研究者業績

中山 哲俊

ナカヤマ アキトシ  (Akitoshi Nakayama)

基本情報

所属
千葉大学 大学院医学研究院分子病態解析学 特任助教
学位
博士(医学)(2016年3月 千葉大学)

J-GLOBAL ID
201801018195508008
researchmap会員ID
B000311195

外部リンク

千葉大学大学院 医学研究院 分子病態解析学講座で、癌抑制遺伝子p53の変異がもたらす"gain of function"に着目し、コレステロール合成経路を介したがん悪性化・休眠に関する研究を主に行っています。

また、フェロトーシスによる腫瘍抑制機構やp53誘導型lnc-RNAによる抗がん剤耐性のメカニズム、内分泌腫瘍を用いた機能解析・病理検体解析・初代培養による発症メカニズムの解明、ミトコンドリア超複合体解析・代謝Flux解析を用いたp53依存的エネルギー代謝制御に関する研究にも従事してきました。


現在は難治性乳がんの克服と新たな創薬標的の発掘を目指して、3次元培養条件下でのSingle Cellを含めたNGS解析やnon-target proteomicsを行い、変異p53依存的な悪性化・転移機構の分子基盤の解明を目指しています。


研究キーワード

 4

論文

 17
  • Ikki Sakuma, Hidekazu Nagano, Naoko Hashimoto, Masanori Fujimoto, Akitoshi Nakayama, Takahiro Fuchigami, Yuki Taki, Tatsuma Matsuda, Hiroyuki Akamine, Satomi Kono, Takashi Kono, Masataka Yokoyama, Motoi Nishimura, Koutaro Yokote, Tatsuki Ogasawara, Yoichi Fujii, Seishi Ogawa, Eunyoung Lee, Takashi Miki, Tomoaki Tanaka
    Communications biology 6(1) 787-787 2023年7月28日  査読有り
    Fructose-1,6-bisphosphatase (FBPase) deficiency, caused by an FBP1 mutation, is an autosomal recessive disorder characterized by hypoglycemic lactic acidosis. Due to the rarity of FBPase deficiency, the mechanism by which the mutations cause enzyme activity loss still remains unclear. Here we identify compound heterozygous missense mutations of FBP1, c.491G>A (p.G164D) and c.581T>C (p.F194S), in an adult patient with hypoglycemic lactic acidosis. The G164D and F194S FBP1 mutants exhibit decreased FBP1 protein expression and a loss of FBPase enzyme activity. The biochemical phenotypes of all previously reported FBP1 missense mutations in addition to G164D and F194S are classified into three functional categories. Type 1 mutations are located at pivotal residues in enzyme activity motifs and have no effects on protein expression. Type 2 mutations structurally cluster around the substrate binding pocket and are associated with decreased protein expression due to protein misfolding. Type 3 mutations are likely nonpathogenic. These findings demonstrate a key role of protein misfolding in mediating the pathogenesis of FBPase deficiency, particularly for Type 2 mutations. This study provides important insights that certain patients with Type 2 mutations may respond to chaperone molecules.
  • Azusa Yamato, Hidekazu Nagano, Yue Gao, Tatsuma Matsuda, Naoko Hashimoto, Akitoshi Nakayama, Kazuyuki Yamagata, Masataka Yokoyama, Yingbo Gong, Xiaoyan Shi, Siti Nurul Zhahara, Takashi Kono, Yuki Taki, Naoto Furuki, Motoi Nishimura, Kentaro Horiguchi, Yasuo Iwadate, Masaki Fukuyo, Bahityar Rahmutulla, Atsushi Kaneda, Yoshinori Hasegawa, Yusuke Kawashima, Osamu Ohara, Tetsuo Ishikawa, Eiryo Kawakami, Yasuhiro Nakamura, Naoko Inoshita, Shozo Yamada, Noriaki Fukuhara, Hiroshi Nishioka, Tomoaki Tanaka
    Communications biology 5(1) 1304-1304 2022年11月27日  査読有り
  • Alimasi Aersilan, Naoko Hashimoto, Kazuyuki Yamagata, Masataka Yokoyama, Akitoshi Nakayama, Xiaoyan Shi, Hidekazu Nagano, Ikki Sakuma, Nijiro Nohata, Takashi Kinoshita, Naohiko Seki, Bahityar Rahmutulla, Atsushi Kaneda, Siti Nurul Zhahara, Yingbo Gong, Motoi Nishimura, Shoichiro Kawauchi, Eiryo Kawakami, Tomoaki Tanaka
    Scientific reports 12(1) 18443-18443 2022年11月2日  査読有り
    The microRNA (miR) miR-874, a potential tumour suppressor, causes cell death via target gene suppression in various cancer types. Mevalonate pathway inhibition also causes cell death in breast cancer. However, the relationship between the mevalonate pathway and miR-874-induced apoptosis or its association with the tumour suppressor p53 has not been elucidated. We identified phosphomevalonate kinase (PMVK), a key mevalonate pathway enzyme, and sterol regulatory element-binding factor 2 (SREBF2), the master cholesterol biosynthesis regulator, as direct miR‑874 targets. Next-generation sequencing analysis revealed a significant miR-874-mediated downregulation of PMVK and SREBF2 gene expression and p53 pathway enrichment. Luciferase reporter assays showed that miR-874 directly regulated PMVK and SREBF2. miR-874-induced apoptosis was p53 dependent, and single-cell RNA sequencing analysis demonstrated that miR-874 transfection resulted in apoptosis and p53 pathway activation. Downregulation of PMVK expression also caused cell cycle arrest and p53 pathway activation, which was rescued by geranylgeranyl pyrophosphate (GGPP) supplementation. Analysis of The Cancer Genome Atlas (TCGA) database indicated a negative correlation between miR-874 and PMVK expression and between miR-874 and SREBF2 expression. These findings suggest that miR-874 suppresses the mevalonate pathway by targeting SREBF2 and PMVK, resulting in GGPP depletion, which activates the p53 pathway and promotes cycle arrest or apoptosis.
  • Masanori Fujimoto, Masataka Yokoyama, Masahiro Kiuchi, Hiroyuki Hosokawa, Akitoshi Nakayama, Naoko Hashimoto, Ikki Sakuma, Hidekazu Nagano, Kazuyuki Yamagata, Fujimi Kudo, Ichiro Manabe, Eunyoung Lee, Ryo Hatano, Atsushi Onodera, Kiyoshi Hirahara, Koutaro Yokote, Takashi Miki, Toshinori Nakayama, Tomoaki Tanaka
    Nature communications 13(1) 5408-5408 2022年9月15日  査読有り
    The liver stores glycogen and releases glucose into the blood upon increased energy demand. Group 2 innate lymphoid cells (ILC2) in adipose and pancreatic tissues are known for their involvement in glucose homeostasis, but the metabolic contribution of liver ILC2s has not been studied in detail. Here we show that liver ILC2s are directly involved in the regulation of blood glucose levels. Mechanistically, interleukin (IL)-33 treatment induces IL-13 production in liver ILC2s, while directly suppressing gluconeogenesis in a specific Hnf4a/G6pc-high primary hepatocyte cluster via Stat3. These hepatocytes significantly interact with liver ILC2s via IL-13/IL-13 receptor signaling. The results of transcriptional complex analysis and GATA3-ChIP-seq, ATAC-seq, and scRNA-seq trajectory analyses establish a positive regulatory role for the transcription factor GATA3 in IL-13 production by liver ILC2s, while AP-1 family members are shown to suppress IL-13 release. Thus, we identify a regulatory role and molecular mechanism by which liver ILC2s contribute to glucose homeostasis.
  • Sawako Suzuki, Divya Venkatesh, Hiroaki Kanda, Akitoshi Nakayama, Hiroyuki Hosokawa, Eunyoung Lee, Takashi Miki, Brent R. Stockwell, Koutaro Yokote, Tomoaki Tanaka, Carol Prives
    Cancer Research 82(18) 3209-3222 2022年7月27日  査読有り
    Abstract Glutamine synthase 2 (GLS2) is a key regulator of glutaminolysis and has been previously implicated in activities consistent with tumor suppression. Here we generated Gls2 knockout (KO) mice that develop late-occurring B-cell lymphomas and hepatocellular carcinomas (HCC). Further, Gls2 KO mice subjected to the hepatocarcinogenic Stelic Animal Model (STAM) protocol produce larger HCC tumors than seen in wild-type (WT) mice. GLS2 has been shown to promote ferroptosis, a form of cell death characterized by iron-dependent accumulation of lipid peroxides. In line with this, GLS2 deficiency, either in cells derived from Gls2 KO mice or in human cancer cells depleted of GLS2, conferred significant resistance to ferroptosis. Mechanistically, GLS2, but not GLS1, increased lipid reactive oxygen species (ROS) production by facilitating the conversion of glutamate to α-ketoglutarate (αKG), thereby promoting ferroptosis. Ectopic expression of WT GLS2 in a human hepatic adenocarcinoma xenograft model significantly reduced tumor size; this effect was nullified by either expressing a catalytically inactive form of GLS2 or by blocking ferroptosis. Furthermore, analysis of cancer patient datasets supported a role for GLS2-mediated regulation of ferroptosis in human tumor suppression. These data suggest that GLS2 is a bona fide tumor suppressor and that its ability to favor ferroptosis by regulating glutaminolysis contributes to its tumor suppressive function. Significance: This study demonstrates that the key regulator of glutaminolysis, GLS2, can limit HCC in vivo by promoting ferroptosis through αKG-dependent lipid ROS, which in turn might lay the foundation for a novel therapeutic approach.
  • Yoshitaka Kubota, Hidekazu Nagano, Kentaro Kosaka, Hideyuki Ogata, Akitoshi Nakayama, Masataka Yokoyama, Kazutaka Murata, Shinsuke Akita, Motone Kuriyama, Nobutaka Furuyama, Masayuki Kuroda, Tomoaki Tanaka, Nobuyuki Mitsukawa
    American journal of physiology. Cell physiology 321(3) C596-C606 2021年7月28日  査読有り
    AIM: Ceiling culture-derived preadipocytes (ccdPAs) and adipose-derived stem cells (ASCs) can be harvested from human subcutaneous fat tissue using the specific gravity method. Both cell types possess a similar spindle shape without lipid droplets. We previously reported that ccdPAs have a higher adipogenic potential than ASCs, even after a 7-week culture. We performed a genome-wide epigenetic analysis to examine the mechanisms contributing to the adipogenic potential differences between ccdPAs and ASCs. MATERIALS AND METHODS: Methylation analysis of cytosines followed by guanine (CpG) using a 450K BeadChip was performed on human ccdPAs and ASCs isolated from three metabolically healthy females. Chromatin immunoprecipitation sequencing (ChIP-seq) was performed to evaluate trimethylation at lysine 4 of histone 3 (H3K4me3). RESULTS: Unsupervised machine learning using t-distributed stochastic neighbor embedding (tSNE) to interpret 450,000-dimensional methylation assay data showed that the cells were divided into ASC and ccdPA groups. In KEGG pathway analysis of 1,543 genes with differential promoter CpG methylation, the peroxisome proliferator-activated receptor (PPAR) and adipocytokine signaling pathways ranked in the top 10 pathways. In the PPAR gamma gene, H3K4me3 peak levels were higher in ccdPAs than in ASCs, whereas promoter CpG methylation levels were significantly lower in ccdPAs than in ASCs. Similar differences in promoter CpG methylation were also seen in the fatty acid-binding protein 4 (FABP4) and leptin genes. CONCLUSION: We analyzed the epigenetic status of adipogenesis-related genes as a potential mechanism underlying the differences in adipogenic differentiation capability between ASCs and ccdPAs.
  • Hiroaki Ochiiwa, Guzhanuer Ailiken, Masataka Yokoyama, Kazuyuki Yamagata, Hidekazu Nagano, Chihoko Yoshimura, Hiromi Muraoka, Keiji Ishida, Tomonori Haruma, Akitoshi Nakayama, Naoko Hashimoto, Kazutaka Murata, Motoi Nishimura, Yusuke Kawashima, Osamu Ohara, Shuichi Ohkubo, Tomoaki Tanaka
    Oncogene 40(7) 1217-1230 2021年2月  査読有り
    TAS4464, a potent, selective small molecule NEDD8-activating enzyme (NAE) inhibitor, leads to inactivation of cullin-RING E3 ubiquitin ligases (CRLs) and consequent accumulations of its substrate proteins. Here, we investigated the antitumor properties and action mechanism of TAS4464 in acute myeloid leukemia (AML). TAS4464 induced apoptotic cell death in various AML cell lines. TAS4464 treatments resulted in the activation of both the caspase-9-mediated intrinsic apoptotic pathway and caspase-8-mediated extrinsic apoptotic pathway in AML cells; combined treatment with inhibitors of these caspases markedly diminished TAS4464-induced apoptosis. In each apoptotic pathway, TAS4464 induced the mRNA transcription of the intrinsic proapoptotic factor NOXA and decreased that of the extrinsic antiapoptotic factor c-FLIP. RNA-sequencing analysis showed that the signaling pathway of the CRL substrate c-Myc was enriched after TAS4464 treatment. Chromatin immunoprecipitation (ChIP) assay revealed that TAS4464-induced c-Myc bound to the PMAIP1 (encoding NOXA) and CFLAR (encoding c-FLIP) promoter regions, and siRNA-mediated c-Myc knockdown neutralized both TAS4464-mediated NOXA induction and c-FLIP downregulation. TAS4464 activated both caspase-8 and caspase-9 along with an increase in NOXA and a decrease in c-FLIP, resulting in complete tumor remission in a human AML xenograft model. These findings suggest that NAE inhibition leads to anti-AML activity via a novel c-Myc-dependent apoptosis induction mechanism.
  • Shoko Kakinuma, Minako Beppu, Setsu Sawai, Akitoshi Nakayama, Shigeki Hirano, Yoshitaka Yamanaka, Tatsuya Yamamoto, Chigusa Masafumi, Xiamuxiya Aisihaer, Alimasi Aersilan, Yue Gao, Kenichi Sato, Itoga Sakae, Takayuki Ishige, Motoi Nishimura, Kazuyuki Matsushita, Mamoru Satoh, Fumio Nomura, Satoshi Kuwabara, Tomoaki Tanaka
    eNeurologicalSci 19 100239-100239 2020年6月  査読有り
    Background: Dopamine replacement therapy is an established treatment for motor symptoms of Parkinson's disease, but its long-term use is often limited by the eventual development of motor complications, including levodopa-induced dyskinesia. Genetic background, particularly polymorphisms of dopamine metabolism genes, may affect the occurrence of dyskinesia in Parkinson's disease patients. Methods: We investigated polymorphisms of dopamine metabolism genes, including catechol-O-methyltransferase, monoamine oxidase B, dopamine beta-hydroxylasedopamine, dopamine receptors D1, D2, and D3, and dopamine transporter, in 110 patients with Parkinson's disease. Cox proportional hazards regression was used to detect associations between genotypes and levodopa-induced dyskinesia. Results: Monoamine oxidase B rs1799836 was the only polymorphism correlated with risk of dyskinesia. Patients with an AG or GG genotype were more likely to have dyskinesia than those with an AA genotype (adjusted hazard ratio, 3.41; 95% confidence interval, 1.28-9.10). Also, Kaplan-Meier curves demonstrated that patients with an AG or GG genotype developed dyskinesia earlier than those with an AA genotype (log-rank test, p = .004). Conclusions: In Parkinson's disease patients, the monoamine oxidase B rs1799836 G allele is associated with a greater likelihood of developing dyskinesia than the A allele, possibly due to its association with lower monoamine oxidase B activity in the brain. Thus, detection of monoamine oxidase B polymorphisms may be useful for determining the optimal dosing of antiparkinson medications.
  • Tomohiko Yoshida, Akitoshi Nakayama, Ai Tamura, Seiichiro Higuchi, Ikki Sakuma, Hidekazu Nagano, Saulo Ja Felizola, Naoko Hashimoto, Minoru Takemoto, Ichiro Tatsuno, Hisashi Koide, Koutaro Yokote, Tomoaki Tanaka
    The Journal of clinical endocrinology and metabolism 105(2) 2020年2月1日  査読有り
    CONTEXT: Hashimoto's thyroiditis is the most common cause of hypothyroidism. Patients usually respond well to oral synthetic thyroxine (levothyroxine); however, for unknown reasons some individuals present with treatment-resistant Hashimoto thyroiditis. In cases of cancer and certain infectious diseases, the ATP binding cassette (ABC) transporters have been implicated in multidrug resistance, and we hypothesized and investigated a role of ABC transporters in drug-resistant Hashimoto's thyroiditis. CASE DESCRIPTION: The patient whose case we report had a history of Hashimoto's thyroiditis, immune thrombocytopenia, and refractory hypertension, with varying treatment resistance to the oral medications prescribed for each condition. In order to establish or exclude a genetic basis for her illness, we examined the patient's gene expression profiles using peripheral blood leukocytes, and found that ABCG2/BCRPexpression was significantly high compared with healthy volunteers. Also, the increased daunomycin efflux capacity of our patient's lymphocytes was successfully inhibited by fumitremorgin C, a specific ABCG2/BCRP inhibitor, and the patient's level of thyroid-stimulating hormone increased by 248.6% after administration of intact levothyroxine tablets but decreased by 45.1% when tablets were crushed. Her average blood pressure decreased from 166.3/108.5 mmHg to 125.9/78.8 mmHg when switching from intact to crushed losartan tablets. CONCLUSIONS: High expression and accelerated efflux transporter activity of ABCG2/BCRP in the small intestine are expected to contribute to the ineffectiveness of orally administered intact tablets in cases with treatment-resistant Hashimoto's thyroiditis, and crushed tablets can be more effective for some of these patients.
  • Hidekazu Nagano, Naoko Hashimoto, Akitoshi Nakayama, Sawako Suzuki, Yui Miyabayashi, Azusa Yamato, Seiichiro Higuchi, Masanori Fujimoto, Ikki Sakuma, Minako Beppu, Masataka Yokoyama, Yutaka Suzuki, Sumio Sugano, Kazuhiro Ikeda, Ichiro Tatsuno, Ichiro Manabe, Koutaro Yokote, Satoshi Inoue, Tomoaki Tanaka
    Proceedings of the National Academy of Sciences of the United States of America 115(33) 8370-8375 2018年8月14日  査読有り
    The tumor suppressor p53 regulates multiple cellular functions, including energy metabolism. Metabolic deregulation is implicated in the pathogenesis of some cancers and in metabolic disorders and may result from the inactivation of p53 functions. Using RNA sequencing and ChIP sequencing of cancer cells and preadipocytes, we demonstrate that p53 modulates several metabolic processes via the transactivation of energy metabolism genes including dihydropyrimidinase-like 4 (DPYSL4). DPYSL4 is a member of the collapsin response mediator protein family, which is involved in cancer invasion and progression. Intriguingly, DPYSL4 overexpression in cancer cells and preadipocytes up-regulated ATP production and oxygen consumption, while DPYSL4 knockdown using siRNA or CRISPR/Cas9 down-regulated energy production. Furthermore, DPYSL4 was associated with mitochondrial supercomplexes, and deletion of its dihydropyrimidinase-like domain abolished its association and its ability to stimulate ATP production and suppress the cancer cell invasion. Mouse-xenograft and lung-metastasis models indicated that DPYSL4 expression compromised tumor growth and metastasis in vivo. Consistently, database analyses demonstrated that low DPYSL4 expression was significantly associated with poor survival of breast and ovarian cancers in accordance with its reduced expression in certain types of cancer tissues. Moreover, immunohistochemical analysis using the adipose tissue of obese patients revealed that DPYSL4 expression was positively correlated with INFg and body mass index in accordance with p53 activation. Together, these results suggest that DPYSL4 plays a key role in the tumor-suppressor function of p53 by regulating oxidative phosphorylation and the cellular energy supply via its association with mitochondrial supercomplexes, possibly linking to the pathophysiology of both cancer and obesity.
  • Ai Tamura, Tatsuki Ogasawara, Yoichi Fujii, Hiyori Kaneko, Akitoshi Nakayama, Seiichiro Higuchi, Naoko Hashimoto, Yui Miyabayashi, Masanori Fujimoto, Eri Komai, Takashi Kono, Ikki Sakuma, Hidekazu Nagano, Sawako Suzuki, Hisashi Koide, Koutaro Yokote, Kozue Iseki, Rena Oguma, Hiroyuki Matsue, Hiroyuki Nojima, Kensuke Sugiura, Hideyuki Yoshitomi, Masayuki Ohtsuka, Bahityar Rahmutulla, Atsushi Kaneda, Naoko Inoshita, Seishi Ogawa, Tomoaki Tanaka
    The Journal of clinical endocrinology and metabolism 103(7) 2417-2423 2018年7月1日  査読有り
    Context: Necrolytic migratory erythema (NME) occurs in approximately 70% of patients with glucagonoma syndrome. Excessive stimulation of metabolic pathways by hyperglucagonemia, which leads to hypoaminoacidemia, contributes to NME pathogenesis. However, the molecular pathogenesis of glucagonoma and relationships between metabolic abnormalities and clinical symptoms remain unclear. Patient: A 53-year-old woman was referred to our hospital with a generalized rash and weight loss. NME was diagnosed by histopathological examination of skin biopsy tissue. Laboratory tests revealed diabetes, hyperglucagonemia, marked insulin resistance, severe hypoaminoacidemia, ketosis, and anemia. Enhanced computed tomography scans detected a 29-mm pancreatic hypervascular tumor, which was eventually diagnosed as glucagonoma. Preoperative treatment with octreotide long-acting release reduced the glucagon level, improved the amino acid profile, and produced NME remission. Surgical tumor excision normalized the metabolic status and led to remission of symptoms, including NME. Interventions: Whole-exome sequencing (WES) and subsequent targeted capture sequencing, followed by Sanger sequencing and pyrosequencing, identified biallelic alteration of death-domain associated protein (DAXX) with a combination of loss of heterozygosity and frameshift mutations (c.553_554del:p.R185fs and c.1884dupC:p.C629fs) in the glucagonoma. Consistently, immunohistochemistry confirmed near-absence of DAXX staining in the tumor cells. Tumor expression of glucagon and somatostatin receptor subtype 2 and 3 messenger RNA was markedly upregulated. Conclusions: This is a report of glucagonoma with biallelic inactivation of DAXX determined by WES. The tumor manifested as glucagonoma syndrome with generalized NME. This case showed the relationship between hypoaminoacidemia and NME status. Further investigations are required to elucidate the underlying mechanisms of NME onset and glucagonoma tumorigenesis.
  • Hisashi Koide, Akina Shiga, Eri Komai, Azusa Yamato, Masanori Fujimoto, Ai Tamura, Takashi Kono, Akitoshi Nakayama, Tomoko Takiguchi, Seiichiro Higuchi, Ikki Sakuma, Hidekazu Nagano, Naoko Hashimoto, Sawako Suzuki, Yasuaki Takeda, Makoto Shibuya, Hiroshi Nishioka, Shozo Yamada, Naoko Inoshita, Norio Ishiwatari, Kentaro Horiguchi, Koutaro Yokote, Tomoaki Tanaka
    Internal medicine (Tokyo, Japan) 57(3) 367-375 2018年2月1日  査読有り
    We herein report the case of a 25-year-old woman who presented with severe headache and visual field defects after childbirth. Magnetic resonance imaging revealed marked swelling of the pituitary gland, and an endocrinological examination revealed panhypopituitarism and diabetes insipidus. An immunohistological analysis of a transsphenoidal biopsy sample of the pituitary gland showed the significant accumulation of an immunogloblin G4 (IgG4)-positive population, leading to the diagnosis of IgG4-related hypophysitis. The patient was treated with prednisolone, which markedly reduced the swelling of the pituitary gland, in association with recovery of the pituitary function. This is a rare case of biopsy-proven IgG4-related hypophysitis with a postpartum onset.
  • Hidekazu Nagano, Yoshinori Nakagawa, Naofumi Ishikawa, Hiroya Watanabe, Yui Miyabayashi, Akitoshi Nakayama, Masanori Fujimoto, Eri Komai, Akina Shiga, Ai Tamura, Takashi Kono, Tomoko Takiguchi, Seiichiro Higuchi, Ikki Sakuma, Naoko Hashimoto, Sawako Suzuki, Hisashi Koide, Koutaro Yokote, Tomoaki Tanaka
    Endocrine practice : official journal of the American College of Endocrinology and the American Association of Clinical Endocrinologists 23(11) 1325-1332 2017年11月  査読有り
    OBJECTIVE: Familial dysalbuminemic hyperthyroxinemia (FDH) is caused by abnormal human serum albumin (HSA) with an increased thyroxine (T4) affinity leading to euthyroid hyperthyroxinemia. One- and 2-step immunoassays of serum samples from FDH patients (e.g., Japanese patients) with the HSA R218P mutation can yield false-positive free thyroxine (FT4) results. Therefore, it is difficult to distinguish FDH from syndrome of inappropriate secretion of thyroid-stimulating hormone (TSH) (e.g., syndrome of resistance to thyroid hormone, TSH-producing pituitary adenoma), even when multiple assays are used. To investigate T4 to HSA binding, we examined serum samples from 7 patients from 3 Japanese families with FDH. Clinically, abnormal thyroid function tests were noted in pregnant Patient 1. Patients 2 and 3 had histories of inappropriate treatment with antithyroid drugs and surgery. METHODS: All patients and affected family members were diagnosed with FDH using direct sequencing analysis. Gel filtration high-performance liquid chromatography was used for the biochemical analyses. RESULTS: The genomic analysis revealed a heterozygous missense mutation in HSA (R218P). In FDH patient sera, the albumin effluent corresponded to the peaks for total T4 (TT4); approximately 60% of the T4 in the effluent was detected as FT4. The results for the albumin effluent from healthy volunteer and TSHoma patient sera showed no corresponding TT4 peak. CONCLUSION: In the FDH patients, a relatively larger quantity of T4 was bound to abnormal HSA. This bound T4 was measured as FT4 during the analysis. ABBREVIATIONS: F = free; FDH = familial dysalbuminemic hyperthyroxinemia; HPLC = high-performance liquid chromatography; HSA = human serum albumin; PCR = polymerase chain reaction; SITSH = syndrome of inappropriate secretion of TSH; T = total; T3 = triiodothyronine; T4 = thyroxine; TSH = thyroid-stimulating hormone; WT = wild-type.
  • Tomoko Takiguchi, Hisashi Koide, Hidekazu Nagano, Akitoshi Nakayama, Masanori Fujimoto, Ai Tamura, Eri Komai, Akina Shiga, Takashi Kono, Seiichiro Higuchi, Ikki Sakuma, Naoko Hashimoto, Sawako Suzuki, Yui Miyabayashi, Norio Ishiwatari, Kentaro Horiguchi, Yukio Nakatani, Koutaro Yokote, Tomoaki Tanaka
    BMC endocrine disorders 17(1) 54-54 2017年9月2日  査読有り
    BACKGROUND: A functional pituitary adenoma can produce multiple anterior-pituitary hormones, such as growth hormone (GH) -producing adenomas (GHoma) with prolactin or thyrotropin stimulating hormone production in the same lineage. However, it is very rare that acromegaly shows subclinical Cushing's disease (SCD) beyond the lineage. Here we describe the involvement of intratumoral coexistence with 2 types of hormone-producing cells associated with different lineage in acromegaly concomitant with SCD. CASE PRESENTATION: In our study, we performed clinical evaluation of the patient showing acromegaly with SCD. To elucidate the mechanisms of this pathology, we analyzed immunohistochemistry and gene expression of anterior-pituitary hormones and transcriptional factors in the resected pituitary tumor. On immunohistochemical staining, most of the tumor cells were strongly stained for GH antibody, while some cells were strongly positive for adrenocorticotropic hormone (ACTH). Gene expression analysis of a transsphenoidal surgery sample of the pituitary gland revealed that ACTH-related genes, such as POMC, Tpit, and NeuroD1 mRNA, had higher expression in the tumor tissue than the nonfunctional adenoma but lower expression compared to an adenoma of typical Cushing's disease. Further, double-labeling detection methods with a fluorescent stain for ACTH and GH demonstrated the coexistence of ACTH-positive cells (GH-negative) among the GH-positive cells in the tumor. Additionally, Pit-1 expression was reduced in the ACTH-positive cells from tumor tissue primary culture. CONCLUSION: Here we described a case of a pituitary tumor diagnosed with acromegaly associated with SCD. We performed quantitative-expression analyses of transcriptional factors of the tumor tissue and immunohistochemistry analysis of tumor-derived primary culture cells, which suggested that the multihormonal pituitary adenoma concomitant with Pit-1 and Tpit lineage cells caused acromegaly associated with SCD.
  • Sachiko Shiba, Kazuhiro Ikeda, Kuniko Horie-Inoue, Akitoshi Nakayama, Tomoaki Tanaka, Satoshi Inoue
    Scientific reports 7(1) 7606-7606 2017年8月8日  査読有り
    Mitochondria are essential organelles to efficiently produce ATP by ATP-synthase, which uses a proton-gradient generated by respiratory chain complexes. We previously demonstrated that COX7RP/COX7A2L/SCAF1 is a key molecule that promotes respiratory supercomplex assembly and regulates energy generation. The contribution of COX7RP to metabolic homeostasis, however, remains to be clarified. In the present study, we showed a metabolic phenotype of Cox7rp knockout (Cox7rpKO) mice, which exhibit lower blood glucose levels after insulin or pyruvate injection. Notably, ATP synthesis rate was reduced in Cox7rpKO mice liver, in accordance with decreased percentages of complex III subunit RISP and complex IV subunit COX1 involved in I + III + IV supercomplex fraction. The present findings suggest that COX7RP-mediated mitochondrial respiration plays crucial roles in the regulation of glucose homeostasis and its impairment will lead to the pathophysiology of metabolic states.
  • Ikki Sakuma, Seiichiro Higuchi, Masanori Fujimoto, Tomoko Takiguchi, Akitoshi Nakayama, Ai Tamura, Takashi Kohno, Eri Komai, Akina Shiga, Hidekazu Nagano, Naoko Hashimoto, Sawako Suzuki, Takafumi Mayama, Hisashi Koide, Katsuhiko Ono, Hironobu Sasano, Ichiro Tatsuno, Koutaro Yokote, Tomoaki Tanaka
    The Journal of clinical endocrinology and metabolism 101(3) 841-6 2016年3月  査読有り
    CONTEXT: Pheochromocytoma is a catecholamine-producing tumor that originates from adrenal chromaffin cells and is capable of secreting various hormones, including ACTH. CASE DESCRIPTION: A 56-year-old female presented with Cushingoid appearance and diabetic ketoacidosis. Endocrinological examinations demonstrated ectopic ACTH production with hypercortisolemia and excess urinary cortisol accompanied by elevated plasma and urine catecholamines. Computed tomography revealed a large left adrenal tumor with bilateral adrenal enlargement. Metaiodobenzylguanidine scintigraphy revealed abnormal accumulation in the tumor, which was eventually diagnosed as pheochromocytoma with ectopic ACTH secretion with subsequent manifestation of Cushing's syndrome. Ectopic ACTH secretion and catecholamine production were blocked by metyrapone treatment, whereas dexamethasone paradoxically increased ACTH secretion. Left adrenalectomy resulted in complete remission of Cushing's syndrome and pheochromocytoma. IN VITRO STUDIES: Immunohistological analysis revealed that the tumor contained two functionally distinct chromaffin-like cell types. The majority of tumor cells stained positive for tyrosine hydroxylase (TH), whereas a minor population of ACTH-positive tumor cells was negative for TH. Furthermore, gene expression and in vitro functional analyses using primary tumor tissue cultures demonstrated that dexamethasone facilitated ACTH as well as catecholamine secretion with parallel induction of proopiomelanocortin (POMC), TH, and phenylethanolamine N-methyltransferase mRNA, supporting a glucocorticoid-dependent positive-feedback loop of ACTH secretion in vivo. DNA methylation analysis revealed that the POMC promoter of this tumor, particularly the E2F binding site, was hypomethylated. CONCLUSION: We present a case of ectopic ACTH syndrome associated with pheochromocytoma. ACTH up-regulation with paradoxical response to glucocorticoid, possibly through the hypomethylation of the POMC promoter, exacerbated the patient's condition.
  • Sawako Suzuki, Ichiro Tatsuno, Emi Oohara, Akitoshi Nakayama, Eri Komai, Akina Shiga, Takashi Kono, Tomoko Takiguchi, Seiichiro Higuchi, Ikki Sakuma, Hidekazu Nagano, Naoko Hashimoto, Takafumi Mayama, Hisashi Koide, Hironobu Sasano, Yukio Nakatani, Takashi Imamoto, Tomohiko Ichikawa, Koutaro Yokote, Tomoaki Tanaka
    Endocrine practice : official journal of the American College of Endocrinology and the American Association of Clinical Endocrinologists 21(10) 1152-60 2015年10月  査読有り
    OBJECTIVE: Primary macronodular adrenal hyperplasia (PMAH) is considered a predominantly sporadic disease, but familial forms are well recognized. Genetic studies revealed germline mutations in the armadillo repeat containing 5 gene (ARMC5) in the majority of PMAH cases. Furthermore, somatic ARMC5 mutations, as different types of second-hit mutations and loss of heterozygosity have been reported in each adrenal nodule in PMAH. Here, we describe the involvement of ARMC5 alteration in a familial case of PMAH. METHODS: In our study, we performed clinical and genetic evaluations in a mother and her son with familial PMAH. To search for mutations and deletion of ARMC5, we used Sanger sequencing and droplet digital polymerase chain reaction (ddPCR), respectively. RESULTS: Both patients showed the same phenotype of subclinical Cushing syndrome, with mild excess of mineralocorticoids and vasopressin-responsive cortisol secretion. The ddPCR analysis demonstrated that both mother and son had germline deletions in exons 1 to 5 of the ARMC5 gene locus. Furthermore, Sanger sequencing of DNA from the right and left adrenal nodules as well as peripheral blood of the son revealed the presence of another germline, missense mutation in ARMC5 exon 3 (p.P347S). CONCLUSION: This is the first report demonstrating germline deletion of ARMC5 in familial PMAH. In addition to investigating mutations, germline and somatic deletions of ARMC5 could be examined by ddPCR, which permits rapid and accurate evaluation of the ARMC5 allelic status.

MISC

 206

書籍等出版物

 1
  • 中山 哲俊, 鈴木佐和子, 田中知明 (担当:分担執筆, 範囲:がん細胞における特異的細胞内代謝と治療抵抗性)
    ニュー・サイエンス社 2017年5月

講演・口頭発表等

 62

共同研究・競争的資金等の研究課題

 3