Water-Soluble Vitamins

Question 1

What are vitamins?

Answer 1

Organic, essential molecules that are required in tiny amounts to maintain normal growth, development, and metabolism

Question 2

Can we synthesize vitamins?

Answer 2

We cannot synthesize them or cannot synthesize them in adequate mounts

Question 3

Which vitamins are synthesized by our gut bacteria?

Answer 3

Vitamin K and biotin

Question 4

Which vitamins are synthesized by our body from precursors?

Answer 4

Vitamin D (from cholesterol) and niacin (from tryptophan)

Question 5

What are the water-soluble vitamins?

Answer 5

B-complex and vitamin C

Question 6

How are vitamins different from carbohydrates, fats, and proteins?

Answer 6

Organic, no calories, micronutrients

Question 7

Factors influencing bioavailability?

Answer 7

efficiency of digestion and time of transit in the GI-tract, method of food preparation, previous nurtrient intake and nutrition status, source of nutrient (synthetic, fortified, or naturally occurring), other foods consumed at same time

Question 8

In food, what are most water-soluble vitamins bound to?

Answer 8

protein

Question 9

Where is the unbound vitamin absorbed (excluding vitamin B12)?

Answer 9

Unbound free vitamins are absorbed in the upper portion of the small intestine

Question 10

Where is unbound vitamin B12 absorbed?

Answer 10

Vitamin B12 is absorbed in the ileum

Question 11

Once absorbed into intestinal cells, where do vitamins go (excluding vitamin B12)?

Answer 11

Once absorbed, they are delivered directly into the portal vein and transported to the liver and sent out into circulation

Question 12

Once absorbed, what happens to vitamin B12?

Answer 12

Vitamin B12 is stored in the liver

Question 13

Which two vitamins are not excreted from the body quite rapidly through the kidneys?

Answer 13

Vitamin B12 and vitamin B6 (pyridoxine) - takes longer to develop a deficiency

Question 14

How are water-soluble vitamins packaged?

Answer 14

Water soluble vitamins travel freely in the blood stream and they are absorbed into the blood directly. (remember, fat soluble vitamins require chylomicrons)

Question 15

Are most water soluble vitamins stored?

Answer 15

No. We do not store most of the water-soluble vitamines, but we store the fat-soluble itamins in the liver and adipose tissue.

Question 16

Is encountering toxicity with water soluble vitamins likely?

Answer 16

No. Since we do not store water soluble vitains, we do not encounter toxicities unless they are consumed as mega dose supplement.

Question 17

What are cofactors?

Answer 17

accessory molecules that are important for protein or enzyme function; can be inorganic molecules such as minerals or organic molecules which are called coenzymes

Question 18

What are coenzymes?

Answer 18

organic cofactors

Question 19

Mnemonic for B-vitamins?

Answer 19

The rhythm nearly proved fully contagious

Question 20

Name for vitamin B1

Answer 20

Thiamin

Question 21

Sources of thiamin?

Answer 21

Meat, sunflower seeds, grains, cereal (result of fortification)

Question 22

Active form of thiamin?

Answer 22

Thiamin pyrophosphate

Question 23

What reduces the absorption of thiamine?

Answer 23

Alcohol consumption and in individuals with folate deficiency

Question 24

Where is thiamine found in the body?

Answer 24

skeletal muscles, liver, heart, kidneys, and brain

Question 25

Functions of thiamine?

Answer 25

(1) helps the body’s cells convert carbohydrates into energy
(2) non-enzyme roles of thiamine and its phosphorylated derivatives
(3) 4 enzymes that use thiaine as coenzymes

Question 26

What are the 4 enzymes that use thiamine as coenzymes?

Answer 26

Three are dehydrogenases: pyruvate dehydrogenase, alpha-ketoglutarate dehydrogenase, branched-chain alpha-ketoglutarate dehydrogenase. The last enzyme is transketolase which is an enzyme involved in the hexose monophosphate pathway or pentose phosphate pathway

Question 27

Who usually has a thiamin deficiency?

Answer 27

malnourished, homeless patients, in alcoholics and also in patients on weight-loss diets such as Atkins, Ornish and LEArN plans

Question 28

Early symptoms of thiamin deficiency?

Answer 28

poor appetite, irritability, apathy, confusion and weight loss

Question 29

Prolonged symptoms of thiamin deficiency

Answer 29

Beriberi

Question 30

What are the advanced stages of beriberi?

Answer 30

Wet beriberi and dry beriberi

Question 31

Discuss wet beriberi

Answer 31

Wet beriberi affects the cardiovascular system and there are abnormalities with heart leading to edema

Question 32

Discuss dry beriberi

Answer 32

in dry beriberi, there is muscle wasting, and pain, numbness and tingling of the lower extremities making walking difficult

Question 33

What is the disease associated with alcoholism and thiamin deficiency?

Answer 33

In alcoholics, the symptoms can progress to give rise to Wernicke-Korsakoff syndrome with encephalopathy and psychosis (Psychosis is a serious mental disorder characterized by thinking and emotions that are so impaired, that they indicate that the person experiencing them has lost contact with reality.)

Question 34

The other name of vitamin B2?

Answer 34

Riboflavin

Question 35

Sources of vitamin B2?

Answer 35

beef liver, mushrooms, spinach

Question 36

What destroys riboflavin?

Answer 36

UV light and irradiation

Question 37

What doesn’t destroy riboflavin?

Answer 37

heat

Question 38

How does riboflavin circulate in the body?

Answer 38

Bound to albumin or other serum proteins

Question 39

Where and to what is riboflavin converted to?

Answer 39

Once in the cell, riboflavin is converted to flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD)

Question 40

What are the active forms of riboflavin?

Answer 40

Flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD)

Question 41

Functions of vitamin B2?

Answer 41

(1) prosthetic groups for many enzymes

(2) involved in oxidation and reduction reaction - example TCA cycle

Question 42

Main characteristic of riboflavin deficiency?

Answer 42

Inflammation of membranes

Question 43

What are some of the inflammation of membranes caused by a riboflavin deficiency?

Answer 43

Cheilosis which means cracks at the corners of the mouth, glossitis which means inflammation of the tongue, stomatitis which means inflammation of the mouth and lips

Question 44

Besides inflammation to membranes, what else does riboflavian deficiency cause?

Answer 44

Sensitivity to bright light, seborrheic dermatitis

Question 45

What is seborrheic dermatitis?

Answer 45

skin condition that causes flaky, white to yellowish scales to form on oil areas such as the scalp, face or inside the ear

Question 46

Is there toxicity report for riboflavin?

Answer 46

No. No toxicity is reported

Question 47

Other name for vitamin B3?

Answer 47

Niacin

Question 48

Source for vitamin B3?

Answer 48

fortified foods - cereal and chicken

Question 49

What are the active forms of niacin?

Answer 49

NAD and NADP

Question 50

Niacin refers to which two structures?

Answer 50

Nicotinic acid and nicotinamide

Question 51

What is unique about vitamin B3?

Answer 51

Our body can make it from trytophan which is an essential amino acid

Question 52

What is the form of vitamin B3 that circulates in the blood?

Answer 52

Nicotinamide (which is the major form of niacin in blood)

Question 53

Function of vitamin B3?

Answer 53

more than 200 oxidation and reduction reactions (production and breakdown of glucose, fats, amino acids and DNA)

Question 54

Causes of a mild deficiency in vitamin B3?

Answer 54

alcohol intake or corn-based diets (corn is low on both tryptophan and niacin)

Question 55

What develops because of niacin deficiency?

Answer 55

Pellagra

Question 56

What is pellagra?

Answer 56

Pellagra means rough skin. Pellagra is a deficiency disease caused by a lack of nicotinic acid or its precursor tryptophan in the diet. It is characterized by dermatitis, diarrhea, and mental disturbance, and is often linked to overdependence on corn as a staple food.

Question 57

what are the symptoms of pellagra?

Answer 57

4 D’s - diarrhea, dermatitis, dementia, and death

Question 58

What is unique with the dermatitis in pellagra?

Answer 58

Bilateral, symmetrical development on those body parts sensitive to the sun. Casal’s necklace - dermatitis developed around the neck.

Question 59

Side effects of taking mega doses of niacin?

Answer 59

Niacin flushing and itching (treated with low dose aspirin or ibuprofen (advil))

Question 60

How does someone take too much niacin?

Answer 60

Nicotinic acid lower LDL, triacylglycerol and increases HDL

Question 61

Other name for vitamin B6?

Answer 61

Pyridoxine

Question 62

Sources of pyridoxine?

Answer 62

Potatoes, oatmeal, bananas, pistachios, pinto beans

Think Boppp

Question 63

What are the three forms of pyridoxine?

Answer 63

Pyridoxal, pyridoxine, and pyridoxamine (al, ine, amine)

Question 64

What happen to the three forms of pyridoxine?

Answer 64

Converted to pyridoxal phosphate

Question 65

Importance of pyridoxal phosphate?

Answer 65

amino acid metabolism

Question 66

Where is vitamin B6 stored?

Answer 66

Stored exclusively in muscle tissue

Question 67

Which reactions are pyridoxine involved in?

Answer 67

transamination and deamination reactions

Question 68

What is transamination?

Answer 68

transamination reactions involves removal of amine group from an amino acid and placing it to a keto acid

Question 69

What is deamination?

Answer 69

deamination reactions stops at the removal of the amine group from the amino acid

Question 70

What is the relationship between pyridoxine and niacin?

Answer 70

Pyridoxine is important for the conversion of trytophan (an amino acid) to niacin

Question 71

What else does pyridoxine synthesize?

Answer 71

Pyridoxine is essential for the synthesis of many neurotransmitters such as serotonin, dopamine, norepinephrine, and histamine.

Question 72

What is the relationship between pyridoxine and heme synthesis?

Answer 72

Pyridoxine is used in the committed step as a coenzyme for ALA synthase.

Question 73

Which drugs affect reabsorption of vitamin B6

Answer 73

isoniazid (treatment for tuberculosis) and penicillamine (treatment of rheumatoid arthritis)

Question 74

Presentation of patient with deficiency in vitamin B6?

Answer 74

Cheliosis, glossitis, pellagra-like dermatitis, depression and confusion (remember that pyridoxine deficiency may lead to niacin deficiency, hence explaining some of the common symptoms)

Question 75

Pharmacological use of pyridoxine?

Answer 75

treat carpal tunnel syndrome, PMS, asthma, depression, during pregnancy to control nausea and diabetic neuropathy

Question 76

Side effects of high doses?

Answer 76

Irreversible nerve damage

Question 77

Other name for vitamin B9?

Answer 77

Folate

Question 78

Sources of folate?

Answer 78

orange juice, lentils, fortified cereal

Question 79

What is folic acid?

Answer 79

Folic acid is used instead of the natural form of folates due to its stability

Question 80

Structure of a folate?

Answer 80

Ring structure known as pteridine, Para-aminobenzoic acid (PABA) which is a bridge molecule, glutamate (usually 3-5 glutamates at the end)

Question 81

Describe folate in foods

Answer 81

In foods, folate naturally occurs as polyglutamate

Question 82

Describe folate in the intestine

Answer 82

In the intestine, digestion breaks glutamates off and adds a methyl group

Question 83

Describe folate in cells

Answer 83

In cells, folate is trapped in its inactive form

Question 84

Who activates folate?

Answer 84

Vitamin B12 activates folate in the cells. Because of this, vitamin B12 picks up a methyl group and is now activated

Question 85

Functions of folate?

Answer 85

(1) synthesis of DNA, RNA, some amino acids
(2) regnerate methionine from homocysteine
(3) red blood cell maturation

Question 86

Symptoms of folate deficiency?

Answer 86

weakness, fatigue, headache, palpitations, shortness of breath - all due to macrocytic anemia

Question 87

What may cause a folate deficiency?

Answer 87

may develop when there is an increased demand by the growing fetus during pregnancy, inadequate absorption due to problems in epithelial cells of the gut such as celiac disease and Crohn disease, cancer therapy and alcoholism, antacids

Question 88

What are examples of folate analogs? What are they used for?

Answer 88

Folate analogs known as antifolates such as methotrexate are commonly used in cancer treatment (leukemias)

Question 89

Treatment for folate deficiency?

Answer 89

Should give both folic and vitamin B12

Question 90

What is the methymalonic acid test?

Answer 90

Methymalonic acid accumulation is an indication of vitamin B12 deficiency.

Question 91

Insufficient folate in pregnant mothers

Answer 91

Results in neural tube defects - main neural tube defect encountered in these babies are spina bifida in which the neural tube does not close completely and anencephale which the brain and skulll are underdeveloped

Question 92

Relationship between folate and heart disease

Answer 92

Folate deficiency leads to increased homocysteine levels. Homocysteine is a known independent risk factor to atherosclerosis.and cardiovascular disease

Question 93

Relationship between strokes and folic acid

Answer 93

Smokers may also benefit from folic acid supplementation which is shown to decrease the risk of strokes

Question 94

Other name for vitamin B12?

Answer 94

Cobalamin

Question 95

Sources of vitamin B12?

Answer 95

animal products only or fortified or fermented foods such as soy milk

Question 96

Synthetic form of cobalamin?

Answer 96

Cyanocobalamio

Question 97

Two active forms of cobalami?

Answer 97

Methylcobalamia and deoxyadenosylcobalamin

Question 98

How is vitamin B12 absorbed? What proteins and factors are involved?

Answer 98

In stomach, 3 things happen: vitamin B12 is released
from its protein partner and it binds to R protein. At the same time another molecule called Intrinsic factor (IF) is released from the parietal cells. Then R-protein bound
vitamin B12 and IF moves to duodenum. Here pancreatic enzymes cleaves R-protein enabling Vitamin B12 to bind to IF. From here to ileum, Vitamin B12 is bound to IF.
At ileum, IF receptors allows internalization of vitamin B12. In the ileal epithelial cells, Vitamin B12 is released from IF and released to hepatic circulation and it is
transported bound to transcobalamin II to be delivered to liver. Due to enterohepatic circulation, vitamin B12 can be sufficient for several years.

Question 99

Who produces R-protein?

Answer 99

Salivary glands

Question 100

Where is the R-protein broken up?

Answer 100

In the duodenum

Question 101

Where is the intrinsic factor released?

Answer 101

In the stomach via the parietal cells

Question 102

Who does vitamin B12 bind to?

Answer 102

First - R-protein
Second - Intrinsic factor
Third - Transcobalamine II

Question 103

Symptoms of vitamin B12 deficiency?

Answer 103

pernicious anemia develops (result of destruction of parietal cells - autoimmune disease), nerve damage including tingling in the hands and feet, painful swollen tongue

Question 104

Malabsorption of vitamin B12?

Answer 104

leads to megaloblastic anemia. Mega meaning large, blastic means containing nucleus.

Question 105

Functions of Biotin (B7)

Answer 105

(1) co-enzyme that adds CO2 to compounds
(2) required for metabolism of carbohydrates, fats and proteins
(3) ABC carboxylases - ATP, Biotin, CO2

Question 106

What causes a biotin deficiency?

Answer 106

loss/inactivation of the enzyme important for recycling the active form of biotin (enzyme is biotindiase enzyme). Described in patients who are taking excessive amounts of raw eggs

Question 107

Why do eggs lead to biotin deficiency?

Answer 107

In egg white there is a molecule called avidin which binds to biotin very tightly

Question 108

Is there evidence of toxicity in biotin?

Answer 108

No

Question 109

What is the result of a biotinidase deficiency?

Answer 109

Inability to recycle biotin

Question 110

What causes a biotinidase deficiency?

Answer 110

It is a genetic disorder and it is passed on in an autosomal recessive manner

Question 111

Symptoms of biotinidase deficiency?

Answer 111

Muscle weakness, seizures, eczema, alopecia, developmental delays and lactic acidosis

Question 112

Soures of Pantothenic acid (B5)?

Answer 112

Meat, milk and many vegetables

Question 113

Form of pantothenic acid (B5)?

Answer 113

Coenzyme A

Question 114

Importance of coenzyme A?

Answer 114

essential for activation of fatty acids; therefore important in fat metabolism

Question 115

Function of pantothenic acid (B5)?

Answer 115

Synthesis of fatty acids, triacylglycerol, cholesterol, acetylcholine and cell membranes

Question 116

Deficincy in pantothenic acid? Toxicity in pantothenic acid?

Answer 116

Neither deficiency nor toxicity is known

Question 117

Relationship between vitamins B2 and B6

Answer 117

FMN (riboflavin coenzyme) is important for the conversion of pyridoxine (B6) to pyridoxal phosphate

Question 118

What is needed for conversion of Trp to niacin?

Answer 118

FMN, PLP and iron are required for conversion of Trp to niacin

Question 119

Other name for vitamin C?

Answer 119

Ascorbic acid

Question 120

Symptoms of scurby?

Answer 120

muscle weakness, joint pain, impaired wound healing, loose tooth, bleeding, swollen gums bruised skin and fatigue

Question 121

Source of vitamin C?

Answer 121

many our of veggies and fruits

Question 122

Functions of vitamin C?

Answer 122

formation of collagen, water soluble antioxidant, synthesis of neurotransitters, synthesis of carnitine (important for fatty acid degradation), increases the bioavailability of iron from foods by enhancing intestinal absorption of non-heme iron

Question 123

What does collagen formation include?

Answer 123

Strengthening bones and blood vessels, anchoring teeth into gums, tissue repair and wound healing

Question 124

Why is vitamin C a great antioxidant?

Answer 124

Readily donates it’s eletrons to free radicals to reactive oxygen species. Also, reversibility - reduced back to its active form.

Question 125

Importance of antioxidant function?

Answer 125

protects proteins, nucleic acids, carbohydrates and lipid damage from oxidation

Question 126

What is oxidation?

Answer 126

loss of electrons

Question 127

In collagen synthesis, what is vitamin C’s role?

Answer 127

Vitamin C is used as a cosubstrate by peptidyl-proplyl hydroxylase and peptidyl-lysyl hydroxylase. Prolyl
hydroxylase catalyzes the selective modification
of proline to hydroxyproline and lysyl hydroxylase catalyzes the conversion of lysine to hydroxylysine.
These modifications are essential for proper collagen folding. Consequently, the lack of vitamin C results in the formation of non-functional collagen in blood vessels and bones, which accounts for most of the severe bone and
blood vessel related symptoms.

Question 128

Relationship between vitamin c and neurotransmitters

Answer 128

Vitamin C is a co-substrate for multiple enzymes involved in neurotransmitter biosynthesis such as norepinephrine. Lack of neurotransmitters helps explain the neurological dysfunction symptoms of scurvy.

Question 129

Where may a vitamin c definicy develop?

Answer 129

Vitamin C deficiency may develop in urban areas with little or no access to fresh fruits and vegetables and in poor older adults

Question 130

What decreases vitamin C?

Answer 130

alcohol decreases absorption of vitamin C, smoking depletes tissue levels

Question 131

How are patients with severe burns and fractures treated with respect to vitamin C?

Answer 131

Increased dosage of vitamin C with patient with severe burns or fractures (they may develop vitamin C deficiency with normal intake)

Question 132

What are pinpoint hemorrhages?

Answer 132

Another symptom of vitamin C deficiency due to internal bleeding

Question 133

What are scorbutic gums?

Answer 133

symmetrical appearance without infection; result of vitamin C deficiency; seen in patients with scurvy

Question 134

Who should be concerned about excess vitamin C?

Answer 134

People with a tendency with developing oxalate stones (vitamin C is metabolized to oxalic acid)

Question 135

Vitamin C as medicine?

Answer 135

(1) doesn’t prevent the common cold but may reduce the severity of the infection
(2) reduces oxidation of LDL cholesterol
(3) As for its role in reducing LDL levels or cancer risk, more research is needed