Curriculum Vitaes

Kazuhiro FUKUMURA

  (福村 和宏)

Profile Information

Affiliation
Senior Assistant Professor, Oncology Innovation Center, Fujita Health University
Degree
博士(理学)(神戸大学)

Researcher number
80622117
J-GLOBAL ID
201501008881227956
researchmap Member ID
B000247642

発生段階・組織特異的に制御される選択的スプライシングメカニズムや、その破綻によって引き起こされる疾患・がん化に着目した研究を行っています。


Papers

 17
  • Kazuhiro Fukumura, Luca Sperotto, Stefanie Seuß, Hyun-Seo Kang, Rei Yoshimoto, Michael Sattler, Akila Mayeda
    Cell reports, 42 113534, Dec 5, 2023  Peer-reviewedLead authorCorresponding author
    Human pre-mRNA splicing requires the removal of introns with highly variable lengths, from tens to over a million nucleotides. Therefore, mechanisms of intron recognition and splicing are likely not universal. Recently, we reported that splicing in a subset of human short introns with truncated polypyrimidine tracts depends on RBM17 (SPF45), instead of the canonical splicing factor U2 auxiliary factor (U2AF) heterodimer. Here, we demonstrate that SAP30BP, a factor previously implicated in transcriptional control, is an essential splicing cofactor for RBM17. In vitro binding and nuclear magnetic resonance analyses demonstrate that a U2AF-homology motif (UHM) in RBM17 binds directly to a newly identified UHM-ligand motif in SAP30BP. We show that this RBM17-SAP30BP interaction is required to specifically recruit RBM17 to phosphorylated SF3B1 (SF3b155), a U2 small nuclear ribonucleoprotein (U2 snRNP) component in active spliceosomes. We propose a mechanism for splicing in a subset of short introns, in which SAP30BP guides RBM17 in the assembly of active spliceosomes.
  • Kazuhiro Fukumura, Akio Masuda, Jun-ichi Takeda, Osamu Nagano, Hideyuki Saya, Kinji Ohno, Akila Mayeda
    bioRxiv 2023.11.20.567984; doi: https://doi.org/10.1101/2023.11.20.567984, Nov 21, 2023  Lead authorCorresponding author
  • Hiroaki Nagamine, Masakazu Yashiro, Naoki Yoshimoto, Motohiro Izumi, Akira Sugimoto, Kenji Nakahama, Koichi Ogawa, Yoshiya Matsumoto, Kenji Sawa, Yoko Tani, Hiroyasu Kaneda, Shigeki Mitsuoka, Kazuhiro Yamada, Tetsuya Watanabe, Kazuhisa Aasai, Kazuhiro Fukumura, Akila Mayeda, Tomoya Kawaguchi
    Anticancer research, 43(10) 4663-4672, Oct, 2023  Peer-reviewed
    BACKGROUND/AIM: Immune checkpoint inhibitors (ICIs) are currently a standard treatment tool for non-small cell lung cancer (NSCLC). RNA-binding motif protein 17 (RBM17), a splicing factor, is frequently over-expressed in NSCLC, but little is known about the role of RBM17 in the efficacy of ICIs for NSCLC. Thus, we investigated the correlation between RBM17 expression and ICI efficacy in NSCLC. PATIENTS AND METHODS: Biopsy or surgical specimens were collected from patients with advanced or recurrent NSCLC who received ICI monotherapy or chemo-immunotherapy in a first-line setting. RBM17 expression was examined using immunohistochemistry. The correlation between the efficacy of ICI monotherapy or chemo-immunotherapy and RBM17 expression was evaluated. RESULTS: Among the 218 cases, 115 (52.8%) cases were positive for RBM17 expression. RBM17 expression was not associated with the objective response rate (ORR) or progression-free survival (PFS) in either of the ICI monotherapy or chemo-immunotherapy groups. However, among those with a low PD-L1 expression level (PD-L1 <50%; n=86), RBM17 expression was significantly associated with a better ORR (p=0.045) and a better PFS (p<0.001) in the ICI monotherapy group, and was significantly associated with a poor ORR in the chemo-immunotherapy group (p=0.041). CONCLUSION: RBM17 might be a useful predictive marker for a higher efficacy of ICI monotherapy in NSCLC patients with a low PD-L1 expression level.
  • Kazuhiro Fukumura, Luca Sperotto, Stefanie Seuß, Hyun-Seo Kang, Rei Yoshimoto, Michael Sattler, Akila Mayeda
    bioRxiv doi: https://doi.org/10.1101/2022.12.30.522300, Dec 30, 2022  Lead authorCorresponding author
  • Kazuhiro Fukumura, Julian P. Venables, A. Mayeda
    MOLECULAR & CELLULAR ONCOLOGY, Nov, 2021  Peer-reviewedInvitedLead authorCorresponding author
    The early splicing complex A occupies at least eighty nucleotides of intron, in which U2AF covers the polypyrimidine tract. SPF45 (RBM17) functionally substitutes for U2AF on a subset of short introns. Since SPF45 expression confers resistance to various anticancer drugs, SPF45-dependent splicing may play a critical role in multidrug resistance.

Books and Other Publications

 5

Presentations

 30

Teaching Experience

 4

Research Projects

 12

Social Activities

 2

Media Coverage

 2

Other

 2
  • 特になし
  • ヒトの新規スプライシング因子として再発見されたSPF45の抗がん多剤耐性への関与機構の解析、 *本研究シーズに関する産学共同研究の問い合わせは藤田医科大学産学連携推進セン ター(fuji-san@fujita-hu.ac.jp)まで