Lecture 16 - micronutrients part 3

Question 1

What are some dietary sources of niacin?

Answer 1

fish, meats, breads and cereals, coffee and tea

Question 2

What is another word for niacin?

Answer 2

vit B3

Question 3

In plant foods, how is vit B3 or niacin found?

Answer 3

as nicotinic acid

Question 4

What is nicotinic acid

Answer 4

provitamin of niacin/vitB3

Question 5

Where is deficiency of niacin seen a lot?

Answer 5

in areas where corn is the main dietary staple, because niacin is attached to indigestible carbohydrates in corn, therefore it is poorly absorbed

Question 6

In animal derived foods, how is vit B3 found as?

Answer 6

nicotinamide
nicotinamide adenenine dinucleotide (NAD)
nicotinamide adenine dinucleotide phosphate (NADP)

Question 7

How can niacin be produced in the body?

Answer 7

produced in the liver from the AA tryptophan (but only 1/60th of tryptophan is converted to nicotinamide

Question 8

Does niacin need to be digested?

Answer 8

NAD and NADP require digestion before absorption

Question 9

How is niacin digested?

Answer 9

NAD and NADP are hydrolyzed by the glycohydrolase enzyme to release free nicotinamide

Question 10

Where are nicotinic acid and nicotinamide absorbed?

Answer 10

a bit in the stomach, but most is absorbed in the small intestine through facilitated diffusion

Question 11

How does niacin circulation in blood plasma?

Answer 11

as free nicotinamide

Question 12

Can niacin pass through membranes?

Answer 12

yes, nicotinic acid and nicotinamide can cross cell membrane by simple diffusion in most tissues, except kidney and RBC’s

Question 13

What are the precursors for NAD and NADP in the body?

Answer 13

nicotinic acid and nicotinamide

Question 14

What happens to niacin once NADP is synthesized?

Answer 14

niacin is essentially trapped within the cell

Question 15

What are the reduced forms of NAD and NADP?

Answer 15

NADH
NADPH

Question 16

What is the function of NADH?

Answer 16

the transfer of electrons to the ETC

Question 17

What is the function of NADPH?

Answer 17

a reducing agent in biochemical pathways

Question 18

What are the two steps from nicotinic acid to be converted to NADP?

Answer 18

1. convert the acid to an amide
2. build into a dinucleotide instruction: contains a sugar (ribose) a nitrogenous base and a phosphate

Question 19

When is NAD+ reduced to NADH?

Answer 19

• glycolysis
• krebs
• B-oxidation
• catabolism

Question 20

When is NADP+ reduced to NADPH?

Answer 20

• hexose monophosphate shunt

Question 21

Why is NADP+ reduced to NADPH?

Answer 21

• FA synthesis
• glutathione regeneration
• anabolism

Question 22

How many electrons do NAD and NADP accept?

Answer 22

2

Question 23

What is the issue with corn and niacin absorption?

Answer 23

• corn contains significant amounts of niacin, but it’s bound and not absorbed
• also is deficient in tryptophan

Question 24

How can niacin be released from corn?

Answer 24

use of lime (from limestone) helps to release niacin from corn

Question 25

What does niacin deficiency lead to?

Answer 25

pellagra: dermatitis, dementia, diarrhea, death
- most symptoms are reversible

Question 26

Do RDA requirements for niacin include the small amounts of tryptophan?

Answer 26

yes

Question 27

NE

Answer 27

niacin equivalents

Question 28

What is the NE formula?

Answer 28

NE = mg preformed niacin + mg Trp/60

Question 29

What foods is riboflavin found in?

Answer 29

• milk, milk products meat
• other foods contain flavins, found as either flavin mononucleotide (FMN) or flavin adenine dinucleotide (FAD) which are essentially bound to riboflavin

Question 30

FAD

Answer 30

flavin adenine dinucleotide

Question 31

FMN

Answer 31

flavin mononucleotide

Question 32

What is riboflavin degraded by?

Answer 32

sunlight (which is why milk is no longer sold in glass bottles

Question 33

What is another term for riboflavin?

Answer 33

vit B2

Question 34

How is riboflavin digested?

Answer 34

riboflavin that is bound to proteins must be released prior to its absorption, this is done by HCl (protein denaturation) in the stomach

Question 35

How is riboflavin absorbed?

Answer 35

from the gut lumen by an active transport mechanism known as the riboflavin transporter 2 (RFT2)

Question 36

RFT2

Answer 36

riboflavin transporter 2

Question 37

How are riboflavin, FAD and FMN transported in the body?

Answer 37

bound to proteins - albumin

Question 38

Where is riboflavin stored in the body?

Answer 38

liver, kidneys, heart, extra is usually excreted in the urine

Question 39

How long do sufficient amounts of riboflavin last when no longer consumed in the diet?

Answer 39

2-6 weeks

Question 40

Where are FMN and FAD made?

Answer 40

in the cells

Question 41

What is the primary form of riboflavin in the body?

Answer 41

FAD - 60-95%

Question 42

What is production of riboflavin positively regulated by?

Answer 42

T3 hormone, which increases the activity of the flavokinase enzyme

Question 43

How is riboflavin metabolized into FMN and FAD steps?

Answer 43

1. riboflavin becomes riboflavin PO4 flavin mononucleotide (FMN) through the enzyme flavokinase (Mg2+ or Mn2+) turning ATP into ADP
2. FMN can convert to FAD through the enzyme FAD synthetase (Mg2+ or Mn2+) again, turning ATP into ADP

Question 44

What is the structure of riboflavin?

Answer 44

ribotol - linear ribose
flavin - nitrogenous base

Question 45

What is FMN considered?

Answer 45

nucleotide:
base + sugar + P

Question 46

What is FAD considered?

Answer 46

dinucleotide:
FMN + adenine + sugar + P

Question 47

What is the redox for FMN?

Answer 47

FMN -> FMNH2
reduction
2 e- transfer

Question 48

What is the redox for FAD?

Answer 48

FAD -> FADH2
reduction
2 e- transfer

Question 49

What is the difference between FMN FAD and NADP?

Answer 49

function similarly in electron transfer, the primary difference is that FMN and FAD are typically bound to the active site of an enzyme

Question 50

What are the steps to riboflavin in redox of GSSG to GSH?

Answer 50

GSSG + NADPH -> 2GSH + NADP+
O R R O
enzyme: glutathione reductase
FAD -> FADH2 when NADPH -> NADP+
FADH2 -> FAD when GSSG -> 2GSH
- to regenerate glutathione, FAD accepts 2 electrons from NADPH, temporarily becoming FADH2

Question 51

What does reforming glutathione require?

Answer 51

both niacin (NADP) and riboflavin (FAD)

Question 52

What occurs if there is a riboflavin deficiency?

Answer 52

ariboflavinosis

Question 53

What are the symptoms of ariboflavinosis?

Answer 53

• signs of deficiency appear within 3-4 months
• deficiency relatively common when dietary intake is insufficient because riboflavin is continuously excreted in the urine
• reversible
• cracked and red lips, inflammation of the lining of the mouth and tongue, mouth ulcer, cracks at the corner of the mouth

Question 54

What are the populations at risk for deficiency?

Answer 54

• people with hypothyroidism or thyroid disease, because they can’t make thyroid hormones to activate flavokinase
• chronic alcoholism, which reduces riboflavin digestion and absorption
• people who are lactose intolerant (reduced consumption of dairy foods and beverages)

Question 55

Is there an upper limit for riboflavin?

Answer 55

no

Question 56

What foods is thiamine found in?

Answer 56

meats, whole fortified or enriched grain products

Question 57

How is thiamine destroyed?

Answer 57

heat and alkaline environment

Question 58

How does thiamine exist in plants?

Answer 58

thiamine provitamin exists in a free form

Question 59

What is antoher term for thiamine?

Answer 59

vit B1

Question 60

How does thiamine exist in animals?

Answer 60

phosphorylated form (TPP) - active form

Question 61

What is the active form of thiamine?

Answer 61

TPP

Question 62

TPP

Answer 62

thiamine pyrophosphate

Question 63

How is thiamine absorbed?

Answer 63

phosphate group but be removed to allow for its absorption, controlled by thiamine transports

Question 64

Where is thiamine absorbed?

Answer 64

in the small intestine

Question 65

How is thiamine found in blood plasma?

Answer 65

TPP is found in free form or bound to albumin

Question 66

How is TPP produced (thiamine metabolism) steps?

Answer 66

thiamine (plant provitamin) is converted to TPP (active form) through the enzyme thiamine diphosphokinase and converting ATP to AMP
- adding two phosphate groups

Question 67

What does TPP contain in its structure?

Answer 67

two phosphates and a carbanion

Question 68

What key oxidative decarboxylation steps is TPP important in?

Answer 68

1. pyruvate dehydrogenase complex
2. alpha-ketoglutarate dehydrogenase complex
   - these enzymes also require FAD, NAD and CoA as cofactors
   - critical in the movement of sugars and AA into energy metabolism pathways

Question 69

In what non-oxidative cycle is thiamine required in?

Answer 69

in the non-oxidative phase of the hexose monophosphate shunt - plays a role in the synthesis of nucleotide precursors

Question 70

What does thiamin deficiency cause?

Answer 70

critical energy metabolism pathways
- prevents ATP production and acetyl-CoA synthesis
- causes accumulation of pyruvate, lactate and alpha-ketoglutarate in blood

Question 71

What are the health implications of thiamine deficiency?

Answer 71

1. dry beriberi: predominantly in adults due to chronic low thiamine intake, muscle weakness, affects the nervous system
2. wet beriberi: predominantly in children and young adults, more severe than dry beriberi and affects the cardiovascular system
3. acute beriberi: occurs primarily in infants, anorexia, vomiting, lactic acidosis, and eventually death if left untreated

Question 72

Who is more susceptible to thiamine deficiency?

Answer 72

chronic alcoholism
people depending on polished white rice as a major source of food

Question 73

Is there an upper limit for thiamine?

Answer 73

no

Question 74

What foods is pantothenic acid found?

Answer 74

present everywhere

Question 75

What is another term for pantothenic acid?

Answer 75

vit B5

Question 76

How does pantothenic acid occur in foods as?

Answer 76

ubiquitously in foods in both free and bound forms, mostly occurs as part of coenzyme A (CoA)

Question 77

Is there deficiency or toxicity associated with pantothenic acid?

Answer 77

no, because it is present in all foods

Question 78

How is pantothenic acid absorbed?

Answer 78

passive diffusion

Question 79

Where is pantothenic acid absorbed?

Answer 79

jejunum

Question 80

How is pantothenic acid found in blood plasma?

Answer 80

found free

Question 81

How does uptake of pantothenic acid into tissues occur?

Answer 81

through the sodium-dependent multivitamin transporter (SMVT)

Question 82

SMVT

Answer 82

sodium-dependent multivitamin transporter

Question 83

Pantothenic acid acts as the precursor in the synthesis of what molecule?

Answer 83

coenzyme A

Question 84

How is pantothenic acid converted to coenzyme A steps? (metabolism)

Answer 84

1. pantothenic acid is converted to 4-phosphopantetheine using cysteine, phosphate (from ATP) and CO2 as cofactors
2. 4-phosphopantetheine is converted to coenzyme A (CoA, CoASH) using AMP -> PPi as a cofactor

Question 85

What is 4-phosphopantetheine

Answer 85

an intermediate, the active form of pantothenic acid in fatty acid synthesis, important component of acyl-carrier protein in the fatty acid synthase complex

Question 86

What is coenzyme A (CoA, CoASH)

Answer 86

active form of pantothenic acid in oxidative reactions, energy production, formation of acetyl CoA

Question 87

What are the sources of biotin?

Answer 87

1. made by intestinal bacteria: although not enough is made to meet the needs of humans
2. widely found in foods bound to proteins

Question 88

What is biotin attached to?

Answer 88

protein called avidin, when attached, no absorption occurs

Question 89

How is biotin digested?

Answer 89

must be removed from proteins prior to its absorption, proteolysis by pepsin in the stomach breaks down proteins and released biotin

Question 90

How is biotin absorbed?

Answer 90

free biotin is absorbed to near completion, alcohol inhibits biotin absorption

Question 91

How does biotin circulate in blood plasma?

Answer 91

in the free form (80%) with a bit bound to albumin

Question 92

What is another term for biotin?

Answer 92

vit B7

Question 93

Are there RDAs or deficiency in place for biotin?

Answer 93

no because its so prevalent

Question 94

What are the steps to biotin-mediated carboxylation?

Answer 94

rxn #1:
biotin with biotin ring has a carboxyl group that interacts with NH2 group of a lysine s.c. in an enzyme via a peptide bond
carboxylation of the N in the biotin ring structure occurs with HCO3- and ATP as cofactors

rxn #2:
the carboxyl group is then transferred to another molecule

Question 95

What is the structure of biotin?

Answer 95

two rings (with Na dn S) and a s.c. with a carboxyl group

Question 96

What are the 3 key reactions involving biotin?

Answer 96

1. pyruvate carboxylation - production of oxaloacetate
2. malonyl CoA formation
3. conversion of propionate into glucose (important in ruminants)

Question 97

What is another term for folate?

Answer 97

vit B9

Question 98

What is folate referring to?

Answer 98

generic term that refers to both natural folates in food and the synthetic form used in supplements and fortified foods called folic acid

Question 99

Are folate and folic acid structurally different?

Answer 99

yes
- folic acid refers to the oxidized form of the vitamin found in fortified foods and supplements - 100% bioavailable
- folate refers to the reduced form of the vitamin found naturally in foods - 50% bioavailable

Question 100

What are the three parts that folate is composed of?

Answer 100

pterin ring
PABA
glutamic acid

Question 101

PABA

Answer 101

para-aminobenzoic acid

Question 102

Can humans synthesize all three components of folate?

Answer 102

yes, however lack the enzymes to conjugate them

Question 103

What is folate critical for?

Answer 103

production of nucleic acid precursors and several AA, as well as methylation reactions, important in bone marrow and developing fetus

Question 104

What must occur in folate before absorption?

Answer 104

natural folates have multiple glutamate residues which must be removed for absorption in its simplest form

Question 105

How is folate digested?

Answer 105

polyglutamate hydrolase removes the glutamate residues

Question 106

How is folic acid digested?

Answer 106

folic acid is already a mono glutamate structure, so no digestion is required

Question 107

How/where is folate absorbed?

Answer 107

through a proton-coupled folate transporter (PCFT) in the small intestine

Question 108

PCFT

Answer 108

proton-coupled folate transporter

Question 109

What is folate and folic acid usually converted to in the small intestine?

Answer 109

converted into the bioactive compound 5-methyltetrahydrofolate (5-methyl THF)

Question 110

What form of folate do you generally detect in blood plasma?

Answer 110

mostly 5-methyl THF and a bit of folate

Question 111

How is folate transported in blood plasma?

Answer 111

bound to protein, such as albumin

Question 112

What is the bioactive form of folate?

Answer 112

5-methyl THF

Question 113

What is the structural difference between folic acid and folate?

Answer 113

folic acid - only 1 glutamate residue
folate - multiple glutamate residues

Question 114

DFE

Answer 114

dietary folate equivalent

Question 115

What is the formula for DFE?

Answer 115

Total DFE = microg food folate + (1.7 x microg folic acid)

Question 116

What is absorbed more folic acid or folate?

Answer 116

folic acid

Question 117

Why is folate toxicity a risk?

Answer 117

very easy to exceed the UL if taking supplements and eating fortified foods, too much folate can lead to increased cancer risk

Question 118

What is another term for cablamin?

Answer 118

vit B12

Question 119

What is vitamin b12 a generic term for?

Answer 119

a group of compounds called corrinoids (because of corrin nucleus that contains cobalt)

Question 120

What is unique about vitamin B12 structure?

Answer 120

cobalt in the corrin nucleus, the most complex vitamin structure and is unique in that it contains a metal ion

Question 121

What produces vit B12?

Answer 121

only bacteria, spoilage of meat can increase vit B12

Question 122

Where is vitamin B12 present?

Answer 122

animal products

Question 123

Is there a plant provitamin B12?

Answer 123

no, so vegetarians and vegans are at risk

Question 124

What does a vit B12 deficiency cause?

Answer 124

functional deficiency for folate, neurological problems

Question 125

What does B12 work with?

Answer 125

folate

Question 126

is there an upper limit for vit B12?

Answer 126

no

Question 127

What are the steps to absorption of vit B12?

Answer 127

1. when B12 enters the stomach, a specific binding protein is secreted from the gastric lining known as IF (intrinsic factor)
2. binds to B12
3. the B12-IF complex goes to a receptor in the small intestine
4. the complex is broken down in the enterocyte and vitB12 is absorbed while IF is released back into the intestinal lumen, it is either attached to another B12 or excreted

Question 128

Where does B12 usually go after absorption?

Answer 128

Vit B12 is stored in the liver and can undergo enterohepatic circulation
- high storage in the liver so deficiencies can take years to surface

Question 129

What are the two causes of a vit B12 deficiency?

Answer 129

1. not enough in your diet - in strict vegans (resolved with megadoses of vitB12)
2. improper absorption due to defects in IF - deficiencies shown in blood in the form of megaloblastic anemia

Question 130

What are the steps to the single carbon metabolism?

Answer 130

1. dietary folates enter the blood stream through the removal of polyglutarate s.c. and a methylation at N5 becomes N5-methyl THF
2. N5-methyl THF (bioactive folate) goes to an organ tissue
3. N5-methyl THF is converted to THF where cobalamin receives a methyl from folate and becomes methyl-cobalmin, this is mediated by the methionine synthase enzyme
4. methyl cobalamin gives its methyl group to homocysteine which turns it into methionine (enters SAM cycle)
5. methionine becomes S-adenosyl methionine, it gives its methyl a substrate to become S-adenosyl homocysteine and goes back to homocysteine
6. back to THF, CH3 (usually serine) gives its methyl group to THF to convert it to N5N10-methylene THF
7. N5N10-methylene THF can go back to THF for regulation or can go into dUMP -> dTMP-> dTTP for DNA synthesis regulated by the enzyme thymidylate synthase
8. dTTP goes into the nucleus to partake in DNA synth and cell division

Question 131

What does the SAM cycle help with?

Answer 131

DNA synthesis

Question 132

What is the folate trap?

Answer 132

when someone is B12 deficient, the single carbon metabolism is affected:
- N5-methyl THF is trapped and can’t become THF

Question 133

What is the issue with the folate trap?

Answer 133

large doses of folate form supplements can hide a vitB12 deficiency, so you get more folate going to the liver where is it converted into THF, however there is a still a problem with the SAM cycle

Question 134

What are the health implications of a folate deficiency?

Answer 134

• folate is important for dividing cells
• it supports the production of specialized cells that form the neural tube - takes place during early pregnancy
• folate deficiency leads to severe birth defects
• in the embryo neural tube is the CNS which becomes brain and spinal cord - defects can occur with these
• closed vs open NTD - open is more common, the brain and spinal cord are exposed

Question 135

What does vitamin B6 exist as?

Answer 135

6 vitamers - interchangeable and comparably active - all can be found phosphorylated or unphosphorylated

Question 136

What are some vitamers of vit B6?

Answer 136

pyridoxine - plant provitamin
pyridoxal
pyrixoxamine

Question 137

What foods is B6 found in?

Answer 137

all isomers are found in foods, deficiency is very rare

Question 138

What demands more B6?

Answer 138

high protein intake to support transamination

Question 139

What must be done to B6 before absorption?

Answer 139

dephosphorylation

Question 140

How and where is B6 absorbed?

Answer 140

passive diffusion in the jejunum

Question 141

What is the main form of B6 found in the blood?

Answer 141

PLP, bound to albumin

Question 142

Where are high levels of B6 found in the body?

Answer 142

In the muscle

Question 143

How is vitamin B6 metabolized steps?

Answer 143

occurs primarily in the liver
1. pyridoxine (alcohol) - plant provitamin is converted to pyridoxal (aldehyde)
2. pyridoxal is converted to pyridoxal phosphate - PLP - active cofactor

Question 144

What is the important of PLP in body function?

Answer 144

• cofactor for many enzymes including aminotransferases
• also involved in the first step in porphyrin synthesis
• synthesis of neuroactive aminoes

Question 145

What does B6 deficiency cause

Answer 145

microcytic anemia

Question 146

What are the three types of anaemia?

Answer 146

1. megaloblastic anaemia
2. hemolytic anaemia
3. microcytic anaemia

Question 147

How can anaemia occur?

Answer 147

stem cells in bone marrow are differentiated in the presence of erythropoietin, normally differentiation causes RBC’s to shrink, nucleus is removed and able to carry O2, process is very sensitive to micronutrient deficiencies, which leads to anaemia

Question 148

How does megaloblastic anemia occur?

Answer 148

folate and vit B12 deficiencies - issues with DNA synth
pro erythroblast undergoes DNA synth forming a reticulocyte RBC
- RBC’s are packed with hemoglobin and cause bigger cells

Question 149

How does hemolytic anemia occur?

Answer 149

vit E, selenium and cysteine deficiencies - oxidant stress
causes premature breakdown of RBC’s

Question 150

How does microcytic anemia occur?

Answer 150

vitB6 deficiency - hemoglobin production causes RBC’s to not be able to make porphyrin ring which means less hemoglobin and paler cells