TY - JOUR
T1 - Who's in, who's out? Re-evaluation of lipid raft residents
AU - Mlinac-Jerkovic, Kristina
AU - Ilic, Katarina
AU - Zjalić, Milorad
AU - Mandić, Dario
AU - Debeljak, Željko
AU - Balog, Marta
AU - Damjanović, Vladimir
AU - Maček Hrvat, Nikolina
AU - Habek, Nikola
AU - Kalanj-Bognar, Svjetlana
AU - Schnaar, Ronald L.
AU - Heffer, Marija
N1 - Funding Information:
This work was funded by Croatian Science Foundation grant to MH (Raft tuning, IP‐2014‐09‐2324) and SK‐B (NeuroReact, IP‐2016‐06‐8636). MH kindly acknowledges the support of University of Osijek (INGI‐2015‐35 grant). KM‐J gratefully acknowledges the support from EMBO (Short‐term fellowship, ASTF 363‐2015), and RLS support from the US National Institutes of Health (U01CA241953). The authors would like to thank Prof. Aleksandra Dugandzic for contributing to manuscript preparation. This publication was co‐financed by the European Union through the European Regional Development Fund, Operational Programme Competitiveness and Cohesion, grant agreement No. KK.01.1.1.01.0007, CoRE – Neuro and grant agreement No KK.01.1.1.02.0015. Graphical abstract was created with BioRender.com.
Funding Information:
This work was funded by Croatian Science Foundation grant to MH (Raft tuning, IP-2014-09-2324) and SK-B (NeuroReact, IP-2016-06-8636). MH kindly acknowledges the support of University of Osijek (INGI-2015-35 grant). KM-J gratefully acknowledges the support from EMBO (Short-term fellowship, ASTF 363-2015), and RLS support from the US National Institutes of Health (U01CA241953). The authors would like to thank Prof. Aleksandra Dugandzic for contributing to manuscript preparation. This publication was co-financed by the European Union through the European Regional Development Fund, Operational Programme Competitiveness and Cohesion, grant agreement No. KK.01.1.1.01.0007, CoRE ? Neuro and grant agreement No KK.01.1.1.02.0015. Graphical abstract was created with BioRender.com. All experiments were conducted in compliance with the ARRIVE guidelines.
Publisher Copyright:
© 2021 The Authors. Journal of Neurochemistry published by John Wiley & Sons Ltd on behalf of International Society for Neurochemistry
PY - 2021/8
Y1 - 2021/8
N2 - Lipid rafts, membrane microdomains enriched with (glyco)sphingolipids, cholesterol, and select proteins, act as cellular signalosomes. Various methods have been used to separate lipid rafts from bulk (non-raft) membranes, but most often, non-ionic detergent Triton X-100 has been used in their isolation. However, Triton X-100 is a reported disruptor of lipid rafts. Histological evidence confirmed raft disruption by Triton X-100, but remarkably revealed raft stability to treatment with a related polyethylene oxide detergent, Brij O20. We report isolation of detergent-resistant membranes from mouse brain using Brij O20 and its use to determine the distribution of major mammalian brain gangliosides, GM1, GD1a, GD1b and GT1b. A different distribution of gangliosides—classically used as a raft marker—was discovered using Brij O20 versus Triton X-100. Immunohistochemistry and imaging mass spectrometry confirm the results. Use of Brij O20 results in a distinctive membrane distribution of gangliosides that is not all lipid raft associated, but depends on the ganglioside structure. This is the first report of a significant proportion of gangliosides outside raft domains. We also determined the distribution of proteins functionally related to neuroplasticity and known to be affected by ganglioside environment, glutamate receptor subunit 2, amyloid precursor protein and neuroplastin and report the lipid raft populations of these proteins in mouse brain tissue. This work will enable more accurate lipid raft analysis with respect to glycosphingolipid and membrane protein composition and lead to improved resolution of lipid–protein interactions within biological membranes. (Figure presented.).
AB - Lipid rafts, membrane microdomains enriched with (glyco)sphingolipids, cholesterol, and select proteins, act as cellular signalosomes. Various methods have been used to separate lipid rafts from bulk (non-raft) membranes, but most often, non-ionic detergent Triton X-100 has been used in their isolation. However, Triton X-100 is a reported disruptor of lipid rafts. Histological evidence confirmed raft disruption by Triton X-100, but remarkably revealed raft stability to treatment with a related polyethylene oxide detergent, Brij O20. We report isolation of detergent-resistant membranes from mouse brain using Brij O20 and its use to determine the distribution of major mammalian brain gangliosides, GM1, GD1a, GD1b and GT1b. A different distribution of gangliosides—classically used as a raft marker—was discovered using Brij O20 versus Triton X-100. Immunohistochemistry and imaging mass spectrometry confirm the results. Use of Brij O20 results in a distinctive membrane distribution of gangliosides that is not all lipid raft associated, but depends on the ganglioside structure. This is the first report of a significant proportion of gangliosides outside raft domains. We also determined the distribution of proteins functionally related to neuroplasticity and known to be affected by ganglioside environment, glutamate receptor subunit 2, amyloid precursor protein and neuroplastin and report the lipid raft populations of these proteins in mouse brain tissue. This work will enable more accurate lipid raft analysis with respect to glycosphingolipid and membrane protein composition and lead to improved resolution of lipid–protein interactions within biological membranes. (Figure presented.).
KW - amyloid precursor protein
KW - detergent-resistant membranes
KW - glutamate receptor subunit 2
KW - glycosphingolipids
KW - neuroplastin
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U2 - 10.1111/jnc.15446
DO - 10.1111/jnc.15446
M3 - Article
C2 - 34081780
AN - SCOPUS:85108835209
SN - 0022-3042
VL - 158
SP - 657
EP - 672
JO - Journal of Neurochemistry
JF - Journal of Neurochemistry
IS - 3
ER -