Lateral mobility of an amphipathic apolipoprotein, ApoC-III, bound to phosphatidylcholine bilayers with and without cholesterol

Vaz, Winchil L.C.; Jacobson, Kenneth A.; Wu, En-Shinn; Derzko, Zenon

doi:10.1073/pnas.76.11.5645

Cited by 38 publications

(19 citation statements)

References 33 publications

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“…sured values of D are in the range 10-9 to 10-10 cm2/sec, consistent with previous results in the literature for HLA antigens (51) and with values commonly reported for mobile membrane proteins (52). It is likely that the 10-9 cm2/sec value for D is that for a protein unhindered by cytoskeletal components because this is comparable to the values obtained for proteins in cholesterol-containing model membranes (53,54). The smaller values probably reflect some hindrance of the motion of the protein.…”

Section: Immunology: Smith Et Alsupporting

confidence: 90%

Cell surface properties of HLA antigens on Epstein-Barr virus-transformed cell lines.

Smith¹,

Petty²,

Parham³

et al. 1982

Proc. Natl. Acad. Sci. U.S.A.

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A number of monoclonal antibodies have been used to investigate the distributions and rates of lateral motion. of the HLA-A,B, and -DR antigens on several Epstein-Barr virustransformed B-cell lines. The lateral diffusion coefficients (D) of fluorescein conjugates of.the monoclonal antibodies bound to the cell surface were determined by fluorescence recovery after pattern photobleaching. Ds of HLA-A and -B were.found to be comparable and of the order of 1009 to 10-1o cm2/sec for each of the seven monoclonal antibodies and four cell lines examined. The HLA antigens. appear to be monomeric on the cell surface based on experiments using mixtures of arsanilic acid-conjugated and fluorescein-conjugated antibodies. Four monoclonal antibodies against DR antigens were examined. Two ofthese, Genox3.53 and L243, labeled the cell surface uniformly and gave Ds comparable to those obtained for the HILA-A and -B antigens. The other two, DA2 and 2.06, rapidly patched on the cell surface and were immobile. The DA2, L243, and Genox 3.53 antibodies bound outside ofthe caps formed with the arsanilic acid-conjugated 2.06 antibody and a second-step rhodamine-conjugated rabbit anti-arsanilate antibody. This is consistent with recent biochemical evidence that there are multiple distinct antigens coded for by the HLA-DR region.The major histocompatability complex codes for a series ofpolymorphic cell surface antigens important for the control of cellular interactions in immunity (1-6). Two different types of glycoprotein complexes provide the molecular basis for the HLA-

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Section: Immunology: Smith Et Alsupporting

confidence: 90%

Cell surface properties of HLA antigens on Epstein-Barr virus-transformed cell lines.

Smith¹,

Petty²,

Parham³

et al. 1982

Proc. Natl. Acad. Sci. U.S.A.

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“…The rate oflateral diffusion of these proteins is comparable to rates observed for other membrane proteins in similar lipid mixtures (27)(28) patched with unlabeled 114.1 antibody (first-step) and rhodamine-conjugated F(ab')2 rabbit anti-mouse antibody (Cappel, Cochranville, PA) (second-step, abbreviated RFRAM henceforth); (3,4) unlabeled G patched with rabbit anti-G and rhodamine-conjugated F(ab')2 goat anti-rabbit (Cappel) (abbreviated RFGAR henceforth); (5,6) F1M H-2Kk; (7,8) FITC-G; (9,10) FITC-H-2Kk patched with alloantiserum against H-2Kk and RFRAM (fluorescein fluorescence); (11,12) FITC-G patched with rabbit anti-G and RFGAR (fluorescein fluorescence); (13,14) FITC-H-2Kk and unlabeled G; (15,16) FITC-G and unlabeled H-2Kk; (17,18) FITC-H-2Kk and unlabeled G (fluorescein fluorescence) with the G protein patched with rabbit anti-G and RFGAR; (19,20) A strong specific interaction between viral proteins and H2Kk molecules in a reconstituted membrane would provide strong support for any theory that required close proximity of these two molecules in the target membrane during specific elicitation of cytotoxic T cells. On the other hand, freely and independently diffusing viral proteins and H-2Kk molecules are also consistent with a possible close proximity of these molecules as a prerequisite for specific elicitation of CTL (32).…”

Section: Discussionsupporting

confidence: 68%

H-2Kk and vesicular stomatitis virus G proteins are not extensively associated in reconstituted membranes recognized by T cells.

Cartwright¹,

Smith²,

Heinzelmann³

et al. 1982

Proc. Natl. Acad. Sci. U.S.A.

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It is shown that liposomes containing (i) a fluorescein-labeled murine histocompatibility antigen and the G protein of vesicular stomatitis virus or (ii) H-2Kk and fluorescein-labeled viral protein (FITC-G) can elicit H-2-restricted syngeneic antiviral cytotoxic T 'cells as assayed by 5tCr release from appropriate virus-infected target cells. Fluorescence recovery after photobleaching was -used to measure the diffusion coefficients of these reconstituted proteins in four different sam-ples: (i) FITC-H-2Kk; jiU) FITC-H-2Kk and G; (iii) FITC-G; and (iv) FITC-G and H-2K . The same rate of lateral diffusion (D' = 1 X 10-8 cm2/sec at 37C in 25% cholesterol/75% dimyristoylphosphatidylcholine) was obtained in every case. Both proteins, fluorescent as well as nonfluorescent, could be patched by using specific antibodies. When G was patched with antibody, FITC-H2Kk did not copatch. When H-2Kk was patched with antibody, FITC-G did not copatch. These diffusion and patching measurements rule out the possibility that these proteins have either extensive oligomeric associations or strong specific pairwise associations.There is now much evidence that virus-specific cytotoxic T lymphocytes (CTL) are dually specific for.virus and for selfcell surface antigens encoded by the major histocompatibility complex (1). Effector lymphocytes sensitized against virus-infected cells of a given haplotype will lyse virus-infected cells of the same haplotype with much higher efficiency than virus-infected cells of a different haplotype. A similar restriction holds for the afferent immune response. Virus-specific H-2-restricted secondary elicitation of CTL has been demonstrated by using membrane fragments as well as reconstituted membranes (2-11). These studies show that both viral protein and H-2 antigen must be present in the same reconstituted membrane in order to elicit the cellular response.Three models can be considered, based on alternative hypothetical structures for the T-cell receptor(s). In one model, a specific molecular complex between viral protein and transplantation antigen preexists in the target membrane before interaction with the T cell and is recognized by the T-cell receptor. In the second model, a close physical association of the two antigens is stabilized only during their interaction with the Tcell receptor. In the third model, no close physical or chemical association between viral protein and transplantation antigen exists prior to, or during, interaction with the T cell. (This is the two-receptor or "dual receptor" model.) The T-cell receptor(s) involved in the secondary elicitation of CTL is presumed to be on precytotoxic T cells or on T helper cells or on both.One biophysical approach to this problem is to use fluorescently labeled membrane components so that the distribution, motion, and interaction of these components can be studied by using optical techniques. In the work described here, purified G protein (G) of vesicular stomatitis virus (VSV) and purified H-2Kk protein were fluorescently labeled an...

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“…Early work focused on the analysis of cell surface particles and utilized fluorescent dyes to monitor mobility during recovery after photobleaching. [1][2][3][4][5] Advances in time-lapse imaging technology and the cloning of green fluorescent protein 6 has allowed scientists to pass (Fig. 1A).…”

mentioning

confidence: 99%

The nucleolar detention pathway

2012

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Lateral mobility of an amphipathic apolipoprotein, ApoC-III, bound to phosphatidylcholine bilayers with and without cholesterol

Cited by 38 publications

References 33 publications

Cell surface properties of HLA antigens on Epstein-Barr virus-transformed cell lines.

Cell surface properties of HLA antigens on Epstein-Barr virus-transformed cell lines.

H-2Kk and vesicular stomatitis virus G proteins are not extensively associated in reconstituted membranes recognized by T cells.

The nucleolar detention pathway

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