In higher eukaryotes, tRNAs with the same anticodon are encoded by multiple nuclear genes and little is known about how mutations in these genes affect translation and cellular homeostasis. Similarly, the surveillance systems that respond to such defects in higher eukaryotes are not clear. Here, we discover that loss of GTPBP2, a novel binding partner of the ribosome recycling protein Pelota, in mice with a mutation in a tRNA gene that is specifically expressed in the central nervous system causes ribosome stalling and widespread neurodegeneration. Our results not only define GTPBP2 as a ribosome rescue factor, but also unmask the disease potential of mutations in nuclear-encoded tRNA genes.
Recently emerging cancer immunotherapies combine the applications of therapeutics to disrupt the immunosuppressive conditions in tumor-bearing hosts. In this study, we found that targeting the proinflammatory cytokine IL6 enhances tumor-specific Th1 responses and subsequent antitumor effects in tumor-bearing mice. IL6 blockade upregulated expression of the immune checkpoint molecule programmed death-ligand 1 (PD-L1) on melanoma cells. This PD-L1 induction was canceled in IFNγ-deficient mice or CD4 T cell-depleted mice, suggesting that CD4 T cell-derived IFNγ is important for PD-L1 induction in tumor-bearing hosts. In some patients with melanoma, however, treatment with the anti-PD-1 antibody nivolumab increased systemic levels of IL6, which was associated with poor clinical responses. This PD-L1 blockade-evoked induction of IL6 was reproducible in melanoma-bearing mice. We found that PD-1/PD-L1 blockade prompted PD-1 macrophages to produce IL6 in the tumor microenvironment. Depletion of macrophages in melanoma-bearing mice reduced the levels of IL6 during PD-L1 blockade, suggesting macrophages are responsible for the IL6-mediated defective CD4 Th1 response. Combined blockade of the mutually regulated immunosuppressive activities of IL6 and PD-1/PD-L1 signals enhanced expression of T cell-attracting chemokines and promoted infiltration of IFNγ-producing CD4 T cells in tumor tissues, exerting a synergistic antitumor effect, whereas PD-L1 blockade alone did not promote Th1 response. Collectively, these findings suggest that IL6 is a rational immunosuppressive target for overcoming the narrow therapeutic window of anti-PD-1/PD-L1 therapy. These findings advance our understanding of IL6-PD1/PD-L1 cross-talk in the tumor microenvironment and provide clues for targeted interventional therapy that may prove more effective against cancer. .
Purpose and Experimental Design: We previously reported that glypican-3 (GPC3) was overexpressed, specifically in hepatocellular carcinoma (HCC) and melanoma in humans, and it was useful as a novel tumor marker. We also reported that the preimmunization of BALB/c mice with dendritic cells pulsed with the H-2K d -restricted mouse GPC3 298-306 (EYILSLEEL) peptide prevented the growth of tumor-expressing mouse GPC3. Because of similarities in the peptide binding motifs between H-2K d and HLA-A24 (A*2402), the GPC3 298-306 peptide therefore seemed to be useful for the immunotherapy of HLA-A24 + patients with HCC and melanoma. In this report, we investigated whether the GPC3 298-306 peptide could induce GPC3-reactive CTLs from the peripheral blood mononuclear cells (PBMC) of HLA-A24 (A*2402) + HCC patients. In addition, we used HLA-A2.1 (HHD) transgenic mice to identify the HLA-A2 (A*0201)^restricted GPC3 epitopes to expand the applications of GPC3-based immunotherapy to the HLA-A2 + HCC patients. Results: We found that the GPC3 144-152 (FVGEFFTDV) peptide could induce peptide-reactive CTLs in HLA-A2.1 (HHD) transgenic mice without inducing autoimmunity. In five out of eight HLA-A2 + GPC3 + HCC patients, the GPC3 144-152 peptide-reactive CTLs were generated from PBMCs by in vitro stimulation with the peptide and the GPC3 298-306 peptide-reactive CTLs were also generated from PBMCs in four of six HLA-A24 + GPC3 + HCC patients. The inoculation of these CTLs reduced the human HCC tumor mass implanted into nonobese diabetic/ severe combined immunodeficiency mice. Conclusion: Our study raises the possibility that these GPC3 peptides may therefore be applicable to cancer immunotherapy for a large number of HCC patients.
In order to clarify the relationship between the clinical phenotype and the human leucocyte antigen (HLA) in multiple sclerosis in Asians, 93 Japanese patients with clinically definite multiple sclerosis underwent clinical MRI and HLA-DPB1 gene typing studies. According to a neurological examination, 29 patients were classified as opticospinal multiple sclerosis, 17 as spinal multiple sclerosis and 47 as Western type multiple sclerosis showing the involvement of multiple sites in the CNS including either the cerebrum, cerebellum or brainstem. The opticospinal multiple sclerosis showed a significantly higher age of onset, higher expanded disability status scale scores and higher CSF cell counts and protein content than the Western type multiple sclerosis. On brain and spinal cord MRI, the opticospinal multiple sclerosis showed a significantly lower number of brain lesions, but a higher frequency of gadolinium-enhancement of the optic nerve and a higher frequency of spinal cord atrophy than in Western type multiple sclerosis. The frequency of the HLA-DPB1*0501 allele was found to be significantly greater in opticospinal multiple sclerosis (93%) than in healthy controls (63%, corrected P value = 0.0091 and relative risk = 7.9), but not in Western type multiple sclerosis (66%) or spinal multiple sclerosis (82%). The marked differences in the clinical and MRI findings as well as in the immunogenetic backgrounds between the opticospinal multiple sclerosis and Western-type multiple sclerosis together suggest that HLA-DPB1*0501-associated opticospinal multiple sclerosis is a distinct subtype of multiple sclerosis.
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