Upregulated Apelin Signaling in Pancreatic Cancer Activates Oncogenic Signaling Pathways to Promote Tumor Development.

Despite decades of effort in understanding pancreatic ductal adenocarcinoma (PDAC), there is still a lack of innovative targeted therapies for this devastating disease. Herein, we report the expression of apelin and its receptor, APJ, in human pancreatic adenocarcinoma and its protumoral function. Apelin and APJ protein expression in tumor tissues from patients with PDAC and their spatiotemporal pattern of expression in engineered mouse models of PDAC were investigated by immunohistochemistry.

Protamine is an antagonist of apelin receptor, and its activity is reversed by heparin.

Apelin signaling plays an important role during embryo development and regulates angiogenesis, cardiovascular activity, and energy metabolism in adulthood. Overexpression and hyperactivity of this signaling pathway is observed in various pathologic states, such as cardiovascular diseases and cancer, which highlights the importance of inhibiting apelin receptor (APJ); therefore, we developed a cell-based screening assay that uses fluorescence microscopy to identify APJ antagonists. This approach led us to identify the U.

[Apelin signalisation and vascular physiopathology].

The formation of the vascular system is an early step in organogenesis that involves the participation of various signalling pathways. Integration of the extracellular signals decoded by their cognate membrane receptors orchestrate the cell events, which act at different stages, from the primitive network formed by vasculogenesis to the arborescent network remodeled by angiogenesis. Our laboratory showed the participation of a new signalling pathway in physiological angiogenesis and tumour neovascularisation.

Apelin is a potent activator of tumour neoangiogenesis.

Our laboratory has previously shown that apelin is mitogenic for endothelial cells. We have postulated that apelin represents an angiogenic factor secreted by tumour cells in order to promote the formation of new vessels necessary for tumour growth. We first demonstrate that apelin and its receptor are not expressed by the mouse TS/A mammary carcinoma cells.

Therapeutic potential of interfering with apelin signalling.

The apelin receptor is a G protein-coupled receptor activated by several apelin fragments. Its tissue distribution suggests that apelin signalling is involved in a broad range of physiological functions. Endothelial cells, which express high levels of apelin receptors, respond to apelin through the phosphorylation of key intracellular effectors associated with cell proliferation and migration.