Chapter 9: The Integumentary System

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9.15:

Role of Skin in Vitamin D Synthesis

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Anatomy and Physiology
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Role of Skin in Vitamin D Synthesis
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9.5: Reticular Dermis

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Dietary intake and sunlight-driven synthesis are the two main sources of vitamin D for the human body. Under optimal sunlight exposure skin cells can synthesize vitamin D3, a vitamin D precursor. Briefly, the UVB component of the sunlight reacts with provitamin D3, a cholesterol-based steroid in the cells of the stratum basale and stratum spinosum converting it to previtamin D3, which later transforms into cholecalciferol or vitamin D3. It then enters the circulation, attaches to vitamin D-binding protein in the serum, and reaches the liver, where it is converted into calcidiol. It is a biologically inactive primary circulating form of the vitamin, which ultimately reaches the kidneys and undergoes conversion to calcitriol, the active form of vitamin D. Calcitriol stimulates calcium and phosphorus absorption from the gastrointestinal tract to raise their serum levels aiding skeletal health. Severe vitamin D deficiency can cause rickets in children, osteomalacia, and osteoporosis in adults. Seasons, location, and sunscreen use can also influence sun-induced vitamin D3 production.
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9.15:

Role of Skin in Vitamin D Synthesis

The skin plays a crucial role in the synthesis of vitamin D, a vital nutrient for various physiological processes in the body. Vitamin D is unique because it can be synthesized in the skin through a series of chemical reactions triggered by exposure to ultraviolet B (UVB) radiation from sunlight.

The solar UV B rays (290-315 nm) are absorbed by the skin, and 7-dehydrocholesterol (provitamin D3) photolyzes it to previtamin D3, which undergoes a rapid transformation to vitamin D3(cholecalciferol). Once vitamin D3 is formed in the skin, it diffuses into the blood vessels of the dermis, the layer of skin beneath the epidermis. From there, it enters the bloodstream and is transported to various tissues and organs in the body.

Vitamin D3 is lipid soluble, so adipocytes can store it during excessive production. The vitamin has both inhibitory and stimulatory effects on the differentiation of adipocytes. The result depends on the differentiation stage of the cell and cell type.

It is important to note that while sunlight is a significant source of vitamin D, other factors can influence the skin's ability to produce it. These factors include the latitude, the season, the time of day, skin pigmentation, clothing, sunscreen use, and age. For example, people with darker skin have higher levels of melanin, which can reduce the skin's ability to synthesize vitamin D compared to individuals with lighter skin.

Vitamin D is vital in energy metabolism modulating fatty acid oxidation, insulin resistance, and even adipokine production. It aids absorption of calcium and phosphates in the intestine to improve bone health.

This text is adapted from https://openstax.org/books/anatomy-and-physiology-2e/pages/17-10-organs-with-secondary-endocrine-functions

Tags

SkinVitamin D SynthesisUVB RadiationSunlight7-dehydrocholesterolPrevitamin D3CholecalciferolBloodstreamAdipocytesDifferentiationFactors Influencing Vitamin D ProductionLatitudeSeasonTime Of DaySkin PigmentationClothingSunscreen UseAgeEnergy Metabolism