Huei-Chen Lao scite author profile

Prostaglandin E(2) (PGE(2)) is elevated in many tumor types, but PGE(2)'s contributions to tumor growth are largely unknown. To investigate PGE(2)'s roles, the contributions of one of its receptors, EP2, were studied using the mouse skin initiation/promotion model. Initial studies indicated that protein kinase A (PKA), epidermal growth factor receptor (EGFR) and several effectors-cyclic adenosine 3',5'-monophosphate response element-binding protein (CREB), H-Ras, Src, protein kinase B (AKT) and extracellular signal-regulated kinase (ERK)1/2-were activated in 12-O-tetradecanoylphorbol-13-acetate (TPA)-promoted papillomas and that PKA and EGFR inhibition (H89 and AG1478, respectively) decreased papilloma formation. EP2's contributions to the activation of these pathways and papilloma development were determined by inhibiting endogenous TPA-induced PGE(2) production with indomethacin (Indo) and concomitantly treating with the EP2 agonist, CAY10399 (CAY). CAY treatment restored papilloma formation in TPA/Indo-treated mice and increased cyclic adenosine 3',5'-monophosphate and PKA activation as measured by p-CREB formation. CAY treatment also increased EGFR and Src activation and their inhibition by AG1478 and PP2 indicated that Src was upstream of EGFR. CAY also increased H-Ras, ERK1/2 and AKT activation, and AG1478 decreased their activation indicating EGFR being upstream. Supporting EP2's contribution, EP2-/- mice exhibited 65% fewer papillomas and reduced Src, EGFR, H-Ras, AKT and ERK1/2 activation. G protein-coupled receptor (GPCR) activation of EGFR has been reported to involve Src's activation via a GPCR-beta-arrestin-Src complex. Indeed, immunoprecipitation of beta-arrestin1 or p-Src indicated the presence of an EP2-beta-arrestin1-p-Src complex in papillomas. The data indicated that EP2 contributed to tumor formation via activation of PKA and EGFR and that EP2 formed a complex with beta-arrestin1 and Src that contributed to signaling and/or EP2 desensitization.

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The Prostaglandin E2 Receptor, EP2, Stimulates Keratinocyte Proliferation in Mouse Skin by G Protein-dependent and β-Arrestin1-dependent Signaling Pathways

Chun

Lao

Langenbach

2010

Journal of Biological Chemistry

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Because keratinocyte proliferation is essential for skin tumor development, EP2-mediated signaling pathways that contribute to keratinocyte proliferation were investigated. A single topical application of the EP2 agonist, butaprost, dose-dependently increased keratinocyte replication via activation of epidermal growth factor receptor (EGFR) and PKA signaling. Because GPCR-mediated activation of EGFR can involve the formation of a GPCR-␤-arrestin-Src signaling complex, the possibility of a ␤-arrestin1-Src complex contributing to EP2-mediated signaling in keratinocytes was investigated. Butaprost induced ␤-arrestin1-Src complex formation and increased both Src and EGFR activation. A role for ␤-arrestin1 in EP2-mediated Src and EGFR activation was demonstrated by the observation that ␤-arrestin1 deficiency significantly reduced Src and EGFR activation. In agreement with a ␤-arrestin1-Src complex contributing to EGFR activation, Src and EGFR inhibition (PP2 and AG1478, respectively) indicated that Src was upstream of EGFR. Butaprost also induced the activation of Akt, ERK1/2, and STAT3, and both ␤-arrestin1 deficiency and EGFR inhibition (AG1478 or gefitinib) decreased their activation. In addition to ␤-arrestin1-dependent EGFR activation, butaprost increased PKA activation, as measured by phospho-GSK3␤ (p-GSK3␤) and p-cAMP-response element-binding protein formation. PKA inhibition (H89 or R P -adenosine-3,5-cyclic monophosphorothioate (R P -cAMPS)) decreased butaprost-induced cAMP-response element-binding protein and ERK activation but did not affect EGFR activation, whereas ␤-arrestin1 deficiency decreased EGFR activation but did not affect butaprost-induced PKA activation, thus indicating that they were independent EP2-mediated pathways. Therefore, the results indicate that EP2 contributed to mouse keratinocyte proliferation by G protein-independent, ␤-arrestin1-dependent activation of EGFR and G protein-dependent activation of PKA.

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Cyclooxygenase‐2 deficiency increases epidermal apoptosis and impairs recovery following acute UVB exposure

Akunda

Chun

Sessoms

et al. 2007

Molecular Carcinogenesis

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The cyclooxygenases, COX-1 and COX-2, are involved in cutaneous responses to both acute and chronic UV exposure. In the present study, wild-type (WT), COX-1-/- and COX-2-/- mice were used to determine the influence of the individual isoform on mouse skin responses to acute UVB treatment. Immunohistochemistry and Western analysis indicated that COX-2, and not COX-1, was induced by UVB (2.5 or 5.0 kJ/m2), but that COX-1 remained the major source of prostaglandin E2 production. UVB exposure significantly increased epidermal apoptosis in all genotypes compared to untreated mice. However, while the number of apoptotic cells in WT and COX-1-/- mice were about equal, the number of apoptotic cells was 2.5-fold greater in COX-2-/- mice. Apoptosis in WT and COX-2-/- mice peaked at 24 h post-exposure. The increased apoptosis and reduced proliferation in COX-2-/- mice resulted in about a 50% decrease in epidermal thickness at 24-48 h post-exposure compared to about a 50% increase in epidermal thickness in WT mice. UVB-induced cell replication, as measured by BrdU labeling, was reduced in COX-2-/- compared to WT mice at 24-96 h. However, by 96 h post-exposure, both WT and COX-2-/- mice showed epidermal hyperplasia. The data indicate that COX-2 induction initially protects against the acute sunburn effects of UVB, but that continuous induction of COX-2 may contribute to skin cancer in chronic UVB exposure.

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Huei-Chen Lao

The prostaglandin receptor EP2 activates multiple signaling pathways and -arrestin1 complex formation during mouse skin papilloma development

The Prostaglandin E2 Receptor, EP2, Stimulates Keratinocyte Proliferation in Mouse Skin by G Protein-dependent and β-Arrestin1-dependent Signaling Pathways

Cyclooxygenase‐2 deficiency increases epidermal apoptosis and impairs recovery following acute UVB exposure

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