第858回 生医研セミナー (多階層生体防御システム研究拠点)

下記のとおり、スイス University of Lausanne のRosa C Paolicelli博士によるセミナーを開催いたします。
Paolicelli博士は、神経科学・神経免疫学を専門とする研究者で、特に脳内の免疫細胞であるミクログリアが神経回路の形成やシナプスの刈り込み(synaptic pruning)、さらにAlzheimer's diseaseなどの神経変性疾患に果たす役割について、世界をリードする研究を行っています。
本セミナーでも最新の興味深い話が聴けると思います。皆様のご来聴を歓迎いたします。

(Seminar in English)

演題 / Title

Microglia across the lifespan: from neurodevelopment to neurodegeneration

演者 / Speaker

Rosa Chiara Paolicelli, PhD
Associate Professor
Department of Biomedical Sciences, University of Lausanne, Switzerland

日時 / Date

令和8年7月29日(水) / July 29 (Wed), 2026
17:00〜18:00(質疑応答が終わるまで)

会場 / Venue

病院キャンパス 総合研究棟 1階 講義室102
「キャンパスマップ」の35番の建物)

Lecture Room 102, 1F, Biomedical Research Station, Hospital Campus
(Building No. 35 on the [Campus Map])

要 旨 / Abstract

Microglia, the resident macrophages of the CNS, play essential roles in both physiological and pathological contexts. They are critical for brain development and the maintenance of homeostasis throughout the lifespan, and are strongly implicated in a wide range of neurological diseases. An increasing body of evidence indicates that many genetic variants associated with elevated risk for neurodegenerative disorders are highly enriched in microglia within the CNS, suggesting that microglial dysfunction may contribute to susceptibility to neurodegeneration. However, the specific mechanisms and developmental timing through which these risk genes influence microglial function and thus promote brain pathology remain poorly understood. Here, we will discuss the diverse roles of microglia during development, highlighting examples of how impaired microglial function can affect brain maturation and lead to long-lasting consequences for neuronal function and behavior. We will also emphasize the relevance of critical developmental windows, proposing a potential link between microglial dysfunction during early postnatal stages and increased vulnerability to neurodegeneration later in life.

参考論文 / References

  1. Compagnion AC, Ivanov A, Rana A, Espinoza F, Sandmann T, Martineau FS, Monsorno K, Facchinetti R, Matera A, Rougé L, González Ibáñez F, Catale C, Bizzotto M, Garel S, Matteoli M, Kashiwagi Y, Koyama R, Haass C, Tremblay ME, Beule D, Jelescu I, Zerbi V, Di Paolo G and Paolicelli RC. Microglial TDP-43 mediates myelin refinement and represses Tyrobp cryptic exon inclusion in mice. Nat Neurosci. in press, 2026.
  2. Petrelli F, Gilardi C, Igelbüscher CM, Panfilova D, Rey A, Paolicelli RC, Knobloch M. Cellular mechanisms of brain lipid metabolism in health and disease. Nat Cell Biol. 2026 Mar;28(3):421-435.
  3. Matera A, Compagnion AC, Pedicone C, Kotah JM, Ivanov A, Monsorno K, Labouèbe G, Leggio L, Pereira-Iglesias M, Beule D, Mansuy-Aubert V, Williams TL, Iraci N, Sierra A, Marro SG, Goate AM, Eggen BJL, Kerr WG, Paolicelli RC. Microglial lipid phosphatase SHIP1 limits complement-mediated synaptic pruning in the healthy developing hippocampus. Immunity. 2025 Jan 14;58(1):197-217.e13.
  4. Lv Z, Chen L, Chen P, Peng H, Rong Y, Hong W, Zhou Q, Li N, Li B, Paolicelli RC, Zhan Y. Clearance of β-amyloid and synapses by the optogenetic depolarization of microglia is complement selective. Neuron. 2024 Mar 6;112(5):740-754.e7.
  5. Monsorno K, Ginggen K, Ivanov A, Buckinx A, Lalive AL, Tchenio A, Benson S, Vendrell M, D'Alessandro A, Beule D, Pellerin L, Mameli M, Paolicelli RC. Loss of microglial MCT4 leads to defective synaptic pruning and anxiety-like behavior in mice. Nat Commun. 2023 Sep 16;14(1):5749.
  6. Paolicelli RC, Sierra A, Stevens B, Tremblay ME et al. Microglia states and nomenclature: A field at its crossroads. Neuron. 2022 Nov 2;110(21):3458-3483.

連絡先 / Contact

増田 隆博
生体防御医学研究所 分子神経免疫学分野
092 (642) 6800
takahiro.masuda[@]bioreg.kyushu-u.ac.jp
(※[]を外し半角@に変更ください。)

Takahiro Masuda
Division of Molecular Neuroimmunology, Medical Institute of Bioregulation
TEL: 092 (642) 6800
E-mail: takahiro.masuda[@]bioreg.kyushu-u.ac.jp
(Please remove the square brackets and replace them with the '@' symbol.)