Plant sterols in “rafts”: a better way to regulate membrane thermal shocks

Beck, Johannes; Mathieu, Damien; Loudet, Cécile; Buchoux, Sébastien; Dufourc, Érick J.

doi:10.1096/fj.06-7809com

Cited by 147 publications

(120 citation statements)

References 53 publications

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“…Accordingly, both the clustering in domains of remorin and PIP2;1 were dramatically affected by treatment with cyclodextrin (Raffaele et al, 2009;Li et al, 2012), indicating a major role for sterols in the spatial segregation of these proteins in membrane domains. This treatment also induced an overall increase in acyl chain disorder and a reduction in liquid phase heterogeneity of isolated tobacco PM (Roche et al, 2008), in line with the ability of phytosterols to induce a Lo phase in ternary mixtures of lipids (Beck et al, 2007). Here, we contribute new evidence in support of the developing "membrane raft" concept by revealing a large-range distribution of the steroldependent ordered level of nanoscale assemblies in plant suspension cells.…”

Section: Spatial Distribution and Dynamic Of Pm Heterogeneitysupporting

confidence: 69%

Modification of Plasma Membrane Organization in Tobacco Cells Elicited by Cryptogein

et al. 2013

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Lipid mixtures within artificial membranes undergo a separation into liquid-disordered and liquid-ordered phases. However, the existence of this segregation into microscopic liquid-ordered phases has been difficult to prove in living cells, and the precise organization of the plasma membrane into such phases has not been elucidated in plant cells. We developed a multispectral confocal microscopy approach to generate ratiometric images of the plasma membrane surface of Bright Yellow 2 tobacco (Nicotiana tabacum) suspension cells labeled with an environment sensitive fluorescent probe. This allowed the in vivo characterization of the global level of order of this membrane, by which we could demonstrate that an increase in its proportion of ordered phases transiently occurred in the early steps of the signaling triggered by cryptogein and flagellin, two elicitors of plant defense reactions. The use of fluorescence recovery after photobleaching revealed an increase in plasma membrane fluidity induced by cryptogein, but not by flagellin. Moreover, we characterized the spatial distribution of liquid-ordered phases on the membrane of living plant cells and monitored their variations induced by cryptogein elicitation. We analyze these results in the context of plant defense signaling, discuss their meaning within the framework of the "membrane raft" hypothesis, and propose a new mechanism of signaling platform formation in response to elicitor treatment.

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Section: Spatial Distribution and Dynamic Of Pm Heterogeneitysupporting

confidence: 69%

Modification of Plasma Membrane Organization in Tobacco Cells Elicited by Cryptogein

et al. 2013

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“…Other authors also observed the lower ability of b-sitosterol to order phospholipid chains in the fluid phase compared with cholesterol (Beck et al 2007;Bernsdorff and Winter 2003) and, vice versa, to disturb the arrangement in the gel phase (Beck et al 2007). However, these distinct effects of cholesterol or b-sitosterol on d L are not observed in our measurements.…”

Section: Resultsmentioning

confidence: 95%

The effects of cholesterol and β-sitosterol on the structure of saturated diacylphosphatidylcholine bilayers

et al. 2010

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“…They have been proposed as key molecules to maintain membranes in a state of fluidity adequate for function. For instance, phytosterols have been recently shown to increase membrane cohesion in order to maintain plant membranes in a state of dynamics less sensitive to temperature shocks [6,7]. In this review, the impact of different classes of sterols on membrane dynamics from mammals to archebacteria will be discussed.…”

Section: Introduction: Sterols and The Dynamic Membranementioning

confidence: 99%

Sterols and membrane dynamics

2008

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The effect of sterols from mammals, plants, fungi, and bacteria on model and natural membrane dynamics are reviewed, in the frame of ordering-disordering properties of membranes. It is shown that all sterols share a common property: the ability to regulate dynamics in order to maintain membranes in a microfluid state where it can convey important biological processes. Depending on the sterol class, this property is modulated by molecular modifications that have occurred during evolution. The role of sterols in rafts, antibiotic complexes, and in protecting membranes from the destructive action of amphipathic toxins is also discussed.

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Plant sterols in “rafts”: a better way to regulate membrane thermal shocks

Cited by 147 publications

References 53 publications

Modification of Plasma Membrane Organization in Tobacco Cells Elicited by Cryptogein

Modification of Plasma Membrane Organization in Tobacco Cells Elicited by Cryptogein

The effects of cholesterol and β-sitosterol on the structure of saturated diacylphosphatidylcholine bilayers

Sterols and membrane dynamics

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