Wanda B. Mackinnon scite author profile

Plasma membranes purified 32- to 45-fold were isolated from leukaemic T-lymphoblasts, both sensitive and resistant to the Vinca alkaloid vinblastine. On development of drug resistance there was a very significant elevation of ether lipid content. 1-0-alkyl phospholipid increased by 200% with a smaller 30% increase in 1-0-alkenyl phospholipid. Cholesterol and phospholipid levels were also found to increase by 50% and 30% respectively, while the lipid to protein ratio increased by 60%. More modest changes were observed in the fatty acid composition of the membranes, with an alteration in the double bond index from 35.3 to 41.2. These lipid changes may have important implications in the changes to membrane permeability that develop with drug resistance.

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Cell-surface fucosylation and magnetic resonance spectroscopy characterization of human malignant colorectal cells

Lean¹,

Mackinnon²,

Delikatny³

et al. 1992

Biochemistry

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Proton (1H) magnetic resonance spectroscopy (MRS) has been used to distinguish lowly and highly tumorigenic human malignant colorectal cell lines based on differences in lipid, choline, and fucose resonances. The spectral patterns were comparable with those obtained for human colorectal biopsy specimens, indicating that cells grown in vitro are suitable for documenting colorectal tumor biology. For the first time, two-dimensional (2D) correlation spectroscopy (COSY) has been used to assess the fucosylation state on the surface of intact viable cells, and differences were recorded between the highly and lowly tumorigenic cell lines. Four methyl-methine cross-peaks were assigned to covalently linked fucose on the basis of increases in volume following the addition of free fucose. Both cell lines incorporated the same amount of exogenous free fucose as determined chemically, but the COSY spectra indicated that the fucose was distributed differently by each cell line. Of the four sites containing MR-visible bound fucose, one was common to both cell lines, two characteristic of the highly tumorigenic line, and the remaining site unique to the lowly tumorigenic cells. Material released from the highly tumorigenic cells in response to increased cell density was also fucosylated (whereas shed material from lowly tumorigenic cells was not), suggesting a biological role for shed fucosylated antigens in tumor aggression.

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Wanda B. Mackinnon

Fine-needle biopsy specimens of benign breast lesions distinguished from invasive cancer ex vivo with proton MR spectroscopy.

Plasma membrane lipid composition of vinblastine sensitive and resistant human leukaemic lymphoblasts

Cell-surface fucosylation and magnetic resonance spectroscopy characterization of human malignant colorectal cells

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