Current status and future prospects of peptide-based cancer vaccines.

Cancer immunotherapy has attracted attention worldwide owing to the recent development of immune checkpoint inhibitors. However, these therapies have shown limited efficacy, and further advancements are needed before these modalities can progress to widespread use. Immune checkpoint inhibitors are a type of nonspecific cancer immunotherapy, and antitumor effects are only observed when cancer-specific T cells are found within the nonspecifically activated T-cell group. In order to facilitate the development of potent immunotherapies, selective enhancement of cancer-specific T cells is essential. In this report, we discuss current and future perspectives, including the latest clinical trials of cancer-specific immunotherapies, particularly cancer peptide vaccines.

Nuclear transport impairment of amyotrophic lateral sclerosis-linked mutations in FUS/TLS.

OBJECTIVE: The fused in sarcoma/translated in liposarcoma (FUS/TLS) protein was recently identified as a cause of familial amyotrophic lateral sclerosis (ALS), as well as a major component of the inclusion bodies found in subtypes of frontotemporal lobar degeneration (FTLD). These diseases now are collectively known as the novel clinical spectrum, FUS proteinopathy. ALS-linked mutations of FUS are clustered in the C-terminal region; however, the molecular properties of mutant FUS remain unclear. To gain insight into the pathogenesis of FUS proteinopathy, we examined the biochemical and cellular characteristics of mutant FUS in expressing cells. METHODS AND RESULTS: Expression of ALS-linked FUS mutations resulted in their assembly into cytoplasmic stress granules (SGs), cellular structures that package mRNA and RNA-binding proteins during cell stress. A deletion mutant series revealed that the C-terminal region in FUS is critical for nuclear retention via Ran guanosine triphosphatase-dependent transport machinery. A parallel study of subcellular distribution revealed that ALS-linked mutants additively disturb the function of the C-terminus for nuclear traffic, resulting in cytoplasmic accumulation and the formation of SGs. INTERPRETATION: This study demonstrates that mutant FUS, which is missing the nuclear traffic activity of the C-terminus, is dislocated to cytoplasm and assembled into SGs, indicating that disruption of translational regulation and metabolism of mRNA via inappropriate/excessive SGs may be crucial for FUS proteinopathies. Our findings provide new biological and pathological insights into the FUS protein that should help our understanding of the pathogenesis of ALS/FTLD.

No requirement of trans presentations of IL-15 for human CD8 T cell proliferation.

The trans presentation of IL-15 by cells expressing the specific high-affinity receptor α-chain (IL-15Rα) to cells expressing the signaling receptor ß-chain and γ-chain is essential for the generation and maintenance of CD8 memory T cells, NK cells, and NKT cells in an in vivo mouse system. We have also demonstrated in vitro that cell-surface IL-15Rα on cells expressing all the receptor components present IL-15 to receptor ß-chain/γ-chain coexpressed on the same cell surface (cis presentation). However, although mouse CD8 T cells express all the IL-15R components, they show no evidence of cis presentation. In this study, we demonstrate that increased expression of mouse IL-15Rα in mouse CD8 T cells by retrovirus-mediated gene transfer changes the ability of the T cell to use cis presentation on the cell surface, indicating that cis presentation requires high expression of mouse IL-15Rα on the cell surface. Using cell lines expressing human or mouse receptors, we demonstrate that cis presentation occurs more efficiently in the human receptor-ligand combination than in that of the mouse system. Moreover, we found that primary human CD8 T cells do not require trans presentation of human IL-15 in vitro. These findings raise the possibility that the maintenance and generation of memory CD8 T cells are achieved via distinct mechanisms in humans and mice. Therefore, careful study of the human immune system, rather than extrapolation from the murine model, is necessary to achieve more complete understanding of memory CD8 T cell development in humans.

Crystal Structure of the interleukin-15.interleukin-15 receptor alpha complex: insights into trans and cis presentation.

Interleukin (IL)-15 is a pleiotropic cytokine that plays a pivotal role in both innate and adaptive immunity. IL-15 is unique among cytokines due to its participation in a trans signaling mechanism in which IL-15 receptor alpha (IL-15Ralpha) from one subset of cells presents IL-15 to neighboring IL-2Rbeta/gammac-expressing cells. Here we present the crystal structure of IL-15 in complex with the sushi domain of IL-15Ralpha. The structure reveals that the alpha receptor-binding epitope of IL-15 adopts a unique conformation, which, together with amino acid substitutions, permits specific interactions with IL-15Ralpha that account for the exceptionally high affinity of the IL-15.IL-15Ralpha complex. Interestingly, analysis of the topology of IL-15 and IL-15Ralpha at the IL-15.IL-15Ralpha interface suggests that IL-15 should be capable of participating in a cis signaling mechanism similar to that of the related cytokine IL-2. Indeed, we present biochemical data demonstrating that IL-15 is capable of efficiently signaling in cis through IL-15Ralpha and IL-2Rbeta/gammac expressed on the surface of a single cell. Based on our data we propose that cis presentation of IL-15 may be important in certain biological contexts and that flexibility of IL-15Ralpha permits IL-15 and its three receptor components to be assembled identically at the ligand-receptor interface whether IL-15 is presented in cis or trans. Finally, we have gained insights into IL-15.IL-15Ralpha.IL-2Rbeta.gammac quaternary complex assembly through the use of molecular modeling.