthetic enzymes cyclooxygenase-2 (COX-2) and mPGES-1 are up-regulated in many cancers. COX-2 is overexpressed in thyroid malignancies compared with benign nodules and normal thyroid tissues. Eicosanoids may promote tumorigenesis through effects on tumor cell growth, immune surveillance, and angiogenesis. Conditional RET/ PTC1 or RET/PTC3 expression in PCCL3 thyroid cells markedly induced mPGES-1 and COX-2. PGE 2 was the principal prostanoid and up-regulated (by ϳ60-fold), whereas hydroxyeicosatetraenoic acid metabolites were decreased, consistent with shunting of prostanoid biosynthesis toward PGE 2 by coactivation of the two enzymes. RET/PTC activated mPGES-1 gene transcription. Based on experiments with kinase inhibitors, with PCCL3 cell lines with doxycycline-inducible expression of RET/PTC mutants with substitutions of critical tyrosine residues in the kinase domain, and lines with inducible expression of activated mutants of H-RAS and MEK1, RET/PTC was found to regulate mPGES-1 through Shc-RAS-MEK-ERK. These data show a direct relationship between activation of a tyrosine kinase receptor oncogene and regulation of PGE 2 biosynthesis. As enzymes involved in prostanoid biosynthesis can be targeted with pharmacological inhibitors, these findings may have therapeutic implications.

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Karen A. Seta

The role of calcium in hypoxia-induced signal transduction and gene expression

Hypoxia-induced Regulation of MAPK Phosphatase-1 as Identified by Subtractive Suppression Hybridization and cDNA Microarray Analysis

Overexpression of Insulin Degrading Enzyme: Cellular Localization and Effects on Insulin Signaling

Responding to Hypoxia: Lessons From a Model Cell Line

Functional genomics approach to hypoxia signaling

Responding to Hypoxia: Lessons From a Model Cell Line

The molecular basis of O2-sensing and hypoxia tolerance in pheochromocytoma cells

Microsomal Prostaglandin E2 Synthase-1 Is Induced by Conditional Expression of RET/PTC in Thyroid PCCL3 Cells through the Activation of the MEK-ERK Pathway

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