Hiroko Bannai

Overview

Explore the profile of Hiroko Bannai including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 33

Citations 791

Followers 0

Related Specialties

Biochemistry

Neurology

Cell Biology

Top 10 Co-Authors

Katsuhiko Mikoshiba

Takafumi Inoue

Fumihiro Niwa

Misa Arizono

Antoine Triller

Sabine Levi

Kazumi Fukatsu

Tomohiro Nakayama

Takayuki Michikawa

Claude Schweizer

Published In

J Biol Chem

Biochem Biophys Res Commun

Biophys Physicobiol

Neurosci Res

Neuron

Affiliations

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Recent Articles

Inducing aggresome and stable tau aggregation in Neuro2a cells with an optogenetic tool

Sakuragi S, Uchida T, Kato N, Zhao B, Takahashi T, Hattori A, et al.

Biophys Physicobiol . 2025 Feb; 21(4):e210023. PMID: 39963597

Tauopathy is a spectrum of diseases characterized by fibrillary tau aggregate formation in neurons and glial cells in the brain. Tau aggregation originates in the brainstem and entorhinal cortex and...

-A152T mutation drives neuronal hyperactivity through Fyn-NMDAR signaling in human iPSC-Derived neurons: Insights into Alzheimer's pathogenesis

Itsuno M, Tanabe H, Sano E, Sasaki T, Oyama C, Bannai H, et al.

Regen Ther . 2025 Jan; 28():201-213. PMID: 39811068

Introduction: Tau protein plays a pivotal role in the pathogenesis of Alzheimer's disease (AD) and in regulating neuronal excitability. Among tau-coding microtubule associated protein tau () gene mutations, the A152T...

Research on the molecular mechanism of singularity phenomenon in neurological disorders

Bannai H, Takashima A, Soeda Y, Yoshimura H, Matsumoto G, Sahara N, et al.

Biophys Physicobiol . 2024 Aug; 21(Supplemental):e211008. PMID: 39175863

No abstract available.

Application of single-molecule analysis to singularity phenomenon of cells

Hiroshima M, Bannai H, Matsumoto G, Ueda M

Biophys Physicobiol . 2024 Aug; 21(Supplemental):e211018. PMID: 39175861

Single-molecule imaging in living cells is an effective tool for elucidating the mechanisms of cellular phenomena at the molecular level. However, the analysis was not designed for throughput and requires...

Intracellular tau fragment droplets serve as seeds for tau fibrils

Soeda Y, Yoshimura H, Bannai H, Koike R, Shiiba I, Takashima A

Structure . 2024 Jul; 32(10):1793-1807.e6. PMID: 39032487

Intracellular tau aggregation requires a local protein concentration increase, referred to as "droplets". However, the cellular mechanism for droplet formation is poorly understood. Here, we expressed OptoTau, a P301L mutant...

Mutual interaction of neurons and astrocytes derived from iPSCs with APP V717L mutation developed the astrocytic phenotypes of Alzheimer's disease

Supakul S, Murakami R, Oyama C, Shindo T, Hatakeyama Y, Itsuno M, et al.

Inflamm Regen . 2024 Feb; 44(1):8. PMID: 38419091

Background: The development of induced pluripotent stem cells (iPSCs) technology has enabled human cellular disease modeling for inaccessible cell types, such as neural cells in the brain. However, many of...

Editorial: Neuroscience and Neurotechnology of Neuronal Cell Surface Molecules in Neural Circuits

Yamagata M, Bannai H

Front Neural Circuits . 2021 Jul; 15:703300. PMID: 34248506

No abstract available.

Inhibitory synaptic transmission tuned by Ca and glutamate through the control of GABA R lateral diffusion dynamics

Bannai H, Niwa F, Sakuragi S, Mikoshiba K

Dev Growth Differ . 2020 Apr; 62(6):398-406. PMID: 32329058

The GABAergic synapses, a primary inhibitory synapse in the mammalian brain, is important for the normal development of brain circuits, and for the regulation of the excitation-inhibition balance critical for...

Dissection of Local Ca2+ Signals in Cultured Cells by Membrane-targeted Ca2+ Indicators

Bannai H, Hirose M, Niwa F, Mikoshiba K

J Vis Exp . 2019 Apr; (145). PMID: 30958464

Calcium ion (Ca) is a universal intracellular messenger molecule that drives multiple signaling pathways, leading to diverse biological outputs. The coordination of two Ca signal sources-"Ca influx" from outside the...

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Molecular membrane dynamics: Insights into synaptic function and neuropathological disease

Bannai H

Neurosci Res . 2017 Aug; 129:47-56. PMID: 28826905

The fluid mosaic model states that molecules in the plasma membrane can freely undergo lateral diffusion; however, in neurons and glia, specific membrane molecules are concentrated in cellular microdomains to...