Zeenat F. Nabi scite author profile

α-Tocopherol, the major biologically active form of vitamin E, represents a frequently added lipophilic compound of skin care products. Despite its emerging use in rinse-off formulations, little is known on its efficacy with respect to its deposition or its antioxidant potential in human skin. The objective of this study was to investigate whether the single use of an α-tocopherol-enriched rinse-off product provides effective deposition of α-tocopherol on human stratum corneum. To test this, forearm skin of 13 volunteers was washed either with an α-tocopherol-enriched rinse-off product (test product, TP) or with an α-tocopherol-free vehicle control (control product, CP) (contralateral arm) using a standardized wash protocol. Thereafter, skin surface lipids were extracted with pure ethanol after the wash procedure as well as after 24 h. Additionally, one group of volunteers was subjected to irradiation of their forearms with low-dose UVA (8 J/cm²) prior to lipid extraction. Skin lipid extracts were analyzed by high performance liquid chromatography using electrochemical detection for vitamin E and UV detection for squalene (SQ) and squalene monohydroperoxide. The results of this in vivo study demonstrated that (1) while CP treatment lowers, TP treatment strongly increases α-tocopherol levels of skin barrier lipids; (2) increased vitamin E deposition levels were maintained for a period of at least 24 h, and (3) TP treatment significantly inhibited photooxidation of SQ. In conclusion, the use of α-tocopherol-enriched rinse-off products may help to maintain the integrity of the skin barrier by providing protection against photooxidative stress at the level of skin surface lipids.

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Bioconversion of Vitamin E Acetate in Human Skin

Nabi

Tavakkol

Dobke

et al. 2000

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Release of calcium from membranes and its relation to phagocytotic metabolic changes: A fluorescence study on leukocytes loaded with chlortetracycline

Takeshige

Nabi

Tatscheck

et al. 1980

Biochemical and Biophysical Research Communications

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Unmasking of cryptic natural killer (NK) cell recognition sites on chronic lymphocytic leukemia lymphocytes

1988

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The sensitivity of chronic lymphocytic leukemia (CLL) lymphocytes to attack by natural killer (NK) cells has remained questionable. To clarify this issue, freshly isolated lymphocytes of 37 patients with B-CLL, five with WDLL and two with HCL, were tested with a standard cytotoxicity assay with NK cells from normal donors. All these targets were resistant to cytolysis by the effectors. Freeze-fracture analysis of CLL cell plasma membranes revealed that they have a larger number of intramembranous particles (IMP) associated with the external leaflet (E-face) than have normal lymphocytes. Unlike other neoplastic cells, exposure of CLL lymphocytes to phorbol esters or treatment with neuraminidase did not render them vulnerable to attack by NK cells, nor did 5 days of culture have an effect. Incubation of CLL lymphocytes with anti-Ig-mu (24-72 hr) or with 0.1% pepsin (15 min) resulted in 15% and 27% cytolysis, respectively. B-lymphocytes from the blood of healthy donors were not killed when treated similarly: These data establish that freshly isolated B-CLL lymphocytes are resistant to NK cytolysis but that in contrast to normal B-cells, they possess cryptic NK-recognition structures, which may be uncovered by surface modulation.

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Inhibition by superoxide dismutase and catalase of the damage of isolated Leishmania mexicana amazonensis by phenazine methosulfate

Nabi

Rabinovitch

1984

Molecular and Biochemical Parasitology

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Zeenat F. Nabi

Vitamin E Delivery to Human Skin by a Rinse-Off Product: Penetration of α-Tocopherol versus Wash-Out Effects of Skin Surface Lipids

Bioconversion of Vitamin E Acetate in Human Skin

Release of calcium from membranes and its relation to phagocytotic metabolic changes: A fluorescence study on leukocytes loaded with chlortetracycline

Unmasking of cryptic natural killer (NK) cell recognition sites on chronic lymphocytic leukemia lymphocytes

Inhibition by superoxide dismutase and catalase of the damage of isolated Leishmania mexicana amazonensis by phenazine methosulfate

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