Hepatocellular carcinoma (HCC) is the major form of liver cancer for which there is no effective therapy. Genetic modification with T-cell receptors (TCRs) specific for HCC-associated antigens, such as α-fetoprotein (AFP), can potentially redirect human T cells to specifically recognize and kill HCC tumor cells to achieve antitumor effects. In this study, using lentivector and peptide immunization, we identified a population of cluster of differentiation 8 (CD8) T cells in human leukocyte antigen (HLA)-A2 transgenic AAD mice that recognized AFP158 epitope on human HCC cells. Adoptive transfer of the AFP158 -specific mouse CD8 T cells eradicated HepG2 tumor xenografts as large as 2 cm in diameter in immunocompromised nonobese diabetic severe combined immunodeficient gamma knockout (NSG) mice. We then established T-cell hybridoma clones from the AFP158 -specific mouse CD8 T cells and identified three sets of paired TCR genes out of five hybridomas. Expression of the murine TCR genes redirected primary human T cells to bind HLA-A2/AFP158 tetramer. TCR gene-engineered human T (TCR-T) cells also specifically recognized HLA-A2+ AFP+ HepG2 HCC tumor cells and produced effector cytokines. Importantly, the TCR-T cells could specifically kill HLA-A2+ AFP+ HepG2 tumor cells without significant toxicity to normal primary hepatocytes in vitro. Adoptive transfer of the AFP-specific TCR-T cells could eradicate HepG2 tumors in NSG mice. CONCLUSION: We have identified AFP-specific murine TCR genes that can redirect human T cells to specifically recognize and kill HCC tumor cells, and those AFP158 -specific TCRs have a great potential to engineer a patient's autologous T cells to treat HCC tumors. (Hepatology 2018).
Hepatocellular carcinoma (HCC) is the major form of liver cancer for which there is no effective therapy. Genetic modification with T-cell receptors (TCRs) specific for HCC-associated antigens, such as α-fetoprotein (AFP), can potentially redirect human T cells to specifically recognize and kill HCC tumor cells to achieve antitumor effects. In this study, using lentivector and peptide immunization, we identified a population of cluster of differentiation 8 (CD8) T cells in human leukocyte antigen (HLA)-A2 transgenic AAD mice that recognized AFP158 epitope on humanHCC cells. Adoptive transfer of the AFP158 -specific mouseCD8 T cells eradicated HepG2tumor xenografts as large as 2 cm in diameter in immunocompromised nonobese diabetic severe combined immunodeficient gamma knockout (NSG) mice. We then established T-cell hybridoma clones from the AFP158 -specific mouseCD8 T cells and identified three sets of paired TCR genes out of five hybridomas. Expression of the murineTCR genes redirected primary human T cells to bind HLA-A2/AFP158 tetramer. TCR gene-engineered human T (TCR-T) cells also specifically recognized HLA-A2+ AFP+ HepG2HCC tumor cells and produced effector cytokines. Importantly, the TCR-T cells could specifically kill HLA-A2+ AFP+ HepG2tumor cells without significant toxicity to normal primary hepatocytes in vitro. Adoptive transfer of the AFP-specific TCR-T cells could eradicate HepG2tumors in NSG mice. CONCLUSION: We have identified AFP-specific murineTCR genes that can redirect human T cells to specifically recognize and kill HCC tumor cells, and those AFP158 -specific TCRs have a great potential to engineer a patient's autologous T cells to treat HCC tumors. (Hepatology 2018).
Authors: Roslin Y Docta; Tiago Ferronha; Joseph P Sanderson; Thomas Weissensteiner; George R Pope; Alan D Bennett; Nicholas J Pumphrey; Zoltan Ferjentsik; Laura L Quinn; Guy E Wiedermann; Victoria E Anderson; Manoj Saini; Miguel Maroto; Elliot Norry; Andrew B Gerry Journal: Hepatology Date: 2019-02-14 Impact factor: 17.425
Authors: Johannes C Melms; Rohit Thummalapalli; Kristin Shaw; Huihui Ye; Leo Tsai; Rupal S Bhatt; Benjamin Izar Journal: J Immunother Cancer Date: 2018-09-12 Impact factor: 13.751