Vitamins

Question 1

What are vitamins?

Answer 1

organic compounds required in small amounts for normal functioning of the body

• cannot be synthesised in the body
• must be provided by diet

Question 2

What are the general outcomes of vitamin toxicity?

Answer 2

• abnormal accumulation in tissues
• overloading of normal metabolic pathways
• possibly irreversible lesions

Question 3

What are some vitamins that are toxic in access?

Answer 3

• vitamin A, D, B6
• niacin

(possibly Vitamin C, beta-carotene, vitamin E)

Question 4

What is produced from the reduction of oxygen to water in mitochondria?

Answer 4

• produces ATP

- produces free radicals

Question 5

What happens to 1-2% of the O2 used by respiratory chain?

Answer 5

ends up as superoxide

Question 6

What are free radicals?

Answer 6

• unstable oxygen species
• capable of oxidising PUFA/damaging organs/tissues and DNA (@ cell mem = lipid peroxidation)
• contains one or more unpaired electrons
• capable of independent existence

Question 7

What damage do free radicals do?

Answer 7

• nucleic acids
• nucleotides
• thiols
• covalent bonding
• lipids
• membrane structure

Question 8

What diseases can develop from free radicals?

Answer 8

• heart disease
• cancers
• parkinsons
• arthritis
• cataracts
• muscular dystrophy

Question 9

Where can we get some nutrients that act as protective antioxidants in conjunction with body enzymes?

Answer 9

• fruits, nuts
• leafy greens
• juices

Question 10

What are some metal cofactors that contribute to the integrated antioxidant defence system?

Answer 10

• Selenium (GSHPx, X 4)
• Iron (catalase)
• Copper (SOD, ceruloplasmin)
• Zinc (SOD)
• Manganese (SOD)

Question 11

What are some antioxidant compounds integrated into antioxidant defence system?

Answer 11

• vitamin E (carotenoids)

- vitamin C (polyphenols)

Question 12

What are fat soluble vitamins?

Answer 12

• found in fats and oils of food
• absorbed into lymph and carried in blood with protein transporters (chylomicrons)
• require bile and fats for absorption
• stored in liver/body fat
• can be toxic if large amounts consumed
• normally not excreted in urine
• don’t act as coenzymes

Question 13

What are soluble vitamins?

Answer 13

• found in vegetables, fruits, grains, meat
• absorbed into bloodstream
• not stored in body (except B12)
• toxicity is rare, when large amounts consumed
• have threshold for urinary excretion
• act as co-enzymes

Question 14

Name 4 lipid (fat) soluble vitamins:

Answer 14

• vitamin A
• vitamin D2
• vitamin E
• vitamin K1

Question 15

What is vitamin A also known as?

Answer 15

retinol

Question 16

What are the requirements, biological activity, and sources of vitamin A?

Answer 16

• 0.8mg
• eyesight, immune system
• liver, cheese, eggs and oily fish

Question 17

What are the requirements, biological activity, and sources of vitamin D?

Answer 17

• 0.01mg
• bones and teeth
• oily fish and eggs

Question 18

What are the requirements, biological activity, and sources of vitamin E?

Answer 18

• 10mg
• antioxidant activity
• cereals, vegetable oils, leafy vegetables

Question 19

What are the requirements, biological activity, and sources of vitamin K?

Answer 19

• (not stated requirement)
• blood clotting
• leafy vegetables, dairy products, grains

Question 20

what is ß-carotene?

Answer 20

• human body converts beta carotene into vitamin A (retinol)

- beta carotene is a precursor of vitamin A.

Question 21

How much retinol is absorbed by the body (%)?

Answer 21

70-90%

Question 22

How much ß-carotene is absorbed by the body (%)?

Answer 22

20-50%

Question 23

How much ß-carotene is needed for the formation of 1 µg of retinol?

Answer 23

6µg

Question 24

Where is ß-carotene stored?

Answer 24

liver

Question 25

What can retinyl esters form and what is the use of its product?

Answer 25

• 11-cis-retinal

- chromophore for rhodopsin

Question 26

What can retinoic acid form and what is the use of its product?

Answer 26

• all-trans and 9-cis-retinoic acid

- transcriptionally active vit. A species

Question 27

How is free retinol esterified to form retinyl esters?

Answer 27

• via ARAT
  or
• bind to CRBP and esterified by LRAT

Question 28

Where are retinyl esters stored until needed?

Answer 28

in liver stellate cells

Question 29

Roughly explain the Hepatic vitamin A metabolism:

Answer 29

1. Retinyl esters taken up into liver cells
2. Free retinol is esterified to retinyl esters
3. CRBP-retinol has a few pathways
   - converted to retinoic acid
   - released into blood
   - form retinyl ß-glucoronide for excretion in bile
4. Retinoic acid has few pathways
   - gene expression
   - conjugated to glucaronic acid and excreted in bile
   - 4-oxoretinoic acid
5. 4-oxoretinoic acid either function like retinoic acid or excretion in bile as glucaronic acid
6. holo-RBP from retinol, released to blood to form trimolecular complex

Question 30

Main functions of vitamin A:

Answer 30

1. Vision
   - night vision
   - forms visual molecule rhodopsin
2. Antioxidant
   - ß-carotene/other carotenoids, reacting with singlet oxygen species
3. Gene expression (differentiation + growth)
4. Immune system function
5. Reproductive process
6. Bone metabolism

Question 31

What are two specific vitamin roles in the eye?

Answer 31

1. Process of light perception at retina

2. Maintenance of healthy cornea

Question 32

What enables the signal that light hits the eyes, to be received by the brain?

Answer 32

rhodopsin in rod cells that are transformed and sends signals

Question 33

How does vitamin A help the immune systems’ function?

Answer 33

• synthesis of glycoproteins

- promotes development of immune cells (NK cells)

Question 34

How does vitamin A help the reproductive process?

Answer 34

• gene transcription in testis
• placental development
• testosterone/oestrogen production

Question 35

What % of vit. A is egested in faeces?

Answer 35

70%

Question 36

What % of vit. A is excreted in urine?

Answer 36

30%

Question 37

Where else apart from faeces and urine, is vit. A excreted?

Answer 37

• CO2 from lungs and - caretenoid metabolites in bile

Question 38

What is the require amounts of vitamin A for men and women?

Answer 38

men = 1000 µg/day women = 800 µg/day

Question 39

What is the minimum vitamin A intake per day?

Answer 39

600µg

Question 40

What are the results of high intake/chronic intake of vitamin A?

Answer 40

• in early pregnancy = birth defects
• anorexia, skin/hair abnormalities, bone/muscle pain
• ß-carotene cause yellow discolouration of skin (fat pads)

Question 41

What are the results of vitamin deficiency?

Answer 41

• skin/mucous membrane dryness + infection + keratin deposits
• anaemia
• impaired immune response
• developmental defects (bones, teeth, immune system, vision)
• eye problems

Question 42

Name 4 specific ways vitamin A deficiency causes eye problems:

Answer 42

1. Squamous metaplasia + keratinisation of conjunctiva
2. Dryness wrinkling + thickening of cornea (xerophthalmia)
3. Ulceration of cornea (blindness)
4. Impaired colour vision

Question 43

What are the toxic effects of vit. C?

Answer 43

• fragile RBC, haemmorage
• bone pain, fractures
• abdominal pain, diarrhea
• blurred vision
• dry skin, hair loss
• liver englargement
• death

Question 44

What are the (animal) sources of retinol?

Answer 44

• egg yolk
• butter
• whole milk
• liver/fish liver oils

Question 45

What are the (plant) sources of ß-carotene?

Answer 45

• dark green leafy vegetables

- yellow/orange vegetables = carrots

Question 46

What is vitamin D?

Answer 46

• steroid pro hormone

- made under the skin in UV light presence

Question 47

What is the mean vitamin D intake required?

Answer 47

serum 25(OH)D concentration ≥ 25 nmol/L

Question 48

General outcome of vit. D deficiency?

Answer 48

• rickets (children)

- osteomalacia (adults)

Question 49

Which vitamin is the most potentially toxic?

Answer 49

vitamin D

Question 50

Explain how we synthesise vitamin D:

Answer 50

1. UV light shines on cholesterol compound in human skin
2. Transformed into vit. D precursor + absorbed to blood
3. Next day, liver and kidneys finish converting precursor to vit. D

Question 51

25(OH)D (vitamin D) compound is needed in 4 areas, what are they?

Answer 51

1. Intestine - increase absorption of Ca2+ and P
2. Bone - increase boe mineralisation
3. Immune cells - induces differentiation
4. Tumour microenvironment
   - inhibits proliferation
   - induces differentiation
   - inhibits angiogenesis

Question 52

What is the final form of vitamin D when synthesised?

Answer 52

calcitroic acid

Question 53

Which form of vit. D doesn’t require digestion?

Answer 53

D2 and D3

Question 54

Vit. D is absorbed via a _____ with the aid of ____ by _____ into the intestinal cell.

Answer 54

• micelle
• bile salts
• passive diffusion

Question 55

What is vit. D incorporated into for transport into lymphatic system and blood?

Answer 55

chylomicrons

Question 56

What is the % of dietary vit. D absorbed?

Answer 56

50%

Question 57

How is excessive production of vit. D in skin prevented?

Answer 57

through inactive metabolite generation (lumisterol)

Question 58

In liver, what hydroxylates vitamin D to active form?

Answer 58

cytochrome p450 hydroxylases

Question 59

What is the half life of active vitamin D?

Answer 59

15 days to 3 weeks

Question 60

What are the genomic and non-genomic functions of vitamin D?

Answer 60

1. Serum calcium homeostasis (kidney, bone)
2. Phosphorus homeostasis
3. Cell differentiation, proliferation, growth
4. Calcitriol and muscle
5. Blood pressure regulation
6. Immune function
7. Pancreatic beta-cell production, insulin secretion

Question 61

What does vitamin E refer to?

Answer 61

group of 8 tocopherols

Question 62

Which tocopherol is the biologically active form?

Answer 62

A-tocopherol

Question 63

What are the functions of Vit. E?

Answer 63

1. Antioxidant
2. Prevent damage to lungs, RBCs, WBCs (immunity), heart
3. Necessary for normal nerve development

Question 64

What is the result of vitamin E deficiency?

Answer 64

• Decreased absorption of fats
• liver disease
• low fat diets
• premature babies - fragile RBCs (haemolysis)
• Loss muscle coordination, vision, immune function

Question 65

What is the exceeding upper intake of vit. E?

Answer 65

1000 mg/day

Question 66

Which vitamin is the least toxic from the fat-soluble vitamin list?

Answer 66

Vitamin E

Question 67

What might extreme doses of vitamin E cause?

Answer 67

• affect blood clotting effects of vit K
• increased haemmorage
• increase effects of anticoagulants (coumadin, warfarin)

Question 68

What can destroy vit. E?

Answer 68

high temperatures

Question 69

What is the daily recommended intake for Vit. E?

Answer 69

15mg

Question 70

What are some sources of vit. E?

Answer 70

• safflower oil
• mayonnaise
• canola oil
• wheat germ
• sunflower seeds

Question 71

What and which part produces vitamin K?

Answer 71

produced by bacteria, in the large intestines

Question 72

What are the functions of vitamin K?

Answer 72

1. Coagulation
2. Promotes synthesis of blood clotting proteins (interfere with anti-coagulants
3. Bone formation

Question 73

What was vitamin K named after?

Answer 73

Danish word, “koagulation”

Question 74

What are the recommended daily intakes of vit. K for men and women?

Answer 74

men = 120µg
women = 90µg

Question 75

What are good sources of vit. K?

Answer 75

• cauliflower
• cabbage
• canola oil
• spinach (steamed)
• salad greens
• soybeans (dry roasted)

Question 76

Are there any vitamin K deficiencies?

Answer 76

rare, unlikely in healthy adult

Question 77

Which populations are at risk of vitamin K deficiency?

Answer 77

• infants (after prolonged antibiotic therapy)
• patients with decreased bile production
• patients with chronic malabsorptive disorders

Question 78

Why are infants given vit. K injection?

Answer 78

• milk is low in vit K
• low vit K stores at blood
• GI not populated with vit K producing bacteria

Question 79

What is the result of vit. K toxicity?

Answer 79

• ingestion of large amounts doesn’t cause toxicity but maybe above >1000mg/d
• haemolytic anaemia (rupture of RBCs)
• liver damage (jaundice)

Question 80

What are the water-soluble vitamins?

Answer 80

non-B complex (vit. C) and B-complex

Question 81

Who cannot synthesise vit. C?

Answer 81

• humans

- guinea pigs, primates, birds

Question 82

Why can’t humans synthesise vit. C?

Answer 82

have congenital absense of gulonolactone oxidase

Question 83

What was used in the experiment to cure scurvy, 250 years ago?

Answer 83

lemons

Question 84

Vitamin C is also known as?

Answer 84

ascorbic acid

Question 85

What are the main food sources of vitamin C?

Answer 85

fruits and vegetables

Question 86

What are the main deficiency symptoms of vit. C?

Answer 86

• scurvy

- capillary fragility

Question 87

Does vitamin require digestion prior to absorption?

Answer 87

No

Question 88

What assists absorption of ascorbic acid?

Answer 88

• sodium dependent vit. C transporters (SVCT 1 and 2)

Question 89

What is SVCT1?

Answer 89

• main carrier responsible for vit C absorption
• enables intestinal absorption of vitamin in excess of cell needs
• downregulated by ascorbic acid

Question 90

What is SVCT2?

Answer 90

present in most metabolically active tissues except muscle/lungs

Question 91

What is involved in transport of dehydroascorbic uptake into cells?

Answer 91

GLUT transporters

Question 92

What generally happens in interconversion of ascorbic acid and dehydroascorbic acid?

Answer 92

1. Ascorbyl radical formed but has short half-life - doesn’t form ROS
2. Oxidation of this radical forms vit. C
3. Dehydroascorbic acid reduced to ascorbin acid with H provided from reduced glutathione (GSH)

Question 93

What is the range of recommended vit. C intake per day?

Answer 93

30-180mg

Question 94

What is the % of absorption?

Answer 94

70-90%

Question 95

What is the relationship of absorption and intake?

Answer 95

Absorption decreases with increased intake

Question 96

At what levels of vit. C is is there 98% absorption?

Answer 96

> 20mg

Question 97

What is the normal plasma ascorbic acid concentration range?

Answer 97

0.4-1.7mg/dL

Question 98

Where in the body are is the highest level of vit C plasma concentration and how much?

Answer 98

adrenal and pituitary glands

30-50mg/100g

Question 99

But where in the body contains the most vitamin C?

Answer 99

liver

Question 100

What is the maximum vitamin C pool taken per day?

Answer 100

2g

Question 101

What can result from taking more than 2g vit. C a day?

Answer 101

• alteration of insulin response to carbohydrate
• interference with blood clotting medications
• kidney stones
• gout
• digestive upsets

Question 102

How is vit C excreted?

Answer 102

in urine after chemical reactions as various metabolites, 25% in form of oxalic acid

Question 103

What can high doses of vit. C result in?

Answer 103

• formation of kidney stones, from overproduction of oxalate

- DNA damage (500mg/d)

Question 104

In terms of its function as antioxidant, what roles do vit. C play?

Answer 104

1. React with many reactive free radicals
2. Powerful, non-specific reducing agent, H donator
3. Protects water soluble compartments
4. Neutralises free radicals
5. Regenerates Vit. E (H donor)

Question 105

How can the vit E radical be converted back to vit E?

Answer 105

reaction with vit C

Question 106

Explain the amidation of peptides with c-terminal glycine (involves vit. C):

Answer 106

1. Vit. C = reducing agent, converts copper to reduced form
2. enzyme cleaves carboxyl-terminal residue, residue released as glyoxylate
3. Amidated peptides are active hormones/hormone-releasing factors/neurotransmitters

Question 107

What are other functions of vit. C?

Answer 107

1. Collagen/carnitine synthesis
2. Facilitates Fe (non haem) absorption
3. Co-factor in mono-oxidase reactions - neurotransmitter synthesis
4. Activation of peptide hormones
5. Tyrosine synthesis (liver and kidney - from phenylalanine)
6. Cholesterol catabolism
7. Bile acid formation

Question 108

What is the function of ascorbate?

Answer 108

hydroxylation of peptide-bound proline and lysine in the synthesis of collagen

Question 109

What are the 3 interwoven chains of collagen?

Answer 109

glycine, proline and hydroxyproline

Question 110

What is the use of carnitine?

Answer 110

transfer long chain FAs to inner mitochondria mem. for energy production

Question 111

Tyrosine is synthesised from?

Answer 111

amino acid phenylalanine

Question 112

What are the symptoms of vit. C deficiency?

Answer 112

• bleeding gums
• small skin discolouration (ruptured blood vessels)
• sub-lingual haemmorages
• easy bruising
• impaired wound and fracture healing
• joint pain
• loose/decaying teeth

Question 113

How many b-complex vitamins do we know of?

Answer 113

8

Question 114

What are the b-complex vitamins?

Answer 114

water-soluble, chemically distinct vitamins that coexist in same foods

Question 115

What is the function of the b-vitamins?

Answer 115

• coenzymes

- important for cells to generate energy, make protein/new cells, metabolise carbs/fats/proteins

Question 116

What is a coenzyme?

Answer 116

molecule that combines with enzyme to make it active

Question 117

What is vitamin B1 known as?

Answer 117

Thiamine

Question 118

What does the deficiency of thiamine cause?

Answer 118

• beri-beri
• possible edema
• muscle wasting, weakness
• pain, apathy
  etc (so much)

Question 119

What is beri-beri?

Answer 119

disease that was widespread in Asia, leg paralysis (polyneuritis)

• primary symptom = anorexia
• progresses to cardiovascular/neurological problems

Question 120

What is the recommended intake for vit. B1 (thiamine)?

Answer 120

0.5mg/1000kcal

Question 121

What is the dose at which vit. B1 is toxic?

Answer 121

300mg

Question 122

What are the sources of vit. B1?

Answer 122

• meats (pork, beef)
• salmon
• legumes, grain products
• cereals, breads
• yeast, wheat germ, soy milk

Question 123

What are the 3 functions of thiamine (vit. B1)?

Answer 123

1. Energy transformation
2. Synthesis of pentoses and NADPH
3. Membrane/nerve conduction

Question 124

How many metabolites does degradation break thiamine to?

Answer 124

20 or more

Question 125

What does wet beri-beri cause (reversible)?

Answer 125

• cardiomegaly
• edema
• waxy skin

Question 126

What does dry beri-beri cause (reversible)?

Answer 126

• peripheral neuropathy

- weakness

Question 127

What is the results of irreversible beri-beri?

Answer 127

• cerebral beri-beri like:
• Wernicke-Kosakoff syndrome
• brain tissue damage

Question 128

How does alcoholism affect thiamine?

Answer 128

• thiamine deficiency related to alcohol consumption
• alcohol inhibits absorption of thiamine in mucosal cells + conversion to TPP
• symptoms: mental confusion, loss recent memory, ataxia

Question 129

What is vitamin B2 known as?

Answer 129

Riboflavin

Question 130

Explain vit. B2 absorption:

Answer 130

• digested from protein prior to absorp.
• via saturable, energy-dependent Na+-independent carrier (9RTF2)
• in large amounts, absorbed via diffusion
• bile facilitates absorp.
• alcohol impairs digestion + absorp.
• 95% absorp.

Question 131

What is the maximum in g of vit. B2 absorbed per day?

Answer 131

25g

Question 132

What are the functions of vit. B2?

Answer 132

• energy metabolism

- flavoproteins (fatty acid beta-oxidation)

Question 133

Is B2 affected by B1?

Answer 133

Yes, it is low when B1 is low.

Question 134

What are the daily recommendations of vit. B2 for men and women?

Answer 134

men = 1.2mg/d
women = 1.1mg.d

Question 135

What are the results of vit. B2 deficiency?

Answer 135

• cracks/redness at mouth corners
• sore throat
• inflamed eyes/eyelids
• sensitivity to light/skin rashes

Question 136

What is Vitamin B3 known as?

Answer 136

Niacin

Question 137

How was niacin discovered?

Answer 137

through its deficiency - pellagra

Question 138

Niacin is a generic term for?

Answer 138

nicotinin acid and nicotinamide

Question 139

Niacin absorption is dependent on…?

Answer 139

Na+-dependent, carrier mediated diffusion

Question 140

At what g is there complete absorption of B3 (niacin)?

Answer 140

3-4g

Question 141

What are the functions of niacin?

Answer 141

1. Coenzyme
   - b-oxidation of fatty acids
   - fatty acid/cholesterol/hormone synthesis
2. Non-redox roles (donor of ADP)
3. Energy metabolism
4. Cell respiration
5. DNA repair/synthesis
6. Act as secondary messenger
7. Stimulate increased Ca2+

Question 142

What are the symptoms of pellagra (hint: 4Ds)?

Answer 142

• Dermatitis (sunburn-like skin)
• Dementia (neurological, headache, memory loss)
• Diarrhoea (+ vomiting)
• Death

Question 143

What re the recommended daily intakes of vit. B3 (niacin) for men and women?

Answer 143

men = 16mg
women = 14mg

Question 144

What is the tolerable upper intake level of B3?

Answer 144

35mg/day

Question 145

What is pantothenic acid bound as?

Answer 145

coenzyme A (CoA)

Question 146

What reactions do CoA participate in?

Answer 146

• nutrient metabolism
• energy production (TCA cycle)
• Acyl-carrier protein (ACP)

Question 147

What results from pantothenic acid deficiency?

Answer 147

Burning feet syndrome

Question 148

What was biotin usually called?

Answer 148

Vitamin H or B7

Question 149

Although rare, when the biotin deficiency occur?

Answer 149

in patients treated with anticonvulsnts/antibiotics

Question 150

What synthesises significant quantities of biotin?

Answer 150

• intestinal flora

Question 151

What does avidin do?

Answer 151

• irreversibly binds to biotin

- prevents biotin absorption (not heat resistant)

Question 152

What is the tightest non-covalent bond found in nature?

Answer 152

avidin binding with biotin

Question 153

What are the coenzyme forms of folate?

Answer 153

DHF and THF

Question 154

What is folate known as?

Answer 154

Vitamin B9

Question 155

What are the functions of folate?

Answer 155

1. Amino acid metabolism

2. Purine and pyrimidine synthesis/nucleotide metabolism

Question 156

What is the recommended daily intake of folate (vit. B9) for adults?

Answer 156

400μg/d

Question 157

When would there be requirement of additional dietary intakes of folate?

Answer 157

during pregnancy and lactation

Question 158

What are the sources of folate?

Answer 158

• leafy green vegetables
• liver, kidney beans, lima beans
• leaf beef, potatoes, whole grain bread
• excludes oranges and root vegetables

Question 159

What destroys half of folate in foods?

Answer 159

heat and oxidation during cooking/storage

Question 160

What is the % of dietary folate that is nutritionally available?

Answer 160

25-50%

Question 161

What are the results of folate (B9) deficiency?

Answer 161

• anaemia, mental confusion
• increase of neural tube defects, anencephaly, absence of cerebral hemisphere
• alterations in DNA metabolism
• changes in cellular nuclear morphology
• poor growth, GI tract disturbances

Question 162

How does a women achieve maximum benefit from folate supplementation?

Answer 162

enhance her folic acid intake before she becomes pregnant

Question 163

Why is vitamin B12 unique?

Answer 163

contains metal ion, cobalt

Question 164

What is required for B12 absorption?

Answer 164

intrinsic factor

Question 165

What are the functions of B12?

Answer 165

1. Methyl transfer reactions (with folate)
2. Homocysteine to methionine
3. DNA/RNA
4. L-methylmalonyl-coA to succinyl-coA
5. Fat and protein metabolism
6. Haemoglobin metabolism

Question 166

What are sources of B12?

Answer 166

• food from animals
• liver and kidney
• milk, egg, fish, cheese, meat

Question 167

When how much B12 is lost % when milk is pasteurised or evaporated?

Answer 167

40-90%

Question 168

What is the recommended intake of B12 in adults?

Answer 168

2.4μg/d

Question 169

What are the results of vitamin B12 deficiency?

Answer 169

• reflects inadequate absorption and not poor intake
• lack of HCL (development of atrophic gastritis esp. in elderly)
• Lack intrinsic factor (defective gene of IF)
• impaired DNA synthesis
• defective proliferation of rapidly dividing cells (megalobasltic anaemia, glossitis, hypospermia.. etc)