Abstract
In contrast to surface lipids originating from the sebaceous glands, membrane- forming integral lipids occur in keratinized tissues of skin, and skin appendages like fingernail plates or scalp hair. After removal of lipids of sebaceous origin by exhaustive solvent extraction, lyophilizing and hydrolyzing fingernail plate and scalp hair samples, fractions of integral cholesterol (CH) and cholesterol sulfate (CS) were quantified using gas chromatography. We studied these bound lipids and the serum lipids of 70 healthy subjects, aged 20.1 to 92.0 years. We observed higher amounts of CS in hair clippings of men than of women (775±241vs 662±239 nmol/g hair, respectively). The highest amounts of CS were found in men with serum LDL- CH > 4.14 mmol/L; this subgroup also showed the highest CH values in fingernail clippings (2293±621 nmol/g nail). However, analysis of integral lipids of hair and fingernail plate clippings had little significance in detecting hypercholesterolemia in normal persons. An increase in integral CH levels in fingernail clippings with donor age was noted, independently of variations in serum CH or LDL- CH. This correlation proved to be significant in men (R=0.43), but not in women (R=0.38). In contrast, in women but not in men we found donor age correlated with internal CH of hair samples (R=0.43) and with CS of nail plates (R= - 0.59), independently of serum CH or LDL- CH variations. This age- dependent decrease in CS levels might explain the previously observed higher incidence of brittle nails in women. Obviously, the metabolism of internal lipids CH and CS in fingernail and scalp hair differs between genders, and shows age- associated changes.
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Brosche, T., Dressler, S. & Platt, D. Age-associated changes in integral cholesterol and cholesterol sulfate concentrations in human scalp hair and finger nail clippings. Aging Clin Exp Res 13, 131–138 (2001). https://doi.org/10.1007/BF03351535
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DOI: https://doi.org/10.1007/BF03351535