Abstract
We previously showed that transgenic enhancement of histamine production in B16-F10 melanomas strongly supports tumor growth in C57BL/6 mice. In the present study, gene expression profiles of transgenic mouse melanomas, secreting different amounts of histamine, were compared by whole genome microarrays. Array results were validated by real-time PCR, and genes showing histamine-affected behavior were further analyzed by immunohistochemistry. Regulation of histamine-coupled genes was investigated by checking the presence and functional integrity of all four known histamine receptors in experimental melanomas and by administering histamine H1 receptor (H1R) and H2 receptor (H2R) antagonists to tumor-bearing mice. Finally, an attempt was made to integrate histamine-affected genes in known gene regulatory circuits by in silico pathway analysis. Our results show that histamine enhances melanoma growth via H1R rather than through H2R. We show that H1R activation suppresses RNA-level expression of the tumor suppressor insulin-like growth factor II receptor (IGF-IIR) and the antiangiogenic matrix protein fibulin-5 (FBLN5), decreases their intracellular protein levels, and also reduces their availability in the plasma membrane and extracellular matrix, respectively. Pathway analysis suggests that because plasma membrane-bound IGF-IIR is required to activate matrix-bound, latent transforming growth factor-beta1, a factor suggested to sustain FBLN5 expression, the data can be integrated in a known antineoplastic regulatory pathway that is suppressed by H1R. On the other hand, we show that engagement of H2R also reduces intracellular protein pools of IGF-IIR and FBLN5, but being a downstream acting posttranslational effect with minimal consequences on exported IGF-IIR and FBLN5 protein levels, H2R is rather irrelevant compared with H1R in melanoma.
Highlights
Cancer progression is a highly complicated process, the exact mechanism of which is still not completely understood
Focusing on histamine-affected genes with known oncogenic potential, we provided convincing evidence that histamine suppresses expression of two tumor suppressor genes, insulin-like growth factor II receptor (IGF-IIR) and FBLN5, both at the mRNA and protein levels
FBLN5 plays a critical role in normal elastogenesis, vasculogenesis, and tissue repair, and it was shown that FBLN5 heavily interferes with capillary vessel sprouting by suppressing vascular endothelial growth factor signaling, DNA replication, and motility in endothelial cells [35]
Summary
Cancer progression is a highly complicated process, the exact mechanism of which is still not completely understood. Note: Supplementary data for this article are available at Cancer Research Online (http://cancerres.aacrjournals.org/). Part of a series: This article is based on our previous publication in Cancer Research [Cancer Res. 2005 May 15;65(10):4458-66, Pos et al.] and it can be regarded as part of a series. Typically sustained by unresolved infections or permanent tissue stress, are apparently capable of inducing mutagenesis by local overproduction of reactive oxygen and nitrogen intermediates [2] and bypassing p53-mediated cell cycle control mechanisms via inflammatory cytokines such as macrophage migration inhibitory factor [3]. Cancer cells often highjack the molecular machinery of inflammation [e.g., when they facilitate neoplastic motility by overexpressing some chemokine receptors [6], or as they foster angiogenesis by secreting several inflammatory chemokines of the CXCL family [7]]. Chronic inflammation is deeply involved in the induction of neoplastic immunosuppression, as well [8]
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