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8 research outputs found

Toxin-Based Models to Investigate Demyelination and Remyelination.

Author: A Boyd
A Döring
A Goncalves DaSilva
A Lampron
AB Aurora
AJ Bieber
AJ Steelman
AP Robinson
AR Chowdhury
B Nait-Oumesmar
BZ Ngwenya
C Zhao
DA Bakker
DL Graça
E Birgbauer
EV Voß
F Benetti
F Zhang
FJ Sim
G Monteiro De Castro
G Paxinos
G Venturini
GJ Gage
H Xu
H Zhang
HA Arnett
HA Arnett
HF McMurray
HH Sachs
HU Weltzien
IR Griffiths
J Gilson
J Praet
JK Huang
JL Mason
JL Mason
JM Gensert
K Bénardais
K Lauber
K Suzuki
L Liu
L Zoupi
M Bradl
M Goudarzvand
M Lindner
M Mecha
M Zawadzka
MC Dal Canto
MF Stidworthy
MJ Waring
MM Hiremath
MR Kotter
MR Kotter
MT Quinn
N Ghasemlou
N Hagemeyer
N Manrique-Hoyos
NA Gregson
ND Jeffery
O Torkildsen
P Morell
P Zatta
PA Felts
PK Olitsky
RH Woodruff
RJM Franklin
S Nishimoto
S Wolfensohn
SM Hall
SS Ousman
T Clarner
T Schilling
V Doan
V Miron
VE Miron
WF Blakemore
WF Blakemore
WF Blakemore
WF Blakemore
WF Blakemore
WM Carroll
WW Carlton
YH Huang
Publication venue: Methods Mol Biol
Publication date: 01/01/2019
Field of study

Clinical myelin diseases, and our best experimental approximations, are complex entities in which demyelination and remyelination proceed unpredictably and concurrently. These features can make it difficult to identify mechanistic details. Toxin-based models offer lesions with predictable spatiotemporal patterns and relatively discrete phases of damage and repair: a simpler system to study the relevant biology and how this can be manipulated. Here, we discuss the most widely used toxin-based models, with a focus on lysolecithin, ethidium bromide, and cuprizone. This includes an overview of their respective mechanisms, strengths, and limitations and step-by-step protocols for their use

Apollo (Cambridge)

Human amnion epithelial cells rescue cell death via immunomodulation of microglia in a mouse model of perinatal brain injury

Author: A Cargnoni
A Castillo
A Jobe
A Zani
AE Ayoub
AE Graf
AM Albertsson
AM Brown
C Mallard
C Matute
C Stadelmann
CA McDonald
CW Choi
CW Choi
D Yang
E Hickey
E Saliba
F Brehmer
G Vottier
G Wang
GC Brown
H Hagberg
H Hagberg
H Imbe
H Li
H Neumann
H Niknejad
H Okano
H Pham
HM Gao
JD Cherry
JJ Neher
JJ Volpe
JL Tan
JL Tan
K Bénardais
K Kobayashi
KA Kigerl
KP Townsend
L Ben Haim
L Bennet
L Bozoyan
L Gagliardi
LJ Marter Van
M Coll-Miró
M Pekny
M Tolcos
MA Matthay
MA Michell-Robinson
MM Brand
MV Johnston
MV Sofroniew
N Sakuragawa
N Salmaso
N Slepko
NA Flaris
P Gressens
P Vosdoganes
P Vosdoganes
P Vosdoganes
PB Andersson
PJ Kingham
R Deulofeut
RA Ballard
RJ Hodges
RL Goldenberg
S Eklind
S Ilancheran
S Uchida
SA Bayer
SD Bilbo
SP Denker
SS Bedi
SV Murphy
T Schmitz
T Suzuki
T Yawno
TA Tran
U Ziegler
U-K Hanisch
VE Miron
VG Barros
W Kang
X Hu
Y Li
Y Liu
Y Wolf
Z Kou
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

Dimethyl Fumarate Ameliorates Lewis Rat Experimental Autoimmune Neuritis and Mediates Axonal Protection

Author: BC Kieseier
BC Kieseier
BH Waksman
Björn Ambrosius
C Reick
Daniela Meyer
Edgar Meinl
EK Mathey
F Treumer
G Meyer zu Hörste
H Chen
H Wilms
HL Zhang
HP Hartung
JD Pollard
JM Taylor
K Bénardais
K Ghoreschi
K Zhu
KA Nave
Kalliopi Pitarokoili
Lisa Schrewe
M Kadlubowski
MS Yoon
P Altmeyer
R De Jong
R Gold
R Gold
R Kiefer
RA Hughes
RA Hughes
RA Linker
Ralf Gold
RD Hadden
RJ Fox
RR Tuck
S Schilling
TJ Stoof
U Enders
U Mrowietz
Publication venue: 'Public Library of Science (PLoS)'
Publication date
Field of study

Adenylate Cyclase Type III Is Not a Ubiquitous Marker for All Primary Cilia during Development

Author: A Pitaval
AM Joiner
Brigitte Samama
CR Cortes
Cyril Auger
DJ Zou
E Vincze
ES Seeley
ES Wills
F Irigouin
G Livera
GA Bishop
H Goto
HA Bakalyar
I Brailov
IA Vorobjev
J Briscoe
JL Pitman
JP Onolfo
JS Domire
K Miyoshi
Karelle Bénardais
L Schneider
M Hisamoto
M Händel
M Ndiaye
M Saqui-Salces
Maria Cristina Antal
MT Dalbay
N Forcioli-Conti
Nelly Boehm
NF Berbari
NF Berbari
PV Tran
RW Tucker
S Kim
S Lodh
Said Ghandour
Shree Ram Singh
SR McGlashan
ST Wong
V Marion
Valérie Schini-Kerth
X Chen
Y Ou
Z Wang
Z Wang
Z Wang
Publication venue: 'Public Library of Science (PLoS)'
Publication date
Field of study

Inefficient clearance of myelin debris by microglia impairs remyelinating processes

Author: Ajami
Ajami
Antoine Lampron
Antoine Larochelle
Arnett
Bakker
Bellavance
Blakemore
Boven
Bénardais
Capotondo
Cardona
Chapman
Davoust
Deshmukh
Emmenlauer
Ferguson
Fife
Fox
Franklin
Geissmann
Ginhoux
Goldschmidt
Gudi
Heppner
Hiremath
Imai
Jurevics
Klinkner
Kondo
Kotter
Kotter
Kotter
Laflamme
Lampron
Lampron
Lassmann
Lee
Li
Lindberg
Lister
Liu
Lublin
Lublin
Maria Gabriela Sánchez
Marie-Michèle Plante
Marie-Ève Tremblay
Matsushima
McMahon
Michaud
Mildner
Miron
Napoli
Nathalie Laflamme
Neumann
Noda
Olah
Paolicelli
Paul Préfontaine
Peter K. Stys
Piccio
Priller
Pulford
Remington
Ruckh
Schneider
Schulz
Serge Rivest
Shechter
Simard
Simard
Skripuletz
Stirling
Stys
Takahashi
Takahashi
Tangirala
Trapp
Tremblay
V. Wee Yong
Walf
Woodruff
Yamasaki
Publication venue: 'Rockefeller University Press'
Publication date
Field of study

IL-17A Promotes Granulocyte Infiltration, Myelin Loss, Microglia Activation, and Behavioral Deficits During Cuprizone-Induced Demyelination

Author: A Lampron
C Stadelmann
CG Fulmer
CK Prajeeth
D Ge
E Rouvier
EG Baxi
F Mei
FA Mithen
FA Tansey
G Roussel
GK Matsushima
H Li
H Xu
H Xu
H Zhang
HH Hofstetter
Iain L. Campbell
IL Campbell
J Goldberg
J Kawanokuchi
J Praet
J Yang
J Zimmermann
JD Sarma
JL Mason
JM Matthieu
JR Plemel
Julian Zimmermann
K Bénardais
L Bologa
LA Pasquini
Louisa Nitsch
LP Liu
LT Remington
M Debnath
M Kipp
M Veldhoen
Marcus Müller
Marius Krauthausen
Michael Emrich
Michael T. Heneka
MK Paintlia
MM Curtis
MR Kotter
O Fernandez
R Martini
RG Lister
RJ Thompson
RM Ransohoff
SG Meuth
Simon Saxe
SK Ludwin
T Skripuletz
T Skripuletz
T Skripuletz
Y Hu
Y Komiyama
Z Kang
Z Kang
Z Kang
Ó Fernández
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

Astrocyte-derived tissue Transglutaminase affects fibronectin deposition, but not aggregation, during cuprizone-induced demyelination

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