Antiangiogenic properties of the peptide CIGB-300

HERNÁN G. FARINA; FERNANDO BENAVENT ACERO; YASSER PERERA; ARIELIS RODRIGUEZ; SILVIO PEREA; BORIS ACEVEDO CASTRO; ROBERTO GOMEZ; DANIEL F. ALONSO; DANIEL E. GOMEZ

Washington DC, EE.UU

Congreso; American Association for Cancer Research Anual Meeting; 2010

American Association for Cancer Research

CK2 is a highly conserved protein serine/threonine kinase that is ubiquitously distributed in eukaryotes, constitutively active and has been implicated in multiple cellular functions, as well as in tumorigenesis and transformation. Elevated CK2 activity has been associated with the malignant transformation of several tissues and is associated with aggressive tumor behavior. Previously, we have described a peptide CIGB-300 (also named P15-Tat) targeting the acidic phophorylation domain of the CK2 substrates. Different groups around the world have tried to manipulate this biochemical event by targeting the ATP-binding site of CK2 or its gene transcription using antisense oligonucleotides. Otherwise, CIGB-300 peptide was developed following the innovative approach of targeting the phosphoaceptor site on the CK2 substrates rather than the enzyme per se. We demonstrated that CIGB-300 induced apoptosis on tumor cells and tumor regression when injected directly into solid tumors or by systemic administration in mice. In this work we have evaluated the CIGB-300 peptide on the angiogenic process, both in vitro and in vivo. We have focused in the exploration of CIGB-300 properties to inhibit proliferation, tube formation and RNA pattern expression on endothelial cells (HUVEC). Likewise we used the chicken chorioallatoic membrane (CAM) assay as a model in vivo to asses the CIGB-300 activity on angiogenesis. Others authors have studied the role of different CK2 inhibitors on angiogenesis finding that CK2 is involved in endothelial cell proliferation, survival, migration and tube formation. Intraperitoneally administered CK2 inhibitors significantly reduced preretinal neovascularization in a mouse model of proliferative retinopathy. Solid tumors require the growth of new blood vessels (angiogenesis) to grow. Tumor angiogenesis utilizes at least some of the angiogenic signalling pathways that are required during vascular development. Tumor angiogenesis has become an important target for antitumor therapy, with most current therapies aimed at blocking the VEGF pathway. However, not all tumors are responsive to VEGF blockers, and some of them that are responsive initially may become resistant during the course of treatment, thus there is a need to explore other angiogenesis signalling pathways. In this paper we have examined the antiangiogenic properties of CIGB-300 peptide in vitro and in vivo. The data suggests that CK2 is involved in angiogenic processes and CIGB-300 could act as promising antiangiogenic inhibitor.