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Micronutrients, Vitamins, and Mineral Homeostasis

Published in January 2024

Introduction to Micronutrition

Micronutrients—vitamins and minerals—differ fundamentally from macronutrients in their quantitative requirements and biochemical roles. Whilst macronutrients provide bulk material and energy, micronutrients serve catalytic and regulatory functions essential for metabolic function, cellular organisation, and physiological homeostasis. Most micronutrients cannot be synthesised by human cells and must be obtained through dietary sources.

Vitamin Categories and Functions

Vitamins are classified into two categories based on solubility: fat-soluble (A, D, E, K) and water-soluble (B complex, C).

Fat-Soluble Vitamins:

  • Vitamin A: Essential for vision, cellular differentiation, immune function, and skin health. Exists in preformed form (retinol) in animal sources and as provitamin carotenoids in plant sources.
  • Vitamin D: Regulates calcium-phosphate homeostasis, bone mineralisation, and immune function. Can be synthesised in skin following ultraviolet B exposure or obtained through diet.
  • Vitamin E: Functions as a lipophilic antioxidant, protecting cell membranes from oxidative damage. Exists in eight chemical forms, with alpha-tocopherol being the most biologically active in humans.
  • Vitamin K: Essential for synthesis of clotting factors (K-dependent carboxylation) and bone mineralisation. Exists in two primary forms: phylloquinone (plant sources) and menaquinone (bacterial synthesis).

Water-Soluble Vitamins:

  • Vitamin B1 (Thiamine): Serves as a coenzyme in carbohydrate metabolism and neural function.
  • Vitamin B2 (Riboflavin): Functions in electron transport and energy metabolism as a component of flavoproteins.
  • Vitamin B3 (Niacin): Essential for energy metabolism, DNA repair, and cellular signalling through NAD+ and NADP+ cofactors.
  • Vitamin B5 (Pantothenic Acid): Components of Coenzyme A, central to acetyl transfer and energy metabolism.
  • Vitamin B6 (Pyridoxine): Serves as cofactor for amino acid metabolism, neurotransmitter synthesis, and haemoglobin synthesis.
  • Vitamin B7 (Biotin): Functions in fatty acid synthesis and carbohydrate metabolism.
  • Vitamin B9 (Folate): Essential for one-carbon transfer reactions, nucleotide synthesis, and cell division.
  • Vitamin B12 (Cobalamin): Necessary for methyl transfer, DNA synthesis, myelin formation, and neurological function. Found exclusively in animal products.
  • Vitamin C (Ascorbic Acid): Functions as a reducing agent and enzyme cofactor, supporting collagen synthesis, immune function, and iron absorption.

Mineral Elements and Homeostasis

Minerals are inorganic elements essential for physiological function. Major minerals required in gram quantities include calcium, phosphorus, magnesium, sodium, potassium, and chloride. Trace elements required in smaller quantities include iron, zinc, copper, selenium, iodine, manganese, chromium, and molybdenum.

Calcium and Phosphorus: These minerals form the mineral matrix of bones and teeth, providing structural rigidity. Additionally, calcium regulates muscle contraction, nerve transmission, hormone secretion, and enzyme function. Phosphorus participates in energy metabolism through phosphate bonds.

Magnesium: Over 300 enzymes require magnesium as a cofactor. Essential for ATP synthesis, protein synthesis, muscle and nerve function, and cardiovascular regulation.

Sodium and Potassium: These electrolytes maintain osmotic balance, regulate fluid distribution, and generate the electrochemical gradients essential for nerve and muscle function.

Iron: Incorporated into haemoglobin and myoglobin, iron enables oxygen transport and utilisation. Additionally serves as prosthetic group for cytochromes and other essential enzymes.

Zinc: Serves as cofactor for over 100 enzymes, participates in protein synthesis, DNA synthesis, immune function, and wound healing.

Copper: Essential for iron oxidation, energy metabolism, collagen synthesis, and immune function.

Selenium: Incorporated into selenoproteins including glutathione peroxidase, providing antioxidant defence.

Iodine: Essential for synthesis of thyroid hormones, which regulate metabolic rate and development.

Micronutrient Status and Individual Needs

Micronutrient requirements vary based on age, sex, physiological state (pregnancy, lactation), activity level, and health status. Some individuals may have increased requirements due to malabsorption, certain medications, or restricted dietary patterns. Assessment of micronutrient status should be conducted by qualified healthcare professionals.

Nutrient Interactions

Micronutrients do not function in isolation. Complex interactions determine bioavailability and utilisation. For example, vitamin C enhances iron absorption, vitamin D enhances calcium absorption, and certain mineral interactions affect bioavailability. Understanding these interactions provides context for comprehending how diverse micronutrients collectively support physiological function.

Conclusion

Vitamins and minerals serve essential catalytic, structural, and regulatory roles in human physiology. Understanding their biochemical functions and dietary sources provides foundation for comprehending micronutrition and its role in supporting physiological health and homeostasis.

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