Vitamins: Vitamin C – Ascorbic Acid

Question 1

Vitamin C – Ascorbic acid

Answer 1

Vitamin C functions as a key antioxidant, and as an enzyme co-factor. In both of these functions vitamin C is a potent reducing agent, meaning that it readily donates electrons to recipient molecules.

• Most animals can synthesise vitamin C: ascorbic acid/ascorbate. Some scientist postulate this has made humans more susceptible to viral illnesses, raised cholesterol, cardiovascular disease and cancer, and less resistant to stress
• Vitamin C does not need to be modified by the body to function
• Until the ‘cure’ for the vitamin C deficiency disease, scurvy, was found, more sailors died of scurvy than of any other cause (estimated 2 million sailors or 50% of any major voyage crew)

Question 2

Food sources

Answer 2

All fresh raw fruits and vegetables, particularly:
* Peppers
* Kiwifruit
* Papaya
* Currents
* Berries
* Citrus
* Crucifers
* Mangoes
* Tomatoes

Question 3

Food prep

Answer 3

• Very significant losses occur as vegetables wilt, or when they are cut as a result of the release of ascorbate oxidase from the plant tissue.
• Ascorbate oxidase is why lemon or lime juice can prevent the Browning (oxidizing) of other foods (e.g. sliced apple) – the vitamins C creates an antioxidant barrier from oxygen until it is all used up

Question 4

Absorption, transportation, storage and factors that increase breakdown

Answer 4

• Absorbed in the mouth and in the small intestine (by active and passive means).
• Up to 100% absorption per 200 mg serving.
• Transported into cells by glucose transporters; so high blood glucose levels can inhibit vitamin C uptake significantly. Think about diabetics and clients with sugar-laden diets. High doses of vitamin C can also skew blood glucose test results
• Vitamins C concentrates in the adrenal glands, white blood cells, thymus and pituitary – although there is no specific storage site
• Factors that increase breakdown or excretion of vitamins C include:
  o Stress – psychological, chemical, emotional or physiological, fever and viral illnesses
  o Alcohol, smoking, heavy metals, aspirin, OCP

Question 5

Antioxidant and immune boosting: functions and therapeutic uses

Answer 5

• Functions:
  o Primary water soluble antioxidant in blood and tissues – Protecting proteins, lipids, carbohydrates, RNA and DNA from damage from free radicals
  o Recycles other antioxidants such as vitamins E and glutathione – making them usable again as antioxidants
  o Up-regulates interferons, natural killer cells and T-cells
• Therapeutic uses:
  o Cancer
  o Cardiovascular disease
  o Alzheimer’s
  o Asthma/COPD
  o Cataracts
  o Immune support e.g. cold sores– 2 g per day can halve healing time

Question 6

Cholesterol-lowering: functions and therapeutic uses

Answer 6

• Functions:
  o Conversion of cholesterol to bile acids (Lowering blood LDL levels)
• Therapeutic uses:
  o Cardiovascular disease

Question 7

Iron absorption: functions and therapeutic uses

Answer 7

• Functions:
  o Enhances iron absorption by protecting iron from oxidation. It keeps it in Fe2+ form, not allowing it to become Fe3+, which is not a bio-available form
  o A dose of 25 mg of vitamin C taken together with a meal increases iron absorption by 65%. Optimal iron absorption may require more than 100 mg/day
• Therapeutic uses:
  o Anaemia

Question 8

Endocrine functions: functions and therapeutic uses

Answer 8

• Functions:
  o Synthesis of thyroxine and adrenal steroid hormones
• Therapeutic uses:
  o Adrenal fatigue
  o Hypothyroidism

Question 9

Collagen synthesis: functions and therapeutic uses

Answer 9

• Functions:
  o Vitamin C is a co-factor required for collagen synthesis
  o Important for forming strong tendons, ligaments and bones, repairing wounds, improving gum health
• Therapeutic uses:
  o Osteoarthritis
  o Cartilage injuries
  o Ligament injuries
  o Gum diseases
  o Bruising
  o Fracture repair
  o Blood vessels

Question 10

Neurotransmitter synthesis: functions and therapeutic uses

Answer 10

• Functions:
  o A co-factor for the production of serotonin
• Therapeutic uses:
  o Weak digestion

Question 11

Energy production: functions and therapeutic uses

Answer 11

• Functions:
  o Transport of long-chain fatty acids into the mitochondria for ATP production (Vitamins C synthesises the amino acid L-carnitine, which gets fatty acids into mitochondria)
• Therapeutic uses:
  o Fatigue
  o Chronic fatigue

Question 12

Deficiency signs and symptoms

Answer 12

• The two most notable signs of vitamin C deficiency reflect its role maintaining blood vessel integrity:
  o The gums bleed easily around the teeth
  o Capillaries under the skin break spontaneously producing pinpoint haemorrhages
• When intake falls to about 1/5 of its optimal store size (approximately 1 month on a vitamin C depleted diet), scurvy symptoms appear:
  o Further haemorrhaging from inadequate collagen synthesis
  o Muscle degeneration and rough, brown scaly skin
  o Wounds do not heal. Bone rebuilding falters; fractious develop

Question 13

Deficiency states

Answer 13

• During stress, the adrenals release vitamin C with other hormones into the blood. The exact role of vitamins C in stress is unknown, but it is known that stress raises vitamin C needs – likely due to additional free radical damage
• Burns, infections, toxic metal intakes, chronic use of medications and cigarette smoking are among the stresses that increase vitamin C demand
• Smokers have lower levels of serum vitamin C – 25 mg of vitamin C is lost with every cigarette smoked
• Subclinical deficiency is common:
  o Susceptibility to infections
  o Poor wind healing
  o Fatigue, skin and gum degeneration
  o Petechiae

Question 14

Dosage and tolerance

Answer 14

• 500 mg/day + vitamin C is a sound general dose
• A high dietary intake of vitamin C is cancer-protective, and can be mega-dosed (e.g. 25 - 75 g intravenously for cancer support)
• 250 mg – 1 g of vitamin C prophylactically can reduce the incidence of colds by 50% in those who undertake strenuous exercise – potential support in sports nutrition
• Unabsorbed ascorbate from very high doses (3 g / day plus) is a substrate for intestinal bacterial metabolism causing gastrointestinal discomfort and diarrhoea (bowel tolerance)
• No high doses in third trimester of pregnancy. The baby becomes accustomed to high doses that are unsustainable when born

Question 15

Toxicity

Answer 15

• Vitamin C is non-toxic, even extremely high doses.
• No reliable scientific evidence of toxicity in adult doses up to 10 g per day.
• No credible scientific evidence that supplemental vitamin C promotes oxidative damage in humans
• People with kidney disease and those with a tendency towards gout are prone to forming kidney stones if they take large doses of ascorbic acid beyond a few months
• Be mindful of high-dose vitamin C with haemochromatosis
  Haemochromatosis = iron overload

Question 16

Drug interactions

Answer 16

• May reduce the effectiveness of warfarin, statins, some cancer drugs.
• Increases oestrogen therapy effects.
• Skews diabetic test results

Question 17

Vitamin c ascorbic acid functions

Answer 17

Antioxidant and immune boosting
Cholesterol lowering
Iron absorption
Endocrine functions
Collagen synthesis
Neurotransmitter synthesis
Energy production