First published online 24 February 2009
doi: 10.1242/jcs.037721
Journal of Cell Science 122, 859-866 (2009)
Published by The Company of Biologists 2009
Flagellar membrane localization via association with lipid rafts
Kevin M. Tyler1,
Alina Fridberg2,
Krista M. Toriello2,
Cheryl L. Olson2,
John A. Cieslak2,
Theodore L. Hazlett3 and
David M. Engman2,*
1 BioMedical Research Centre, School of Medicine, Health Policy and Practice, University of East Anglia, Norwich, Norfolk NR4 7TJ, UK
2 Departments of Pathology and Microbiology-Immunology, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA
3 Laboratory for Fluorescence Dynamics, University of California, Irvine, CA 92697, USA
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Fig. 1. Calflagin Tb24 is associated with detergent-resistant membranes. (A) To test temperature-dependent resistance to detergent, 108 T. brucei procyclic forms were extracted in 1 ml of 1% Triton X-100 in PBS at 4°C or 37°C for 10 minute and centrifuged supernatants and pellets were analyzed by SDS-PAGE and western blotting with calflagin Tb24-specific antiserum. Of the proteins tested, only calflagin Tb24 was present in the pellet (P) at 4°C but the supernatant (S) at 37°C. (B) To test buoyancy, cells were extracted in 1% Triton X-100 in TBS at 4°C and floated through an OptiPrep (40%, 30%, 5%) step gradient. Sequential fractions (1-10) were collected and equal volumes (25 µl) were subjected to western blot analysis with the same antibodies used in A. Only calflagin Tb24 floated to the top of the step gradient, with the other proteins remaining close to the loading zone. In both assays, partitioning of Hsp70, PFR, EP procyclin and GP63 were assessed to control for cytosolic, flagellar cytoskeleton and diffuse surface distributions. W, whole-cell lysate.
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Fig. 3. The trypanosome flagellar membrane possesses increased liquid order. T. brucei procyclic forms were examined by two-photon microscopy after staining with the amphiphilic fluor laurdan. Both non-dividing (top) and dividing (bottom) cells are shown. Procyclic trypanosomes were washed and resuspended to 108 cells per ml in PBS containing 1 µM laurdan, then settled on poly-L-lysine-coated slides for 10 minute at room temperature. (A) Laurdan fluorescence intensity relates to probe concentration and is scaled so that yellow corresponds to high intensity and red to low intensity. (B) The generalized polarity (GP) is a ratiometric depiction of fluorescent intensities from two wavelengths. The GP value is probe concentration independent, reflecting variation in the orderliness of a membrane. Areas appearing green are less ordered and those appearing blue are more ordered. (C) Line drawings are shown for orientation of the trypanosome cell: f, flagellum; pm, pellicular membrane; nf, new flagellum; of, old flagellum. Bar, 5 µm.
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Fig. 4. Calflagin Tb24 distribution reflects membrane raft stability. (A) The flagellum of bloodstream form T. brucei is enriched in cholesterol and calflagin Tb24. Filipin staining of untreated cells shows enrichment in the flagellum. The flagellar localization of calflagin Tb24 is resistant to 1% Triton X-100 at 4°C. The region of the flagellum connector (arrows, center panel) is particularly rich in staining for this DRM marker. If cholesterol is depleted by preincubation in 20 mM MBCD for 30 minutes, flagellar concentration of calflagins Tb24 is lost. (B) MBCD treatment leads to loss of buoyancy of calflagin Tb24. Bloodstream form T. brucei treated with MBCD and untreated control cells were analyzed by Optiprep gradient centrifugation and western blotting with calflagin Tb24-specific antiserum as described in Fig. 1. W, whole-cell lysate. (C) Chemical modulation of membrane fluidity. Washed procyclic form trypanosomes were treated with 10% DMSO for 1 minute to stabilize the liquid ordered phase or 1% diethyl ether for 30 seconds to fluidize the liquid ordered phase. Cells were then fixed and processed for immunofluorescence microscopy using anti-calflagin Tb24. Bar, 5 µm.
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Fig. 5. DRM patches localize to the flagellar axoneme. Cells washed with 1% Triton X-100 at 4°C retain patches of detergent-resistant membrane material along their flagellar axonemes, as visualized by scanning electron microscopy. (A) A more distal section and (B) a more proximal section of the single flagellum of a procyclic form parasite are shown. The patches of membrane (M) revealed are restricted to the flagellar axoneme (A) and absent from the paraflagellar rod (P). Some particles are also seen associated with subpellicular microtubules (T), but these are at much lower density than those distributed along the flagellar axoneme. (C) Micrograph of unextracted procyclic flagellum (no Triton X-100). Patches are most abundant at the flagellar tip and are larger in the ergosterol-containing procyclic form (D) than in the cholesterol-containing bloodstream form (E). Patches are absent from the flagellum and flagellar tip of bloodstream forms pretreated with 20 mM MBCD to deplete cholesterol (F). (G) Micrograph of unextracted bloodform flagellum (no Triton X-100). Bars, 200 nm.
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© The Company of Biologists Ltd 2009
-Tubulin is distributed in both flagellar and pellicular cytoskeleton, WCB is restricted to the pellicular cytoskeleton and PFR is confined to the flagellar cytoskeleton. (C) Purified flagella were evaluated by fluorescence microscopy for purity using cytoskeletal (