Arthur Kammeyer scite author profile

The levels of natural moisturizing factors in the skin can be used as a biomarker of hydration, for studying the effect of skin irritants, or as a biomarker of loss-of-function mutations in the filaggrin gene which are the main risk factor for atopic dermatitis. In this study the chromatographic performance and recovery of natural moisturizing factors and proteins from the skin were investigated using different extraction solvents and adhesive tapes. The uppermost layer of the skin stratum corneum, collected by using commercially available D-squame and corneofix adhesive tapes, was extracted by ammonia or potassium hydroxide. Protein levels used to correct for a variable stratum corneum amount on a tape were assessed by measuring optical density of a tape or indirectly by measuring proteins by a spectrophotometric assay. The measured natural moisturizing factors, pyrrolidone-5-carboxylic acid, histidine, tyrosine, trans-urocanic acid, and cis-urocanic acid were determined by ion pair reverse phase HPLC. Sample preparation and chromatographic performance were favorable when ammonia was used as an extraction solvent. Extraction of the natural moisturizing factors with ammonia avoids a time consuming neutralization step as required with extraction procedures using strong base or acid. The only drawback of the ammonia method is incomplete extraction of proteins from the tapes; however this can be avoided by measuring the optical density of stratum corneum-loaded tapes. The sensitivity of the method was sufficiently high to quantify the analytes even in homozygous filaggrin gene carriers. Reduced natural moisturizing factors levels found in the individuals with filaggrin gene mutation or after exposure to a skin irritant sodium lauryl sulfate were consistent with the previously reported studies.

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Increased Sensitivity of Histidinemic Mice to UVB Radiation Suggests a Crucial Role of Endogenous Urocanic Acid in Photoprotection

Barresi

Stremnitzer

Mlitz

et al. 2011

Journal of Investigative Dermatology

109

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Urocanic acid (UCA) is produced by the enzyme histidase and accumulates in the stratum corneum of the epidermis. In this study, we investigated the photoprotective role of endogenous UCA in the murine skin using histidinemic mice, in which the gene encoding histidase is mutated. Histidase was detected by immunohistochemistry in the stratum granulosum and stratum corneum of the normal murine skin but not in the histidinemic skin. The UCA content of the stratum corneum and the UVB absorption capacity of aqueous extracts from the stratum corneum were significantly reduced in histidinemic mice as compared with wild-type mice. When the shaved back skin of adult mice was irradiated with 250 mJ cm(-2) UVB, histidinemic mice accumulated significantly more DNA damage in the form of cyclobutane pyrimidine dimers than did wild-type mice. Furthermore, UVB irradiation induced significantly higher levels of markers of apoptosis in the epidermis of histidinemic mice. Topical application of UCA reversed the UVB-photosensitive phenotype of histidinemic mice and increased UVB photoprotection of wild-type mice. Taken together, these results provide strong evidence for an important contribution of endogenous UCA to the protection of the epidermis against the damaging effects of UVB radiation.

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Prolonged Increase of cis‐Urocanic Acid Levels in Human Skin and Urine after Single Total‐body Ultraviolet Exposures

Kammeyer¹,

Pavel²,

Asghar

et al. 1997

Photochem & Photobiology

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Cis-urocanic acid (cis-UCA), a mediator of immunosuppression, is formed from trans-UCA upon UV-exposure of the skin. This study describes a liquid chromatographic method for the simultaneous quantification of cis- and trans-UCA in skin, urine and plasma of nonirradiated volunteers. It also describes cis- and trans-UCA kinetics in UV-irradiated volunteers. New procedures to remove interfering substances from urine and plasma are reported. Normal levels of cis-UCA in skin, urine and plasma of nonirradiated volunteers were 0.5 nmol/cm2, 0.03 mumol/mmol creatinine (median 0.00) and undetectable and those of trans-UCA were 17.1 nmol/cm2, 1.36 mumol/ mmol creatinine and 0.5 microM, respectively. Upon single total body UVB (290-320 nm) exposures of 250 J/m2, epidermal cis-UCA levels immediately reached a maximum and returned to basic levels 3 weeks later. The cis-UCA levels in urine reached a maximum in 5-12 h postirradiation and reached baseline values in 8-12 days. Additionally, a single total body UVA (320-400 nm) irradiation of 200 kJ/m2 yielded a similar pattern. The kinetics of cis-UCA in plasma could not be followed due to low concentrations; however, that of skin and urine was informative in relation to solar exposures and phototherapy.

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Oxidative breakdown and conversion of urocanic acid isomers by hydroxyl radical generating systems

Kammeyer

Eggelte

Overmars

et al. 2001

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Melanin-Related Metabolites as Markers of the Skin Pigmentary System

Westerhof¹,

Pavel²,

Kammeyer³

et al. 1987

Journal of Investigative Dermatology

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Arthur Kammeyer

Oxidation events and skin aging

Natural moisturizing factor components in the stratum corneum as biomarkers of filaggrin genotype: evaluation of minimally invasive methods

The Relation Between Constitutional Skin Color and Photosensitivity Estimated from UV-Induced Erythema and Pigmentation Dose-Response Curves

Evaluation of an HPLC Method for the Determination of Natural Moisturizing Factors in the Human Stratum Corneum

Increased Sensitivity of Histidinemic Mice to UVB Radiation Suggests a Crucial Role of Endogenous Urocanic Acid in Photoprotection

Prolonged Increase of cis‐Urocanic Acid Levels in Human Skin and Urine after Single Total‐body Ultraviolet Exposures

Oxidative breakdown and conversion of urocanic acid isomers by hydroxyl radical generating systems

Melanin-Related Metabolites as Markers of the Skin Pigmentary System

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