Soluble SLAMF6 Receptor Induces Strong CD8+ T-cell Effector Function and Improves Anti-Melanoma Activity In Vivo.

SLAMF6, a member of the SLAM (signaling lymphocyte activation molecules) family, is a homotypic-binding immune receptor expressed on NK, T, and B lymphocytes. Phosphorylation variance between T-cell subclones prompted us to explore its role in anti melanoma immunity. Using a 203-amino acid sequence of the human SLAMF6 (seSLAMF6) ectodomain, we found that seSLAMF6 reduced activation-induced cell death and had an antiapoptotic effect on tumor-infiltrating lymphocytes. CD8+ T cells costimulated with seSLAMF6 secreted more IFNγ and displayed augmented cytolytic activity. The systemic administration of seSLAMF6 to mice sustained adoptively transferred transgenic CD8+ T cells in comparable numbers to high doses of IL2. In a therapeutic model, lymphocytes activated by seSLAMF6 delayed tumor growth, and when further supported in vivo with seSLAMF6, induced complete tumor clearance. The ectodomain expedites the loss of phosphorylation on SLAMF6 that occurs in response to T-cell receptor triggering. Our findings suggest that seSLAMF6 is a costimulator that could be used in melanoma immunotherapy. Cancer Immunol Res; 6(2); 127-38. ©2018 AACR.

Adoptive cell therapy: past, present and future.

The immune system is a potent inhibitor of tumor growth with curative potential, constituting in many eyes the future of antineoplastic therapy. Adoptive cell therapy (ACT) is a form of immunotherapy in which autologous cancer-cognate lymphocytes are expanded and modified ex vivo and re-infused to combat the tumor. This review follows the evolvement of ACT and treatment protocols, focusing on unresolved dilemmas regarding this treatment while providing evidence for its effectiveness in refractory patients. Future directions of ACT are discussed, in particular with regard to genetic engineering of autologous cells, and the role of ACT in the era of checkpoint inhibitors is addressed.

Immune Monitoring of Patients Treated With a Whole-Cell Melanoma Vaccine Engineered to Express 4-1BBL.

CD8 lymphocytes are mandatory mediators of tumor regression. To enhance their specific antitumor activity, we aimed to improve a melanoma cell-based vaccine by transfecting it with 4-1BB ligand, a costimulatory and immune modulatory molecule. Thirty-four American Joint Committee on Cancer (AJCC) stage IIB-IV patients were vaccinated with a melanoma antigen-rich cell line engineered to express HLA-A2 and 4-1BBL (M20/A2/BBL). Twelve serially recruited patients were monitored for interferon γ expression and CD107a mobilization before and after vaccination. Thirty-three patients remained alive, with an estimated mean overall survival of 26.2 months. No grade 3-4 adverse events were encountered. Immune monitoring detected an increase in circulating antimelanoma CD8 T cells in 9 of 12 patients, which were significantly stimulated by the parental melanoma, reflecting a relevant antitumor response. The results from this study show that the costimulatory 4-1BB ligand fortifies an antigen-rich melanoma cell line with enhanced antigen-specific stimulation of CD8 T cells. The use of a costimulatory molecule as part of a vaccine confers a selective increase of T-cell subsets with antimelanoma reactivity, which in some cases were characterized for their epitope specificity.

Human T cell crosstalk is induced by tumor membrane transfer.

Trogocytosis is a contact-dependent unidirectional transfer of membrane fragments between immune effector cells and their targets, initially detected in T cells following interaction with professional antigen presenting cells (APC). Previously, we have demonstrated that trogocytosis also takes place between melanoma-specific cytotoxic T lymphocytes (CTLs) and their cognate tumors. In the present study, we took this finding a step further, focusing on the ability of melanoma membrane-imprinted CD8+ T cells to act as APCs (CD8+ T-APCs). We demonstrate that, following trogocytosis, CD8+ T-APCs directly present a variety of melanoma derived peptides to fraternal T cells with the same TCR specificity or to T cells with different TCRs. The resulting T cell-T cell immune synapse leads to (1) Activation of effector CTLs, as determined by proliferation, cytokine secretion and degranulation; (2) Fratricide (killing) of CD8+ T-APCs by the activated CTLs. Thus, trogocytosis enables cross-reactivity among CD8+ T cells with interchanging roles of effectors and APCs. This dual function of tumor-reactive CTLs may hint at their ability to amplify or restrict reactivity against the tumor and participate in modulation of the anti-cancer immune response.

Inhibition of P53-related apoptosis had no effect on PrP(Sc) accumulation and prion disease incubation time.

Results from several laboratories indicate that apoptosis via the P53 pathway is involved in prion disease pathogenesis. Prion diseases, among them scrapie and BSE, are a group of fatal neurodegenerative disorders associated with the conversion of PrP(C) to PrP(Sc), its conformational abnormal isoform. In this work, we tested whether an established anti-apoptotic reagent, PFT, which has been shown in different systems to inhibit P53 activity, can delay the outbreak of prion disease in infected animals. Our findings indicate that although PFT efficiently reduced caspase 3 expression in brains from scrapie sick hamsters, as well as inhibited PrP(Sc) accumulation in cell culture, it had no effect on disease incubation time or PrP(Sc) accumulation in vivo. We conclude that the P53 dependent apoptosis may not be an obligatory mechanism for prion disease-induced cell death.

Valproic acid treatment results in increased accumulation of prion proteins.

PrP(Sc), the only identified component of the prion, is an aberrant isoform of PrP(C), a glycoprotein of unknown function. In this study, it was shown that valproic acid, a widely used antiepileptic drug, can cause an increase of several orders of magnitude in the accumulation of PrP(C) in normal neuroblastoma cells (N2a), and of both PrP isoforms in scrapie infected neuroblastoma cells (ScN2a). Although preliminary results indicate that valproic acid administration to hamsters inoculated with prions had no significant effect on disease incubation time, it is suggested that administration of valproic acid to humans at risk of developing Creutzfeldt-Jakob disease should be evaluated with caution.