K Regina Lemke scite author profile

The participation of (6R) 5,6,7,8-tetrahydrobiopterin (6-BH4) in regulating the tyrosine supply for melanin biosynthesis was investigated by the examination of human keratinocytes, melanocytes, and epidermal suction blisters from normal human skin and from patients with the depigmentation disorder vitiligo. Cells, as well as total epidermis, contained high phenylalanine hydroxylase activities and also displayed the capacity to synthesize and recycle 6-BH4, the essential cofactor for this enzyme. In vitiligo, 4a-hydroxy-BH4 dehydratase activity was extremely low or absent, yielding an accumulation of the nonenzymatic by-product 7-tetrahydrobiopterin (7-BH4) at concentrations up to 8 x 10(-6) M in the epidermis. This by-product is a potent competitive inhibitor in the phenylalanine hydroxylase reaction with an inhibition constant of 10(-6) M. Thus, 6-BH4 seems to control melanin biosynthesis in the human epidermis, whereas 7-BH4 may initiate depigmentation in patients with vitiligo.

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Defective tetrahydrobiopterin and catecholamine biosynthesis in the depigmentation disorder vitiligo

Schallereuter

Wood

Ziegler³

et al. 1994

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

153

118

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Treatment of Vitiligo with a Topical Application of Pseudocatalase and Calcium in Combination with Short-Term UVB Exposure: A Case Study on 33 Patients

Schallreuter

Wood²,

Lemke³

et al. 1995

Dermatology

141

105

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Thirty-three patients with the depigmentation disorder vitiligo were successfully treated with a new topical application of pseudocatalase, calcium and short-term UVB light exposure. First repigmentation occurred in the majority of cases after 2–4 months. Complete repigmentation on the face and dorsum of the hands appeared in 90% of the group. In all patients, active depigmentation was arrested. None of them developed new lesions during treatment. No recurrence of the disease was observed during a 2-year follow-up. The rationale for this pilot study originated from a recent understanding of vitiligo at the molecular level. The involved epidermis produces hydrogen peroxide due to defective tetrahydrobiopterin recycling and increased monoamine oxidase A activity, whereupon catalase is inactivated. In addition, calcium homeostasis is perturbed in the affected skin. The substitution for insufficient catalase by a pseudocatalase together with calcium and UVB exposure lead to effective repigmentation.

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Catecholamines in Human Keratinocyte Differentiation

Schallreuter

Lemke

Pittelkow

et al. 1995

Journal of Investigative Dermatology

121

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Human keratinocytes have the capacity to synthesize catecholamines from L-tyrosine, which in turn is produced from L-phenylalanine via phenylalanine hydroxylase. This enzyme activity is controlled by the supply of the essential cofactor/electron donor (6R)5,6,7,8 tetrahydrobiopterin (6-BH4). Undifferentiated keratinocytes express high levels of the rate-limiting enzymes for the de novo synthesis of 6-BH4, i.e., GTP-cyclohydrolase-1, and for its recycling, i.e., 4a-hydroxytetrahydrobiopterin dehydratase. As a consequence of 6-BH4 synthesis, phenylalanine hydroxylase is activated, yielding L-tyrosine, which in the presence of excess 6-BH4 turns on the biosynthesis of catecholamines via the rate-limiting enzyme tyrosine hydroxylase. Therefore, undifferentiated keratinocytes contain high levels of the catecholamine system yielding sufficient levels of norepinephrine and epinephrine, required for the induction of beta-2-adrenoceptors. Stimulation of beta-2-adrenoceptors by epinephrine causes a rise in intracellular calcium via extracellular influx. This event corresponds with keratinocyte differentiation. In differentiated keratinocytes, all enzyme activities involved in 6-BH4, L-tyrosine, and epinephrine biosynthesis are decreased, resulting in significantly lower levels of epinephrine and a concomitant decrease in the expression of beta-2-adrenoceptors. These data strongly suggest a connection between catecholamine biosynthesis, beta-2-adrenoceptor expression, calcium flux, and the differentiation of keratinocytes in human epidermis.

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Bacterial lipopolysaccharide induces tyrosine phosphorylation and activation of mitogen-activated protein kinases in macrophages.

Weinstein

Sanghera

Lemke

et al. 1992

Journal of Biological Chemistry

364

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K Regina Lemke

Regulation of Melanin Biosynthesis in the Human Epidermis by Tetrahydrobiopterin

Defective tetrahydrobiopterin and catecholamine biosynthesis in the depigmentation disorder vitiligo

Treatment of Vitiligo with a Topical Application of Pseudocatalase and Calcium in Combination with Short-Term UVB Exposure: A Case Study on 33 Patients

Catecholamines in Human Keratinocyte Differentiation

Bacterial lipopolysaccharide induces tyrosine phosphorylation and activation of mitogen-activated protein kinases in macrophages.

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