Targeting ctla-4 directly on melanoma cells: A possible novel perspective in the immunotherapy of cutaneous melanoma

Abstract

e22138 Background: CTLA-4 (CD152) is an omodimeric membrane glycoprotein which behaves as the major negative regulator of T cell-mediated immune response. CTLA-4 inhibitory function in T cells mainly occurs upon engagement with the B7 ligands expressed on antigen presenting cells, resulting in inhibition of cytokine production and T cell proliferation. CTLA-4 expression has also been documented in established human melanoma cell lines and primary melanoma tumours. The aim of this study was to investigate the expression and functional role of CTLA-4 in primary melanoma cultures derived from biopsies of metastatic melanoma patients. Methods: Seven primary cultures were derived from melanoma samples by mechanical tissue dissociation, enzymatic digestion and filtration of single cell suspensions. Flow cytometry (FACS) with an anti-melanoma (MCSP) mAb was used to assess the growth of melanoma cells. CTLA-4 expression analysis was performed by FACS and real-time PCR. Cytokine secretion and apoptotic cells were evaluated by Elisa and Annexin V/PI staining after treatment with an agonistic anti-CTLA-4 mAb (3D5). The angiogenic property of melanoma culture supernatants was evaluated on mesenchimal stromal cells (msc) isolated from human thoracic aortas. All the study was approved by our Institutional Ethics Committee and patients gave written informed consent. Results: Constitutive CTLA-4 expression was found on all melanoma cultures with variable intensity at both the protein and transcript levels. CTLA-4 expressed by these cells is functional as its ligation, with an anti-CTLA-4 agonistic mAb, is able to induce inhibition of cell proliferation, due to apoptosis induction, and of IL-8, TNF-alpha and VEGF cytokine secretion. Moreover, CTLA-4 ligation down-modulates the ability of melanoma culture supernatants to induce angiogenic differentiation of msc as detected by the acquisition of their endothelial phenotype. Conclusions: Given the physiologic inhibitory function of CTLA-4, our results suggest its possible role in the functional biology of melanoma and open up the possibility of an anti-melanoma immunotherapy based on targeting CTLA-4 directly on tumour cells as this might allow inhibition of tumour cell growth and angiogenesis. No significant financial relationships to disclose.