医学部 臨床検査科

Kouhei Sakurai

  (櫻井 浩平)

Profile Information

Affiliation
Fujita Health University
Degree
博士(医学)

Researcher number
10608756
J-GLOBAL ID
201501002143037973
researchmap Member ID
B000244891

External link

Education

 2

Papers

 35
  • Kouhei Sakurai, Tatsuya Ando, Yasuhiro Sakai, Yuichiro Mori, Satoru Nakamura, Taku Kato, Hiroyasu Ito
    Human Cell, Aug, 2024  Peer-reviewedLead authorCorresponding author
  • Yuya Ishihara, Hiroyuki Naruse, Hidetsugu Fujigaki, Reiko Murakami, Tatsuya Ando, Kouhei Sakurai, Komei Uehara, Koki Shimomae, Eirin Sakaguchi, Hidekazu Hattori, Masayoshi Sarai, Junnichi Ishii, Ryosuke Fujii, Hiroyasu Ito, Kuniaki Saito, Hideo Izawa
    Vaccines, 12(7) 786-786, Jul 17, 2024  Peer-reviewed
    Preexisting cardiovascular disease (CVD) is a pivotal risk factor for severe coronavirus disease 2019 (COVID-19). We investigated the longitudinal (over 1 year and 9 months) humoral and cellular responses to primary series and booster doses of mRNA COVID-19 vaccines in patients with CVD. Twenty-six patients with CVD who received monovalent mRNA COVID-19 vaccines were enrolled in this study. Peripheral blood samples were serially drawn nine times from each patient. IgG against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike receptor-binding domain (RBD) was measured using an enzyme-linked immunosorbent assay. The numbers of interferon-γ-releasing cells in response to SARS-CoV-2 peptides were measured using an enzyme-linked immunospot assay. The RBD-IgG titers increased 2 weeks after the primary series and booster vaccination and waned 6 months after vaccination. The S1-specific T cell responses in patients aged < 75 years were favorable before and after booster doses; however, the Omicron BA.1-specific T cell responses were poor. These results suggest that regular vaccination is useful to maintain long-term antibody levels and has implications for booster dose strategies in patients with CVD. Additional booster doses, including Omicron variant-adapted mRNA vaccines, may be recommended for patients with CVD, regardless of age.
  • Kouhei Sakurai, Hiroyasu Ito
    Life sciences, 343 122544-122544, Apr 15, 2024  Lead authorCorresponding author
    Long non-coding RNAs (lncRNA) are functional RNAs, with over 200 nucleotides in length and lacking protein-coding potential. Studies have indicated that lncRNAs are important gene regulators under physiological conditions. Aberrant lncRNA expression is associated with the initiation and progression of various diseases, including cancers. High-throughput transcriptome analyses have revealed thousands of lncRNAs as putative tumor suppressors or promoters in various cancers, but the detailed molecular mechanisms of each lncRNA remain unclear. Downregulated RNA In Cancer, inhibitor of cell invasion and migration (DRAIC) (also known as LOC145837 and RP11-279F6.1) is a lncRNA that inhibits or promotes cancer progression with several modes of action. DRAIC was originally identified as a tumor-suppressive lncRNA in prostate adenocarcinoma. Subsequent studies also revealed that it has an anti-tumor role in glioblastoma, triple-negative breast cancer, and stomach adenocarcinoma. However, DRAIC exhibits oncogenic functions in other malignancies, such as lung adenocarcinoma and esophageal carcinoma, indicating its highly context-dependent effects on cancer progression and clinical outcomes. DRAIC and its associated pathways regulate various biological processes, including proliferation, invasion, metastasis, autophagy, and neuroendocrine function. This review introduces the multifaceted roles of DRAIC, particularly in cancer progression, and discusses its biological significance and clinical implications.
  • Kouhei Sakurai, Seiji Yamada, Rika Ito, Mako Ochiai, Tatsuya Ando, Yasuhiro Sakai, Taku Kato, Hiroyasu Ito
    Non-coding RNA Research, 9(1) 76-83, Mar, 2024  Peer-reviewedLead authorCorresponding author
  • Chihiro Takeuchi, Junichi Sato, Nobutake Yamamichi, Natsuko Kageyama-Yahara, Akiko Sasaki, Takemi Akahane, Rika Aoki, Shigemi Nakajima, Masayoshi Ito, Mitsue Yamamichi, Yu-Yu Liu, Nobuyuki Sakuma, Yu Takahashi, Yoshiki Sakaguchi, Yosuke Tsuji, Kouhei Sakurai, Shuta Tomida, Keiko Niimi, Toshikazu Ushijima, Mitsuhiro Fujishiro
    Journal of Gastroenterology, Nov 14, 2023  Peer-reviewed
    Abstract Background Autoimmune gastritis (AIG) is a prevalent chronic inflammatory disease with oncogenic potential that causes destruction of parietal cells and severe mucosal atrophy. We aimed to explore the distinctive gene expression profiles, activated signaling pathways, and their underlying mechanisms. Methods A comprehensive gene expression analysis was conducted using biopsy specimens from AIG, Helicobacter pylori-associated gastritis (HPG), and non-inflammatory normal stomachs. Gastric cancer cell lines were cultured under acidic (pH 6.5) conditions to evaluate changes in gene expression. Results Gastric mucosa with AIG had a unique gene expression profile compared with that with HPG and normal mucosa, such as extensively low expression of ATP4A and high expression of GAST and PAPPA2, which are involved in neuroendocrine tumorigenesis. Additionally, the mucosa with AIG and HPG showed the downregulation of stomach-specific genes and upregulation of small intestine-specific genes; however, intestinal trans-differentiation was much more prominent in AIG samples, likely in a CDX-dependent manner. Furthermore, AIG induced ectopic expression of pancreatic digestion-related genes, PNLIP, CEL, CTRB1, and CTRC; and a master regulator gene of the lung, NKX2-1/TTF1 with alveolar fluid secretion-related genes, SFTPB and SFTPC. Mechanistically, acidic conditions led to the downregulation of master regulator and stemness control genes of small intestine, suggesting that increased environmental pH may cause abnormal intestinal differentiation in the stomach. Conclusions AIG induces diverse trans-differentiation in the gastric mucosa, characterized by the transactivation of genes specific to the small intestine, pancreas, and lung. Increased environmental pH owing to AIG may cause abnormal differentiation of the gastric mucosa.

Misc.

 24

Presentations

 4

Teaching Experience

 6

Research Projects

 11

Other

 1
  • 日本分子生物学会、日本病理学会、日本臨床細胞学会、日本食品安全協会、日本動物実験代替法学会