大学院医学研究院

年森 清隆

トシモリ キヨタカ  (Kiyotaka Toshimori)

基本情報

所属
千葉大学 千葉大学大学院医学研究院機能形態学・生殖生物医学 千葉大学 (名誉教授)
(兼任)機能形態学・生殖生物医学
学位
博士(熊本大学)

J-GLOBAL ID
200901066604113201
researchmap会員ID
5000048057

論文

 167
  • Chizuru Ito, Tohru Mutoh, Kiyotaka Toshimori
    Reproductive medicine and biology 23(1) e12605 2024年  
    PURPOSE: The purpose of this study is to confirm whether in vitro fertilization (IVF) with spermatozoa from Odf4-deficient infertile males (Odf4 -/- spermatozoa) can lead to the development of zygotes, which was reported in a previous in vivo study. METHODS: In vitro capacitation and IVF were performed using Odf4 -/- spermatozoa in a small drop of TYH medium with pyruvate and glucose, for 60 min or up to 4 days. A capacitation test was performed by immunoblotting using an anti-p-Tyr antibody. A sperm movement test was performed using a computer-assisted sperm motility analysis system (SMAS). An IVF fertilization test was also performed to evaluate zygote production. Videos were taken by a DMi8 stereomicroscope equipped with a high-speed camera. RESULTS: In in vitro condition, Odf4 -/- spermatozoa with hairpin flagella harboring large cytoplasmic droplets (CDs) underwent capacitation, about 30% of large CDs were removed from spermatozoa, and the flagella became straight (capacitation test). The Odf4 -/- spermatozoa with straight flagella swam forward (movement test) and fertilized Odf4 +/+ oocytes, which eventually developed into zygotes (fertilization test). CONCLUSIONS: By conventional IVF, spermatozoa from Odf4-deficient male mice can fertilize oocytes that then develop into zygotes. These findings can be translated to human males with infertility caused by ODF4 deficiency.
  • Chizuru Ito, Tsukasa Makino, Tohru Mutoh, Masahide Kikkawa, Kiyotaka Toshimori
    Scientific Reports 13(1) 2023年2月20日  
    Abstract Normal sperm flagellar shape and movement are essential for fertilization. The integral protein outer dense fiber 4 (ODF4) localizes to ODFs, but its function remains unclear. Adenylate kinase (AK) is a phosphotransferase that catalyzes the interconversion and controls the concentration equilibrium of adenine nucleotides. AK shuttles ATP to energy-consuming sites. Here, we report on the relationship of flagellar shape and movement with ODF4, AK1 and AK2 by using Odf4-deletion (Odf4−/−) mice. Soluble ODF4 is coimmunoprecipitated with AK1 and AK2 in Odf4+/+ spermatozoa. ODF4, AK1 and AK2 localize to whole flagella (plasmalemma, mitochondria, ODFs, and residual cytoplasmic droplets (CDs)), principal pieces, and midpieces, respectively. Odf4−/− sperm flagella lose ODF4 and reduce AK1 and AK2 but produce ATP. The flagellum is bent (hairpin flagellum) with a large CD in the midpiece. There is no motility in the midpiece, but the principal piece is motile. Odf4−/− spermatozoa progress backward and fail to ascend in the uterus. Thus, Odf4−/− males are infertile owing to abnormal flagellar shape and movement caused mainly by the loss of ODF4 with AK1 and AK2. This study is supported by the rescue experiment; the abnormalities and male infertility caused by Odf4 deletion were reversed by Odf4 restoration.
  • Tomoaki Saito, Masahiko Terajima, Yuki Taga, Fumihiko Hayashi, Sachi Oshima, Atsushi Kasamatsu, Yasuhiko Okubo, Chizuru Ito, Kiyotaka Toshimori, Masataka Sunohara, Hideki Tanzawa, Katsuhiro Uzawa, Mitsuo Yamauchi
    Bone 154 116242-116242 2022年1月  
    Lysyl hydroxylase 2 (LH2) is an enzyme that catalyzes the hydroxylation of lysine (Lys) residues in fibrillar collagen telopeptides, a critical post-translational modification for the stability of intermolecular cross-links. Though abnormal LH2 activities have been implicated in various diseases including Bruck syndrome, the molecular basis of the pathologies is still not well understood. Since LH2 null mice die at early embryonic stage, we generated LH2 heterozygous (LH2+/-) mice in which LH2 level is significantly diminished, and characterized collagen and bone phenotypes using femurs. Compared to the wild-type (WT), LH2+/- collagen showed a significant decrease in the ratio of hydroxylysine (Hyl)- to the Lys-aldehyde-derived collagen cross-links without affecting the total number of aldehydes involved in cross-links. Mass spectrometric analysis revealed that, in LH2+/- type I collagen, the extent of hydroxylation of all telopeptidyl Lys residues was significantly decreased. In the helical domain, Lys hydroxylation at the cross-linking sites was either unaffected or slightly lower, but other sites were significantly diminished compared to WT. In LH2+/- femurs, mineral densities of cortical and cancellous bones were significantly decreased and the mechanical properties of cortical bones evaluated by nanoindentation analysis were compromised. When cultured, LH2+/- osteoblasts poorly produced mineralized nodules compared to WT osteoblasts. These data provide insight into the functionality of LH2 in collagen molecular phenotype and its critical role in bone matrix mineralization and mechanical properties.
  • Yu Okitsu, Mamoru Nagano, Takahiro Yamagata, Chizuru Ito, Kiyotaka Toshimori, Hideo Dohra, Wataru Fujii, Keiichiro Yogo
    Scientific reports 10(1) 18883-18883 2020年11月3日  
    Deleted in lung and esophageal cancer 1 (DLEC1) is a tumour suppressor gene that is downregulated in various cancers in humans; however, the physiological and molecular functions of DLEC1 are still unclear. This study investigated the critical role of Dlec1 in spermatogenesis and male fertility in mice. Dlec1 was significantly expressed in testes, with dominant expression in germ cells. We disrupted Dlec1 in mice and analysed its function in spermatogenesis and male fertility. Dlec1 deletion caused male infertility due to impaired spermatogenesis. Spermatogenesis progressed normally to step 8 spermatids in Dlec1-/- mice, but in elongating spermatids, we observed head deformation, a shortened tail, and abnormal manchette organization. These phenotypes were similar to those of various intraflagellar transport (IFT)-associated gene-deficient sperm. In addition, DLEC1 interacted with tailless complex polypeptide 1 ring complex (TRiC) and Bardet-Biedl Syndrome (BBS) protein complex subunits, as well as α- and β-tubulin. DLEC1 expression also enhanced primary cilia formation and cilia length in A549 lung adenocarcinoma cells. These findings suggest that DLEC1 is a possible regulator of IFT and plays an essential role in sperm head and tail formation in mice.
  • Kenji Yamatoya, Marika Kousaka, Chizuru Ito, Kazuya Nakata, Masahiko Hatano, Yoshihiko Araki, Kiyotaka Toshimori
    Biology of Reproduction 102(3) 750-757 2020年3月13日  査読有り
    <title>Abstract</title> The acrosome reaction is a multi-step event essential for physiological fertilization. During the acrosome reaction, gamete fusion-related factor IZUMO1 translocates from the anterior acrosome to the equatorial segment and assembles the gamete fusion machinery. The morphological changes in the acrosome reaction process have been well studied, but little is known about the molecular mechanisms of acrosome reorganization essential for physiological gamete membrane fusion. To elucidate the molecular mechanisms of IZUMO1 translocation, the steps of the acrosome reaction during that process must be clarified. In this study, we established a method to detect the early steps of the acrosome reaction and subdivided the process into seven populations through the use of two epitope-defined antibodies, anti-IZUMO1 and anti-SPACA1, a fertilization-inhibiting antibody. We found that part of the SPACA1 C-terminus in the periacrosomal space was cleaved and had begun to disappear when the vesiculation of the anterior acrosome occurred. The IZUMO1 epitope externalized from the acrosomal lumen before acrosomal vesiculation and phosphorylation of IZUMO1 occurred during the translocation to the equatorial segment. IZUMO1 circumvented the area of the equatorial segment where the SPACA1C-terminus was still localized. We therefore propose an IZUMO1 translocation model and involvement of SPACA1.

MISC

 103

書籍等出版物

 7

担当経験のある科目(授業)

 3

共同研究・競争的資金等の研究課題

 39