Week 10 - Unit 2

Question 1

PPP stands for ?

Answer 1

Pentose MonoPhosphate Pathway- alternative oxidative pathway for glucose-6P

Question 2

What are the two primary roles of PPP?

Answer 2

1. Generation of 5-C sugars for nucleotide synthesis
2. Generation of NADPH
   (essential in red blood cell which does not have mitochondria to fully oxidize glucose)

Question 3

The generation of ______ within the red blood cell is critical for the maintenance of glutathione in the reduced state.

Answer 3

NADPH

Question 4

_______ is required to maintain hemoglobin in the reduced form to bind oxygen.

Answer 4

Glutathoine

Question 5

Deficiencies in the ____ greatly impact red blood cell stability.

Answer 5

PPP

Question 6

Fructose can come from what 3 sources?

Answer 6

1. Dietary fructose (honey)
2. Dietary Sucrose (Glucose + fructose)
3. Converted from Glucose to Fructose in Polyol pathway

Question 7

Fructose, like glucose, comes into the cell and is immediately phosphorylated by ?

Answer 7

Fructokinase

• Makes Fructose 1-P

Question 8

Fructose ——-> Fructose -1P——–>(cleaved by what enzyme into two products?)

Answer 8

Aldolase B

Question 9

Fructose—–>Fructose-1-P——>cleaved by Aldolase B ———–> (what are the two products?)

Answer 9

1. Dihydroxyacetone - P

2. Glyceraldehyde

Question 10

Aldolase B is active in what organ? how is it different from Aldolase A?

Answer 10

Aldolase B is in liver- used in both fructose and glucose pathway
Aldolase A- in muscle- only in glucose pathway

Question 11

What does Aldolase B cleave in the Fructose pathway?

in the glucose pathway?

Answer 11

Fructose-1P

Fructose 1,6 Bisphosphate (glycolysis)

Question 12

After Fructose 1-P is cleaved into Dihydroxyacetone-P and Glyceraldehyde, what must occur next for Glyceraldehyde before it can be used to make Pyruvate?

Answer 12

Glyceraldehyde is already 3-P version in glycolysis , but not in fructose pathway, so it must be phosphorylated by ATP into Glyceraldehyde 3-P

Question 13

What is the enzyme that phosphorylates Glyceraldehyde in the fructose pathway to make its 3-P version?

Answer 13

Triose Kinase (takes P from ATP to make it ADP)

Question 14

What is the rate limiting step for Fructose pathway ?

Answer 14

the Aldolase B enzyme (cleavage of Fructose 1-P)

Question 15

Aldolase B has a much higher affinity for _______ in the Glycolysis pathway from glucose than _______ in fructose pathway.

Answer 15

Fructose 1,6 Bisphosphate

Fructose 1-P (will be much slower reaction)

Question 16

After ingesting high amounts of fructose , normal individuals will accumulate ______ in the liver while is slowly cleaved by Aldolase B.

Answer 16

Fructose 1-P

Question 17

Hereditary Fructose Intolerance is what type of genetic disorder?

Answer 17

Autosomal Recessive disorder

Question 18

What are individuals missing in Hereditary Fructose Intolerance disorder?

Answer 18

Aldolase B

Question 19

What happens to people with Hereditary Fructose Intolerance when they ingest fructose?

Answer 19

Accumulation of Fructose 1-P in liver (no aldolase B to cleave it)

• impacts ability to regulate blood glucose
• can lead to HYPOGLYCEMIA
• Can cause major clinical problems

Question 20

What is Essential Fructosuria?

Answer 20

Individuals lack Fructokinase enzyme - can not convert fructose to fructose-1-P inside cells
-few clinical consequences

Question 21

What happens when someone with Fructosuria ingests fructose?

Answer 21

It is not phosphorylated and metabolized but is rather just excreted in urine (sugar is not present in urine normally), few clinical problems

Question 22

What enzyme will act on Galactose once it enters the cell?

Answer 22

Galactokinase (adds a Phosphate group to make Galactose 1-P)

Question 23

Galactose 1-P interacts with UDP Glucose and is charged to UDP Galactose by what enzyme in a circular cycle?

Answer 23

Galactose 1-phosphate uridylyltransferase

Question 24

What does Galactose 1-phosphate Uridylyltransferase do ?

Answer 24

It will charge Galactose 1-P to UDP Galactose while converting UDP glucose to Glucose 1-Phosphate for use in Glucose pathway and can be metabolized or maintain blood glucose levels

Question 25

What does Epimerase do in the Galactose pathway?

Answer 25

It will convert UDP Galactose to UDP Glucose by modifying the carbon structure
-circular cycle to replenish and provide UDP Glucose to be transformed into Glucose 1-P

Question 26

What is Nonclassical Galactosemia?

Answer 26

Galactokinase is not present

• can not be phosphorylated so it cant be trapped in cell
• few clinical problems

Question 27

What is Classical Galactosemia?

Answer 27

Missing - Galactose 1-P Uridylyltransferase enzyme

- major clinical problem- Galactose 1-P will accumulate in cell as it is trapped but can not be broken down

Question 28

What happens when Fructose 1-P builds up in liver in Hereditary Fructose Intolerance?

Answer 28

Decrease in free phosphate
Decrease in ATP availability (increase in AMP)
-will greatly effect gluconeogenesis and Glycogenolysis so blood glucose can be poorly regulated (hypoglycemia)

Question 29

Lack of ATP levels caused by build up of Fructose 1-P in Hereditary Fructose Intolerance will inhibit what pathway?

Answer 29

Gluconeogenesis (energy requiring- synthesized from precursors)

Question 30

Lack of free phosphate caused by build up of Fructose 1-P in Hereditary Fructose Intolerance will inhibit what pathway ?

Answer 30

Glycogenolysis (need phosphate to activate)

-negatively impacts blood glucose regulation (hypoglycemia)

Question 31

What is the genotype of the parents of a child with Hereditary Fructose Intolerance when the parents do not present with it?

Answer 31

the child must have rr (autosomal recessive disease)

Parents must be Rr (heterozygous)

Question 32

In PPP Glucose-6P is put through an oxidative pathway to make?

Answer 32

Ribulose 5-phosphate

Question 33

What can Ribulose 5-phosphate do ?

Answer 33

1. undergo non-oxidative pathway to convert back to intermediates for use in glycolysis
2. be converted to Ribose -5-P for use in Nucleotide synthesis

Question 34

What is the critical byproduct of converting Glucose-6P to Ribulose 5-P in the oxidative pathway?

Answer 34

NADP+ is converted to NADPH (essential to other reactions)

Question 35

What is NADPH essential to?

Answer 35

Fatty acid synthesis
Glutathione reduction
Other reactions such as detoxification

Question 36

In the Oxidative pathway portion of PPP, Glucose 6-P is ________ to Pentose Phosphates- 5 carbon sugar (Ribulose 5-P)

Answer 36

Decarboxylated - primary role of 5-C sugars is for Nucleotides

Question 37

In the non-oxidative portion of PPP, the Pentose Phosphates can be converted back into what 2 examples of intermediates for use in glycolysis depending on needs of cell (pathway reverses)?

Answer 37

Fructose 6-P

Glyceraldehyde 3-P

Question 38

Ratio of NADPH to NADP+ in cell is ______ than NADH to NAD+ in cell

Answer 38

Greater - more NADPH will be floating around than NADH because the NADH is oxidized rapidly in the ETC (more availability of NADPH in cell)

Question 39

All tissues require _____ for reductive detoxification.

Answer 39

NADPH

Question 40

NADPH is generated by ?

Answer 40

PPP and Malic enzyme pathway

Question 41

PPP is critical in Red blood cells because it is only pathway that can create ______ that is necessary for ______ glutathione.

Answer 41

NADPH

reducing (necessary to bind Oxygen in reduced state)

Question 42

In oxidative phase of PPP, Glucose 6-P is catabolized to Ribulose 5-P, and the oxidation of 1 mole of glucose generates ____ NADPH

Answer 42

2

Question 43

What enzyme will be the first in PPP pathway acting on Glucose 6-P? (making NADPH)

Answer 43

Glucose 6-Phosphate Dehydrogenase (critical enzyme)

Question 44

What is the intermediate created when Glucose 6-P is acted on by the Glucose 6-P dehydrogenase ?

Answer 44

6-Phosphogluconolactone

Question 45

In the oxidative phase of PPP, there is an oxidation of the _____ and reduction of _______ in the first step.

Answer 45

Aldehyde (H-C=O) is oxidized into C=O

Question 46

The intermediate 6-phosphogluconolactone undergoes rapid _______ in the Oxidative portion of PPP.

Answer 46

hydrolysis

Question 47

What is 6-Phosphogluconolactae converted to after rapid hydrolysis in PPP oxidative pathway?

Answer 47

6-Phosphogluconate

Question 48

What happens to 6-Phosphogluconate in PPP oxidative pathway (intermediate)?

Answer 48

Accepted by 6-Phosphogluconate dehydrogenase

• undergoes a decarboxylation reaction
• NADP+ is reduced to NADPH
• CO2 is released

Question 49

What is the end product after 6-phosphogluconate is acted on by the dehydrogenase and is decarboxylated and reduced NADP+ to make NADPH (the second one in series)?

Answer 49

Ribulose-5 Phosphate (irreversible pathway product)

Question 50

What part of PPP pathway is reversible and irreversible?

Answer 50

oxidative part is irreversible

non-oxidative is reversible

Question 51

What enzymes does the non-oxidative phase of PPP involve?

Answer 51

4 types

Epimerase
Isomerase
Transketolase
Transaldolase

All reversible and direction depends on cell needs

Question 52

What enzyme converts Ribulose 5-P to Ribose 5-P?

Answer 52

Isomerase

Question 53

What enzyme converts Ribulose 5-P to Xylulose 5-P?

Answer 53

Epimerase
(changes the H structure on Carbon 3)
-reversible

Question 54

What does the Transketolase enzyme do in the non-oxidative pathway of PPP?

Answer 54

Transfer of 2-C group from 5 carbon sugar to a different 5 Carbon sugar to make:
Glyceraldehyde 3-P

Question 55

What is a coenyzme required for Transketolase reactions?

Answer 55

Thiamine Pyrophosphate (TPP)

Question 56

What is an example of a Transketolase reaction?

Answer 56

Ribose 5-P to Glyceraldehyde 3-P

Question 57

Describe the mechanism of the Transketolase enzyme in non-oxidative TPP pathway?

Answer 57

Cleaves the Carbon Carbon bond next to aldeyhyde and bonds to TPP where it can be transfered (2 Carbon moiety)

Question 58

Where is the 2 Carbon moiety that is bound to TPP due to Transketolase transferred to ?

Answer 58

onto Ribose 5-P to then Generate 7 -Carbon sugar and release 3-Carbon sugar Glyceraldehyde 3-P

Question 59

Transaldolase reactions involve the transfer of 3 Carbon chain from one sugar to another between ?

Answer 59

2 hydroxyl carbons adjacent to keto group

Question 60

What is an example of a Transaldolase reaction?

Answer 60

Cleaving 3-C moiety from a 7 Carbon molecule and adding it to Glyceraldehyde 3-P to make Fructose 6-P for use in glycolysis to make pyruvate

Question 61

For every 1 glucose 6-P molecule that enters the PPP oxidative pathway, how many NADPH, how man CO2 are made

Answer 61

2 NADPH

1 CO2

Question 62

What are the two enzymes that can act on Ribulose 5-Phosphate that will determine its path in PPP

Answer 62

Epimerase

Isomerase

Question 63

What will Epimerase do to Ribulose 5-P?

Answer 63

convert it to:
Xylulose 5-P that can make Glyceraldehyde 3-P that can either be used directly in Glycolysis or shunted into making Fructose 6-P

Question 64

What will Isomerase do to Ribulose 5-P

Answer 64

convert it to Ribose 5-P

Question 65

What are the paths that Ribose 5-P can take?

Answer 65

1. Nucleotide synthesis

2. Acted on my Transketolase then Transaldolase

Question 66

What does Ribose 5-phosphate get converted to when Transketolase first acts on it?

Answer 66

Sedoheptulose 7-P

Question 67

What does Xylulose 5-P get converted to when Transketolase first acts on it ?

Answer 67

GLyceraldehyde 3-P

Question 68

Ribose 5-P or ______ can interact with Xylulose 5-P using Transketolase enzyme to make Glyceraldehyde 3-P

Answer 68

Erythrose 4-Phosphate

Question 69

What is the second step of the non-oxidative pathway involved for its enzyme? product?

Answer 69

Glyceraldehyde 3-P and Sedoheptulose 7-P interact using Transaldolase enzyme to add the 3 Carbon to Frutctose to make Fructose 6-P for using in GLycolysis

Question 70

What is the secondary interaction that Erythrose 4-Phosphate can interact with if it does not interact with Transalodolase?

Answer 70

Transketolase acts on it and Xylulose 5-P

• Erythrose 4-P is converted to Fructose 6-P
• Xylulose is converted to Glyceraldehyde 3-P to use directly in glycolysis

Question 71

Where is PPP regulated?

Answer 71

Oxidative phase

Question 72

What is the regulatory enzyme (one that is regulated/inhibited) in PPP?

Answer 72

Glucose 6-dehydrogenase

-inhibited by high levels of NADPH (its own byproduct)

Question 73

True or false:
NADPH is typically high in the cell to inhibit enzyme Glucose 6-P dehydrogenase from converting Glucose 6-P to 6-phosphogluconolactone

Answer 73

True

Question 74

If the oxidative pathway in PPP is inhibited , can the non-oxidative pathway work?

Answer 74

Yes- allows cell to divert substrate in different pathways depending on needs
-can convert intermediates still

Question 75

When a cell needs Ribose 5-P only what is likely to occur?

Answer 75

Only non-oxidative reactions

Question 76

If the cells needs NADPH only, what will the pathways do?

Answer 76

Oxidative reactions make the NADPH

-Non-oxidative reactions will convert ribulose 5P to glucose 6-P to produce more NADPH

Question 77

If the cells needs NADPH and Ribose 5-P , what will the pathways do

Answer 77

Oxidative pathways produce NADPH and ribulose 5-P

-the isomerase converts ribulose 5-P to ribose 5-P

Question 78

If the cell needs Ribose 5-P only, what does the High levels of NADPH do ?

Answer 78

inhibts glucose 6-P dehydrogenase from making more NADPH

- Transketolase and Transaldolase are free to convert fructose 6-P and glyceraldehyde 3-P to ribose 5-P

Question 79

What if the cell needs NADPH and Pyruvate, what do the PPP pathways do?

Answer 79

Both oxidative and non-oxidative reactions are used.

• Oxidative will make NADPH and Ribulose 5-P
• non-oxidative will convert ribulose 5-P to fructose 6-P and glyceraldehyde 3-P
• Glycolysis will convert the above intermediates to pyruvate

Question 80

What detoxification pathways require NADPH?

Answer 80

1. Reduction of oxidized glutathione

2. Cytochrome P450 monooxygenases

Question 81

What reductive synthesis pathways need NADPH?

Answer 81

Fatty acid synthesis
Fatty acid chain elongation 
Cholesterol synthesis 
Neurotransmitter synthesis 
Deoxynucleotide synthesis 
Superoxide synthesis

Question 82

What type of transporter does RBC use to uptake GLucose?

Answer 82

Glut 1 transporter

Question 83

What is the Cori Cycle?

active between muscle and liver and the RBC and liver

Answer 83

Glucose from the liver is taken up by the RBC and then the RBC creates 2 Lactate from 1 glucose which is taken up by liver and converted back to glucose in Gluconeogenesis

Question 84

What are the two options that Glucose can go once inside the RBC?

Answer 84

1. Phosphorylated to Glucose 6-P

2. Can either be converted to lactate in glycolysis or oxidized by the Pentose phosphate pathway to make NADPH

Question 85

NADPH is required for ______ of glutathione in RBC.

Answer 85

reduction

Question 86

Glutathione is a _______ compound that facilitates detoxification of free oxygen species that can damage cells/proteins. (Glutathione protects RBC)

Answer 86

tripeptide

Question 87

What are the three AA that Glutathione is comprised of from top to bottom ?

Answer 87

Glycine
Cysteine (Sulfur R chain)
Glutamate

Question 88

What is the free radical that is used as an example that Glutathione will detoxify?

Answer 88

Hydrogen peroxide

H2O2

Question 89

____ molecules of Glutathione react with the enzyme ______ ______ to convert Hydrogen Peroxide to water (reduce it).

Answer 89

Two

Glutathione peroxidase

Question 90

Who is reduced and who is oxidized in the reaction of Glutathione with Hydrogen peroxide in RBC?

Answer 90

H2O2 is reduced to water

Glutathione is oxidized to Glutathione disulfide (2 molecules linked by sulfide bond)

Question 91

How does the product of Glutathione disulfide created when you detoxify free radicals (hydrogen peroxide) get recycled back to be used again?

Answer 91

1. NADPH will donate its H to reduce GSSG back to two molecules of Glutathione

Question 92

What enzyme does the NADPH use to reduce GSSG back to 2 molecules of Glutathione in RBC?

Answer 92

Glutathione reductase

Question 93

What happens in RBC when there is a deficiency of Glucose 6-P dehydrogenase enzyme?

Answer 93

PPP pathway can not function to make NADPH (needed for glutathione recycling back from GSSG)

Question 94

What is an effect in the RBC if NADPH is not being produced in PPP?

Answer 94

Free radicals and Hydrogen Peroxides can not be reduced and can damage cell

Question 95

What happens to the RBC if free radicals and peroxides are allowed to roam free due to a deficency of the Glucose 6-P dehydrogenase that then causes NADPH to not be produced?

Answer 95

Hemolysis of RBC

Inability of Hemegloblin to bind oxygen (due to change to F3 state of iron)

Question 96

What state does the Hb iron molecule need to be in to bind oxygen ?

Answer 96

Fe+2

Question 97

What state does the iron in Hemeglobin change to if free radicals are not controlled

Answer 97

it is oxidized to a met-hemoglobin molecule and changed to a Fe+3 that can not bind oxygen

Question 98

What is a Heinz body?

Answer 98

denatured hemoglobin in RBC (called met-Hb)that is caused by free radicals and peroxides

Question 99

______ with only one copy of the defective allele for Glucose 6-P dehydrogenase can present with problems in RBC related to food and certain drugs with poor NADPH production.

Answer 99

Females

Question 100

What type of disorder is Glucose-6-P dehydrogenase deficiency ?

Answer 100

X linked

Females can present with clinical symptoms if exposed to radical inducing compounds

Question 101

Jaundice comes from the degregation of _______ from the RBC with excessive accumluation

Answer 101

Heme

Question 102

In step one of RBC degradation, the Heme and Globin are separated and what happens to each?

Answer 102

1. Globin is the AA and is degraded back to AA pathway

2. Heme is converted to Bilirubin

Question 103

The conversion of Heme to Bilirubin occurs usually in the blood within a _______

Answer 103

macrophage

Question 104

Bilirubin is______ soluble, so it must be bound to _______ to circulate in the blood

Answer 104

Not

Albumin

Question 105

If the Bilirubin (insoluble version) or the soluble version Bilirubin Diglucuronide accumulates in the blood, it can cause ________

Answer 105

jaundice

Question 106

Under normal conditions , bilirubin-albumin will go to liver where it is combined with ________ to generate a more soluble compound that can be excreted in feces and urine.

Answer 106

UDP-Glucuronate

Question 107

What is Bilirubin called when it has been conjugated with UDP-glucuronate to be more soluble?

Answer 107

Bilirubin diglucuronide

Question 108

What type of regulator is NADPH for Glucose 6-P Dehydrogenase ?

Answer 108

Allosteric effector (negative- too much NADPH will inhibit the enzyme)