SMARCA4‐deficient thoracic sarcoma (SMARCA4‐DTS) is a new clinical entity characterized by SMARCA4 inactivation and has a dismal prognosis because of rapid growth. Effective treatments for SMARCA4‐DTS have not yet been developed. Most recently, anti‐programmed cell death 1 receptor (PD‐1) blockade has been effective for SMARCA4‐deficient lung cancer and malignant rhabdoid tumor‐like tumors. Here, we describe a patient with SMARCA4‐DTC who experienced a marked response to the administration of pembrolizumab. A 70‐year‐old female was referred to our department for treatment of SMARCA4‐DTC. Positron emission tomography‐computed tomography had revealed a left mediastinal tumor, peritoneal dissemination and multiple cutaneous metastases at diagnosis. Immunohistochemical analyses revealed 60% of tumor cells expressed programmed cell death ligand 1 (PD‐L1). The patient was given pembrolizumab as first‐line treatment. Pembrolizumab suppressed tumor growth dramatically, with only one dose leading to a partial response. Our case suggests the immunohistochemical analysis of PD‐L1 expression be undertaken for patients with SMARCA4‐DTS and that pembrolizumab treatment may be a promising strategy for PD‐L1‐positive SMARCA4‐DTS.
Research on human tumor immunology has greatly advanced in the past two decades. Many immunogenic tumor antigens have been identified, and some of these antigens entered in clinical trials. Consequently, it has been shown that these antigens can inhibit tumor growth in patients to some extent, indicating that they act as potent immunogenic therapeutic vaccines in cancer patients with malignancies originating from various tissues. These patients had antigen-specific cytotoxic T-lymphocyte (CTL) responses when assessed on tetramer, enzyme-linked immunospot (ELISPOT), T-cell clonotype and CTL induction efficiency. Thus, it has become clear that human tumor vaccines can evoke clinical and immunological anti-tumor responses in patients. The tumor regression effects of tumor vaccines, however, are generally low, and it is obvious that current vaccination protocols are generally too weak to provide substantial and satisfactory clinical benefits. This means that other drastic and more potent clinical and immunological protocols are required in cancer immunotherapy. To find such efficient protocols the basic immunological and biological properties of cancers must be investigated. In the present review the identification of human tumor antigens recognized on CTL and the clinical trials are introduced. Next, the most recent analysis of human cancer-initiating cell (cancer stem cell)-associated antigens is described. These antigens might be able to act as 'universal, general and fundamental' tumor antigens. Also present is the authors' recent study for increasing cross-presentation efficiency in dendritic cells and subsequent enhancement of human leukocyte antigen (HLA)-class I-restricted peptide antigenicity by using HSP90 and ORP150 molecular chaperones that act as endogenous Tolllike receptor ligands. In addition to the aforementioned manipulation of the positive loop of tumor immunity, it is necessary to regulate and intervene in the negative loop. In particular, the potential of the expression of HLA class I molecule regulation by epigenetic mechanisms will be discussed. Finally, the type of basic and clinical tumor immunology research highly required currently, and in the very near future, are described.Key words: antigenic peptide, cross-presentation, epigenetics, human leukocyte antigen, heat shock protein, T cell, tumor immunology, tumor immunotherapyThe exploitation of human cancer vaccines has been one of the main aims in basic cancer research and clinical studies. Although a huge number of immunological studies using animal tumor models has been reported, human tumor immunology research has advanced since the first human melanoma tumor antigen recognized by CD8 (+) cytotoxic T lymphocytes (CTL) was identified in 1992 by van der Bruggen et al. 1 In the past decade many such melanoma tumor antigens and their peptides presented by each human leukocyte antigen (HLA) allele have been discovered, and subsequently many tumor antigens of epithelial cancer origin have also been identified. These antigens were found using...
Angioimmunoblastic T-cell lymphoma (AITL) is an infrequent subtype of peripheral T-cell lymphoma derived from follicular helper T cells. Recently, a somatic G17V RHOA gene mutation has been reported. In this article, we examined the RHOA G17V mutation in 18 cases of AITL by 3 different techniques of Sanger sequencing, fully automated SNP genotyping, and deep sequencing, using routine diagnostic formalin-fixed paraffin-embedded tissue. The RHOA G17V mutation was detected in 10 cases (56%). Among the 10 mutated cases, 8 cases were detected by all 3 methods. The status of RHOA mutation was subsequently compared with the clinicopathologic characteristics of AITL. RHOA-mutated AITL (10 cases) was clinically characterized by high serum IL-2R and a poor ECOG performance status. By immunohistochemistry, expression of CD10, PD-1, CXCL13, and CCR4 and a wide distribution of CD21(+) follicular dendritic cells were observed in RHOA-mutated cases. Among these, CCR4 expression and the CD21(+) network in RHOA-mutated AITL cases were more extensive than in the RHOA mutation-negative AITL cases (P<0.05). Thus, RHOA-mutated AITL cases are more characteristic of follicular helper T cells, and the presence of such a mutation is an important marker for AITL.
Palmoplantar pustulosis (PPP) is an autoimmune disease characterized by psoriasis-like erythematous lesions on palms and/or soles due to an abnormal humoral immune response. Tonsillectomy is effectively employed for the treatment of PPP; however, how tonsils are involved in the aetiology of PPP remains unclear. Here we analysed surgically resected palatine tonsils from 36 cases of PPP as well as usual recurrent tonsillitis (RT) as a control. Histological examination revealed that a unique lesion, with lymphoid follicles surrounded by reticular crypt epithelial cells, was more frequently observed in tonsils of patients with PPP than in those with RT (p < 0.0001; PPP vs RT). Interestingly, crypt epithelial cells in primary cultures derived from PPP tonsils showed marked production of interleukin-6 (IL-6). Moreover, these epithelial cells from PPP tonsils expressed p53-related transcription factors in their nuclei that were found to contribute to the up-regulation of IL-6 gene expression. These findings suggest that, at least in part, the specialized lymphoepithelial symbiosis of PPP tonsils, under the control of p53-related factors, may be relevant to the generation of the impaired micro-environment underlying the aberrant production of autoantibodies.
Speradine A is a derivative of cyclopiazonic acid (CPA) found in culture of an Aspergillus tamarii isolate. Heterologous expression of a predicted methyltransferase gene, cpaM, in the cpa biosynthesis gene cluster of A. tamarii resulted in the speradine A production in a 2-oxoCPA producing A. oryzae strain, indicating cpaM is involved in the speradine A biosynthesis.
Papillary thyroid carcinoma (PTC) is a well-differentiated endocrine malignant tumor that develops from thyroid follicular epithelium. The tumor represents the most common type of endocrine malignancy; however, its tumorigenesis is not fully elucidated. The aim of this study was to address the functional role of the sorting nexin (SNX) family in PTC because of recent experimental evidence suggesting that the SNX family members actively control endocytotic transportation as well as cell fate. Expression profiles of SNX family members of PTC showed a significant quantity of transcripts of SNX5. Further immunohistochemical analysis with an SNX5-specific monoclonal antibody established in this study consistently demonstrated the preferential expression of SNX5 in PTC (94.2%, 113/120 cases) as indicated by studies on 440 cases of various tumors. In contrast, other major carcinomas originating from the lung (2.6%, 1/38 cases), breast (5.1%, 2/39 cases), and intestine (4.2%, 1/24 cases) scarcely expressed SNX5. When we investigated models of murine thyroid tumors induced by the administration of carcinogens, high expression of Snx5 was also observed in well-differentiated thyroid tumors, further implying that the tumorigenesis of the thyroid gland was tightly associated with the abundance of SNX5/Snx5. Moreover epithelial cells expressing excess SNX5 showed high levels of Caspase-2 of an initiator caspase. Collectively these findings suggest that the evaluation of SNX5 expression would support pathological diagnosis of primary and secondary PTC. (Cancer Sci 2012; 103: 1356-1362 T he thyroid gland, controlling energy production and many metabolic pathways, is the most common site for the development of malignant tumors among a variety of endocrine organs.(1) The proportion of malignant thyroid tumors has steadily increased over the last three decades.(2-4) Most thyroid tumors originate from thyroid follicular epithelial cells known as thyrocytes and exhibit various histopathological subtypes, of which papillary thyroid carcinoma (PTC) comprises the predominant subtype, with a female:male ratio of about 3:1. While PTC generally has a favorable prognosis, the tumor can potentially metastasize to regional lymph nodes, the lung and other organs.(5-8) Pre-existing benign thyroid lesions and ionizing radiation are known risk factors, and gene alterations such as BRAF and RAS point mutations, and RET/PTC and TRK gene rearrangements have been reported in PTC. (9)(10)(11)(12)(13) Gene regulatory factors making critical contributions during the development of thyrocytes are of diagnostic value for PTC in the pathologic laboratory, including thyroid transcription factors including TTF-1 and TTF-2, a hematopoietically expressed homeobox (HHEX), and paired box gene-8 (PAX8). (14)(15)(16)(17) However, the etiology of the tumor development has not been fully clarified.Thyrocytes synthesize the thyroid hormones through a multiple intracellular process coordinated by thyroid-stimulating hormone. During the process, a transcytotic pathwa...
Thyroid carcinoma is the most common endocrine malignancy and its prevalence has recently been increasing worldwide. We previously reported that the level of sorting nexin 5 (Snx5), an endosomal translocator, is preferentially decreased during the progression of well-differentiated thyroid carcinoma into poorly differentiated carcinoma. To address the functional role of Snx5 in the development and progression of thyroid carcinoma, we established Snx5-deficient (Snx5 ) mice. In comparison to wild-type (Snx5 ) mice, Snx5 mice showed enlarged thyroid glands that consisted of thyrocytes with large irregular-shaped vacuoles. Snx5 thyrocytes exhibited a higher growth potential and higher sensitivity to thyroid-stimulating hormone (TSH). A high content of early endosomes enriched with TSH receptors was found in Snx5 thyrocytes, suggesting that loss of Snx5 caused retention of the TSH receptor (TSHR) in response to TSH. Similar data were found for internalized EGF in primary thyrocytes. The increased TSH sensitivities in Snx5 thyrocytes were also confirmed by results showing that Snx5 mice steadily developed thyroid tumors with high metastatic potential under high TSH. Furthermore, a thyroid cancer model using carcinogen and an anti-thyroidal agent revealed that Snx5 mice developed metastasizing thyroid tumors with activation of MAP kinase and AKT pathways, which are postulated to be major pathways of malignant progression of human thyroid carcinoma. Our results suggest that thyrocytes require Snx5 to lessen tumorigenic signaling driven by TSH, which is a major risk factor for thyroid carcinoma. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.
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