Daiju Ichikawa

Natural Anti-Intestinal Goblet Cell Autoantibody Production from Marginal Zone B Cells

Expression of a germline VH3609/D/JH2 IgH in mice results in the generation of B1 B cells with anti-thymocyte/Thy-1 glycoprotein autoreactivity by coexpression of Vk21-5/Jk2 L chain leading to production of serum IgM natural autoantibody. In these same mice, the marginal zone (MZ) B cell subset in spleen shows biased usage of a set of Ig L chains different from B1 B cells, with 30% having an identical Vk19-17/Jk1 L chain rearrangement. This VH3609/Vk19-17 IgM is reactive with intestinal goblet cell granules, binding to the intact large polymatrix form of mucin 2 glycoprotein secreted by goblet cells. Analysis of a μκ B cell AgR (BCR) transgenic (Tg) mouse with this anti–goblet cell/mucin2 autoreactive (AGcA) specificity demonstrates that immature B cells expressing the Tg BCR become MZ B cells in spleen by T cell–independent BCR signaling. These Tg B cells produce AGcA as the predominant serum IgM, but without enteropathy. Without the transgene, AGcA autoreactivity is low but detectable in the serum of BALB/c and C.B17 mice, and this autoantibody is specifically produced by the MZ B cell subset. Thus, our findings reveal that AGcA is a natural autoantibody associated with MZ B cells.

GRAIL (gene related to anergy in lymphocytes) regulates cytoskeletal reorganization through ubiquitination and degradation of Arp2/3 subunit 5 and coronin 1A

Anergy is an important mechanism for the maintenance of peripheral tolerance and avoidance of autoimmunity. The up-regulation of E3 ubiqitin ligases, including GRAIL (gene related to anergy in lymphocytes), is a key event in the induction and preservation of anergy in T cells. However, the mechanisms of GRAIL-mediated anergy induction are still not completely understood. We examined which proteins serve as substrates for GRAIL in anergic T cells. Arp2/3-5 (actin-related protein 2/3 subunit 5) and coronin 1A were polyubiquitinated by GRAIL via Lys-48 and Lys-63 linkages. In anergic T cells and GRAIL-overexpressed T cells, the expression of Arp2/3-5 and coronin 1A was reduced. Furthermore, we demonstrated that GRAIL impaired lamellipodium formation and reduced the accumulation of F-actin at the immunological synapse. GRAIL functions via the ubiquitination and degradation of actin cytoskeleton-associated proteins, in particular Arp2/3-5 and coronin 1A. These data reveal that GRAIL regulates proteins involved in the actin cytoskeletal organization, thereby maintaining the unresponsive state of anergic T cells.

A Novel Phthalimide Derivative, TC11, Has Preclinical Effects on High-Risk Myeloma Cells and Osteoclasts

Despite the recent advances in the treatment of multiple myeloma (MM), MM patients with high-risk cytogenetic changes such as t(4;14) translocation or deletion of chromosome 17 still have extremely poor prognoses. With the goal of helping these high-risk MM patients, we previously developed a novel phthalimide derivative, TC11. Here we report the further characterization of TC11 including anti-myeloma effects in vitro and in vivo, a pharmacokinetic study in mice, and anti-osteoclastogenic activity. Intraperitoneal injections of TC11 significantly delayed the growth of subcutaneous tumors in human myeloma-bearing SCID mice. Immunohistochemical analyses showed that TC11 induced apoptosis of MM cells in vivo. In the pharmacokinetic analyses, the Cmax was 2.1 μM at 1 h after the injection of TC11, with 1.2 h as the half-life. TC11 significantly inhibited the differentiation and function of tartrate-resistant acid phosphatase (TRAP)-positive multinucleated osteoclasts in mouse osteoclast cultures using M-CSF and RANKL. We also revealed that TC11 induced the apoptosis of myeloma cells accompanied by α-tubulin fragmentation. In addition, TC11 and lenalidomide, another phthalimide derivative, directly bound to nucleophosmin 1 (NPM1), whose role in MM is unknown. Thus, through multiple molecular interactions, TC11 is a potentially effective drug for high-risk MM patients with bone lesions. The present results suggest the possibility of the further development of novel thalidomide derivatives by drug designing.

Identification of Novel HLA-A*24:02-Restricted Epitope Derived from a Homeobox Protein Expressed in Hematological Malignancies.

The homeobox protein, PEPP2 (RHOXF2), has been suggested as a cancer/testis (CT) antigen based on its expression pattern. However, the peptide epitope of PEPP2 that is recognized by cytotoxic T cells (CTLs) is unknown. In this study, we revealed that PEPP2 gene was highly expressed in myeloid leukemia cells and some other hematological malignancies. This gene was also expressed in leukemic stem-like cells. We next identified the first reported epitope peptide (PEPP2271-279). The CTLs induced by PEPP2271-279 recognized PEPP2-positive target cells in an HLA-A*24:02-restricted manner. We also found that a demethylating agent, 5-aza-2’-deoxycytidine, could enhance PEPP2 expression in leukemia cells but not in blood mononuclear cells from healthy donors. The cytotoxic activity of anti-PEPP2 CTL against leukemic cells treated with 5-aza-2’-deoxycytidine was higher than that directed against untreated cells. These results suggest a clinical rationale that combined treatment with this novel antigen-specific immunotherapy together with demethylating agents might be effective in therapy-resistant myeloid leukemia patients.

Codon 72 polymorphism of TP53 gene is a novel prognostic marker for therapy in multiple myeloma

Despite recent advances in the treatment of multiple myeloma (MM), patients with high-risk chromosomal abnormalities, such as deletion of chromosome 17 (del 17), on which the TP53 tumour suppressor gene is localized, revealed significantly shorter survival. In addition to the dominant effect of TP53 deletion, the association between TP53 polymorphism at codon 72 and cancer risk in various types of cancers has been widely studied. Namely, the transition of the

Synthesis and biological evaluation of the natural product komaroviquinone and related compounds aiming at a potential therapeutic lead compound for high-risk multiple myeloma

Alternatives of treatments for multiple myeloma (MM) have become increasingly available with the advent of new drugs such as proteasome inhibitors, thalidomide derivatives, histone deacetylase inhibitors, and antibody drugs. However, high-risk MM cases that are refractory to novel drugs remain, and further optimization of chemotherapeutics is urgently needed. We had achieved asymmetric total synthesis of komaroviquinone, which is a natural product from the plant Dracocephalum komarovi. Similar to several leading antitumor agents that have been developed from natural compounds, we describe the antitumor activity and cytotoxicity of komaroviquinone and related compounds in bone marrow cells. Our data suggested that komaroviquinone-related agents have potential as starting compounds for anticancer drug development.

Early generated B-1–derived B cells have the capacity to progress to become mantle cell lymphoma–like neoplasia in aged mice

In mice, fetal/neonatal B-1 cell development generates murine CD5+ B cells (B1a) with autoreactivity. We analyzed B1a cells at the neonatal stage in a VH11/D/JH knock-in mouse line (VH11t) that generates an autoreactive antiphosphatidylcholine BCR. Our study revealed that antiphosphatidylcholine B1a cells develop in liver, mature in spleen, and distribute in intestine/colon, mesenteric lymph node (mLN), and body cavity as the outcome of B-1 cell development before B-2 cell development. Throughout life, self-renewing B-1 B1a cells circulate through intestine, mesenteric vessel, and blood. The body cavity–deposited B1a cells also remigrate. In old age, some B1a cells proceed to monoclonal B cell lymphocytosis. When neonatal B-1 B1a cells express an antithymocyte/Thy-1 autoreactivity (ATA) BCR transgene in the C.B17 mouse background, ATA B cells increase in PBL and strongly develop lymphomas in aging mice that feature splenomegaly and mLN hyperplasia with heightened expression of CD11b, IL-10, and activated Stat3. At the adult stage, ATA B cells were normally present in the mantle zone area, including in intestine. Furthermore, frequent association with mLN hyperplasia suggests the influence by intestinal microenvironment on lymphoma development. When cyclin D1 was overexpressed by the Eμ-cyclin D1 transgene, ATA B cells progressed to further diffused lymphoma in aged mice, including in various lymph nodes with accumulation of IgMhiIgDloCD5+CD23−CD43+ cells, resembling aggressive human mantle cell lymphoma. Thus, our findings reveal that early generated B cells, as an outcome of B-1 cell development, can progress to become lymphocytosis, lymphoma, and mantle cell lymphoma–like neoplasia in aged mice.

NLR Nod1 signaling promotes survival of BCR-engaged mature B cells through up-regulated Nod1 as a positive outcome

Although B cell development requires expression of the B cell antigen receptor (BCR), it remains unclear whether engagement of self-antigen provides a positive impact for most B cells. Here, we show that BCR engagement by self-ligand during development in vivo results in up-regulation of the Nod-like receptor member Nod1, which recognizes the products of intestinal commensal bacteria. In anti-thymocyte/Thy-1 autoreactive BCR knock-in mice lacking self–Thy-1 ligand, immunoglobulin light chain editing occurred, generating B cells with up-regulated Nod1, including follicular and marginal zone B cells with natural autoreactivity. This BCR editing with increased Nod1 resulted in preferential survival. In normal adult mice, most mature B cells are enriched for Nod1 up-regulated cells, and signaling through Nod1 promotes competitive survival of mature B cells. These findings demonstrate a role for microbial products in promoting survival of mature B cells through up-regulated Nod1, providing a positive effect of BCR engagement on development of most B cells.

Abstract 5121: PEG(E)-TC11, a novel polyethylene glycol-linked phthalimide derivative, inhibited high-risk MM cell growthin vivoandin vitrovia cell cycle G2/M arrest in a CRBN-independent manner

Multiple myeloma (MM) is one of the hematological malignancy that is characterized by proliferation of malignant plasma cells. Recent advance in the treatment of MM using newly developed drugs, prognosis of the MM patients have been significantly improved. For example, immunomodulatory drugs (IMiDs) such as thalidomide, lenalidomide and pomalidomide have been developed for treatment of MM. However, IMiDs have only limited effects against MM patients with high risk chromosomal abnormalities such as t(4;14) and del17p (high-risk MM). In 2010, it was reported that IMiDs directly bind to cereblon (CRBN), a component of ubiquitin ligase 3 complex, and induced teratogenicity as well as anti-tumor effects. We have previously reported that a novel phthalimide derivative, 2-(2,6-diisopropylphenyl)-5-amino-1H-isoindole-1,3-dione (TC11) induced apoptosis against high-risk MM cells in vivo and in vitro, and inhibited differentiation of osteoclasts. We also reported that TC11 directly bound to α-tubulin and nucleophosmin-1 (NPM1), but did not bind to CRBN. However, TC11 was not well dissolved in water with only 0.02 mg/mL solubility. Therefore, TC11 showed poor absorption into blood and limited anti-tumor activity when it was intraperitoneally administered in tumor-bearing mice. To resolve these problems, we synthesized PEG(E)-TC11, in which TC11 is linked to polyethylene glycol through an ester bond, and consequently enhanced water solubility of PEG(E)-TC11 to 88.9 mg/mL. PEG(E)-TC11 revealed as potent growth inhibitory effect on high-risk MM cells as TC11 in vitro. In pharmacokinetic study, PEG-modification of TC11 improved the peak blood concentration (Cmax) from 2.6 to 24.4 μM and extended elimination half-life (t1/2) from 1.4 to 2.2 hr when 186 μM/kg of these compounds were intraperitoneally injected. More importantly, these pharmacokinetic improvement led to more potent growth inhibition of MM cells in vivo than TC11. We also explored mechanisms of anti-myeloma effect of PEG(E)-TC11 and found that PEG(E)-TC11 induced apoptosis via G2/M cell cycle arrest. However, unlike IMiDs family, BIACORE assay revealed that PEG(E)-TC11 didn’t directly bind to CRBN, indicating that growth inhibitory effect of PEG(E)-TC11 against MM cells was independent of binding to CRBN. In conclusion, PEGylation of TC11 significantly increased water solubility, resulted in potentiated anti-myeloma activity in vivo. Furthermore, PEG(E)-TC11 inhibited cell growth via G2/M arrest in a CRBN-independent manner. Thus, PEG(E)-TC11 is considered as a candidate compound for overcoming high-risk MM. Citation Format: Shuji Aida, Daiju Ichikawa, Kazuki Iida, Masashi Hozumi, Misa Nakamura, Ryo Uozaki, Nahoko Hashimoto, Mikio Okayama, Yuko Yonemura, Noriko Tabata, Taketo Yamada, Maiko Matsushita, Takeshi Sugai, Hiroshi Yanagawa, Yutaka Hattori. PEG(E)-TC11, a novel polyethylene glycol-linked phthalimide derivative, inhibited high-risk MM cell growth in vivo and in vitro via cell cycle G2/M arrest in a CRBN-independent manner [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 5121. doi:10.1158/1538-7445.AM2017-5121

CXorf48 is a potential therapeutic target for achieving treatment-free remission in CML patients

Although the introduction of tyrosine kinase inhibitors (TKIs) has improved overall survival of patients with chronic myeloid leukemia (CML), about half of the patients eventually relapse after cessation of TKIs. In contrast, the remainder of the patients maintain molecular remission without TKIs, indicating that the patients’ immune system could control proliferation of TKI-resistant leukemic stem cells (LSCs). However, the precise mechanism of immunity against CML-LSCs is not fully understood. We have identified a novel immune target, CXorf48, expressed in LSCs of CML patients. Cytotoxic T cells (CTLs) induced by the epitope peptide derived from CXorf48 recognized CD34+CD38− cells obtained from the bone marrow of CML patients. We detected CXorf48-specific CTLs in the peripheral blood mononuclear cells from CML patients who have discontinued imatinib after maintaining complete molecular remission for more than 2 years. Significantly, the relapse rate of CXorf48-specific CTL-negative patients was 63.6%, compared to 0% in CXorf48-specific CTL-positive patients. These results indicate that CXorf48 could be a promising therapeutic target of LSCs for immunotherapy to obtain durable treatment-free remission in CML patients.