isolation and

Preparations representing populations of (a) basal and spinous cells, (b) granular cells, and (c) stratum corneum cells were obtained by successive treatments of epidermal slices from pig skin with dilute buffered trypsin solutions. Total lipids accounted for about 8% of the cell dry weight in each of the three populations. Phospholipids, which predominated in the basal and spinous cells, accounted for only 21% of the total lipids in the granular cells and less than 0.1% in the stratum corneum. The latter cells contained more cholesterol (23% of total lipid) than either the granular cells (18%) or the basal and spinous cells (8%). The proportion of ceramide was also much higher in the stratum corneum (17%) and granular cells (9%) than in the basal and spinous cells (1%). The relative amounts of glycosphingolipid (glucosylceramide) and cholesteryl sulfate in the total lipids of stratum corneum cells were less than half those in the granular cells and basal and spinous cells. A novel phospholipid was a major component (26% of total) of the phospholipids from granular cells. The compound, which was partially characterized, contained phosphorus, fatty acids, and glycerol (molar ratio 1:3:2) and appeared to be a neutral derivative of phosphatidic acid.

[1]  G. M. Gray,et al.  Lipid compositions of cells isolated from pig, human, and rat epidermis. , 1975, Journal of lipid research.

[2]  P. Elias,et al.  The permeability barrier in mammalian epidermis , 1975, The Journal of cell biology.

[3]  A. Matoltsy,et al.  CHEMICAL CHARACTERIZATION OF ISOLATED EPIDERMAL DESMOSOMES , 1974, The Journal of cell biology.

[4]  I. B. Stern,et al.  The uptake of 14C-leucine and 14C-histidine by cell suspensions of isolated strata of neonatal rat epidermis. , 1972, The Journal of investigative dermatology.

[5]  C. Gahmberg,et al.  The lipids of the plasma membranes and endoplasmic reticulum from cultured baby hamster kidney cells (BHK21). , 1972, Biochimica et biophysica acta.

[6]  S. Patton Correlative relationship of cholesterol and sphingomyelin in cell membranes. , 1970, Journal of theoretical biology.

[7]  N. Nicolaides,et al.  The skin surface lipids of man compared with those of eighteen species of animals. , 1968, Journal of Investigative Dermatology.

[8]  D. Vance,et al.  Quantitative determination of the neutral glycosyl ceramides in human blood. , 1967, Journal of lipid research.

[9]  N. Nicolaides Skin lipids. II. Lipid class composition of samples from various species and anatomical sites , 1965, Journal of the American Oil Chemists' Society.

[10]  O. Renkonen Individual molecular species of different phospholipid classes. Part II. A method of analysis , 1965, Journal of the American Oil Chemists' Society.

[11]  A. Matoltsy,et al.  MEMBRANE-COATING GRANULES OF KERATINIZING EPITHELIA , 1965, The Journal of cell biology.

[12]  H. Yardley,et al.  METABOLISM OF PHOSPHATE ESTERS AND PHOSPHOLIPIDS IN SKIN MAINTAINED IN VITRO. , 1964, The Journal of investigative dermatology.

[13]  W MONTAGNA,et al.  THE SKIN OF THE DOMESTIC PIG. , 1964, The Journal of investigative dermatology.

[14]  R. Dawson A hydrolytic procedure for the identification and estimation of individual phospholipids in biological samples. , 1960, The Biochemical journal.

[15]  M. Wells,et al.  [53] Quantitative and qualitative analysis of lipids and lipid components , 1969 .

[16]  A. Kligman,et al.  CHAPTER XX – The Biology of the Stratum Corneum , 1964 .

[17]  G. T. Passamanti A simplified spectrophotometric determination of ester groups in lipids. , 1959 .

[18]  R. Mackenna Modern trends in dermatology , 1948 .