Microglia: You'll Never Walk Alone!

[en] In this issue of Immunity, Mrdjen et al. (2018) use high-dimensional single-cell proteomics and high parametric mass cytometry to provide insight into the long-lasting issue of how to identify and characterize both resident and recruited leukocyte populations in healthy, aged, and diseased CNS.

Disciplines :

Neurologie

Auteur, co-auteur :

Villacampa, Nàdia; Department of Neurodegenerative Diseases and Gerontopsychiatry, University of Bonn, Sigmund-Freud Straße 25, 53127 Bonn, Germany

HENEKA, Michael ; Department of Neurodegenerative Diseases and Gerontopsychiatry, University of Bonn, Sigmund-Freud Straße 25, 53127 Bonn, Germany, Deutsches Zentrum für Neurodegenerative Erkrankungen (DZNE), 53127 Bonn, Germany. Electronic address: michael.heneka@ukbonn.de

Co-auteurs externes :

yes

Langue du document :

Anglais

Titre :

Microglia: You'll Never Walk Alone!

Date de publication/diffusion :

20 février 2018

Titre du périodique :

Immunity

ISSN :

1074-7613

eISSN :

1097-4180

Maison d'édition :

Cell Press, Etats-Unis

Volume/Tome :

Fascicule/Saison :

Pagination :

195 - 197

Peer reviewed :

Peer reviewed vérifié par ORBi

URL complémentaire :

https://api.elsevier.com/content/article/PII:S1074761318300451?httpAccept=text/xml

Disponible sur ORBilu :

depuis le 07 mai 2024

Statistiques

Nombre de vues

34 (dont 0 Unilu)

Nombre de téléchargements

20 (dont 0 Unilu)

Voir plus de statistiques

citations Scopus^®

citations Scopus^®
sans auto-citations

OpenCitations

citations OpenAlex

citations WoS^™

Bibliographie

Bandura, D.R., Baranov, V.I., Ornatsky, O.I., Antonov, A., Kinach, R., Lou, X., Pavlov, S., Vorobiev, S., Dick, J.E., Tanner, S.D., Mass cytometry: technique for real time single cell multitarget immunoassay based on inductively coupled plasma time-of-flight mass spectrometry. Anal. Chem. 81 (2009), 6813–6822.
Bechmann, I., Priller, J., Kovac, A., Böntert, M., Wehner, T., Klett, F.F., Bohsung, J., Stuschke, M., Dirnagl, U., Nitsch, R., Immune surveillance of mouse brain perivascular spaces by blood-borne macrophages. Eur. J. Neurosci. 14 (2001), 1651–1658.
Mrdjen, D., Pavlovic, A., Hartmann, F.J., Schreiner, B., Utz, S.G., Leung, B.P., Lelios, I., Heppner, F.L., Kipnis, J., Merkler, D., Greter, M., Becher, B., High-dimensional single-cell mapping of central nervous system immune cells reveals distinct myeloid subsets in health, aging, and disease. Immunity 48 (2018), 380–395 this issue.
Ginhoux, F., Greter, M., Leboeuf, M., Nandi, S., See, P., Gokhan, S., Mehler, M.F., Conway, S.J., Ng, L.G., Stanley, E.R., et al. Fate mapping analysis reveals that adult microglia derive from primitive macrophages. Science 330 (2010), 841–845.
Greter, M., Heppner, F.L., Lemos, M.P., Odermatt, B.M., Goebels, N., Laufer, T., Noelle, R.J., Becher, B., Dendritic cells permit immune invasion of the CNS in an animal model of multiple sclerosis. Nat. Med. 11 (2005), 328–334.
Heneka, M.T., Kummer, M.P., Latz, E., Innate immune activation in neurodegenerative disease. Nat. Rev. Immunol. 14 (2014), 463–477.
Kipp, M., Nyamoya, S., Hochstrasser, T., Amor, S., Multiple sclerosis animal models: a clinical and histopathological perspective. Brain Pathol. 27 (2017), 123–137.
Prinz, M., Priller, J., Sisodia, S.S., Ransohoff, R.M., Heterogeneity of CNS myeloid cells and their roles in neurodegeneration. Nat. Neurosci. 14 (2011), 1227–1235.
Sarlus, H., Heneka, M.T., Microglia in Alzheimer's disease. J. Clin. Invest. 127 (2017), 3240–3249.
Sie, C., Korn, T., Dendritic cells in central nervous system autoimmunity. Semin. Immunopathol. 39 (2017), 99–111.