Heme Biosynthesis

Question 1

Formed by linking 4 pyrole rings

Answer 1

Heme

Question 2

What are the three types of side chains that can be attached to the pyrrole ring?

-arangment of side chains is important to activity

Answer 2

Methyl, vinyl, or propionate

Question 3

What are the major components of Heme?

Answer 3

1. ) 4-linked pyrrole
2. ) 3 types of side chain
3. ) Prosthetic group for proteins (tightly-bound cofactor)
4. ) Chelated Fe2+

Question 4

Heme produced in the liver is used mainly for the synthesis of the

Answer 4

cytochrome P450 class of enzymes

Question 5

Responsible for phase I liver detoxification and for detoxifying xenobiotic sources of toxicity, chemicals, acohols, and carcinogens

Answer 5

Liver Cytochrome P450

Question 6

When liver Cytochrome P450 detoxifies xenobiotic sources of toxicity, chemicals, acohols, and carcinogens, what does it convert them into?

Answer 6

Water and Oxygen

Question 7

What is responsible for bilirubin metabolism, synthesis of vitamin D, cholesterol synthesis, and synthesis of bile and bile acids?

Answer 7

Liver Cytochrome P450

Question 8

What are the porhpyrin precursors and what are their characteristics?

Answer 8

Aminolevulinate(ALA) and Porphobilinogen (PBG)

• water soluble
• excreted and measured in urine
• biologically inactive

Question 9

Larger molecules whose aqueous solubility varies in part based on the number of carboxylic acid side chains in the molecule

Answer 9

Porphyrinogens

Question 10

Are porphyrinogens biologically active?

Answer 10

Yes

Question 11

Excreted in urine

Answer 11

Uroporphryinogen

Question 12

Much less water soluble than uroporphyrinogen and is excreted in the feces as well as in urine

Answer 12

Coproporphyrinogen

Question 13

Excreted and measured in feces

Answer 13

Stercoporphyrinogen

Question 14

Molecules detected and measured in clinical laboratories

-Oxidized

Answer 14

Porphyrins

Question 15

The oxidation of porphyrins creates an extended conjugation system that allows the molecules to

Answer 15

Absorb visible light

Question 16

Oxidation of porphyrins in the cell is dangerous because the release of the absorbed light produces

Answer 16

Reactive oxygen species

Question 17

Heme biosynthesis takes place in the

Answer 17

Cytoplasm and mitochondria

Question 18

How many enzymes catalyze heme biosynthesis?

Answer 18

8

Question 19

The first and last two steps of heme biosynthesis take place in the

Answer 19

Mitochondria

Question 20

What have the highest rates of heme biosynthesis?

Answer 20

Bone marrow erythroid cells and the liver

Question 21

85% of heme is synthesized in

Answer 21

Bone marrow erythroid cells

Question 22

85% of heme is synthesized in bone marrow erythroid cells because

Answer 22

Mature RBC’s lack mitochondria, thus heme synthesis stops upon maturity

Question 23

Mitochondira are progressively lost throughout erythroid maturation through

Answer 23

Autophagy

Question 24

What is the committed step of heme biosynthesis?

Answer 24

Step 1:

Succinyl CoA + Glycine —> delta ALA

Question 25

The committed step of Heme biosynthesis is catalyzed by?

Answer 25

ALA synthase (ALAS 1 (liver) and ALAS 2 (erythroid cells))

Question 26

What happens in the first step of Heme biosynthesis?

• Committed step
• Highly regulated

Answer 26

δ-ALA is formed in the mitochondria and transported to the cytoplasm

Question 27

In the second step of Heme biosynthesis, 2 molecules of ALA condense to form

Answer 27

Porphobilinogen (PBG)

Question 28

The second step of heme biosynthesis is catalyzed by

-Zinc containing enzyme

Answer 28

ALA dehydratase (PBG synthase)

Question 29

ALA dehydratase is inhibited by?

Answer 29

Lead

Question 30

The first precursor to pyrrole is synthesized in the

Answer 30

2nd step

Question 31

In the third step of heme biosynthesis, 4 molecules of PBG are joined into an extended linear tetrapyrrole (hydroxymethylbilane). This reaction is catalyzed by?

Answer 31

PBG deaminase

Question 32

Once synthesized, hydroxymethylbilane has what two main fates?

Answer 32

1. ) Converted to Uroporphyrinogen III (URO III Synthase) then to Coproporphyrinogen III (URO III decarboxylase)
2. ) At high concentrations, a spontaneous reaction occurs converting it to URO 1 and then COPRO 1

Question 33

Catalyzes an intramolecular rearrangement and ring closure

Answer 33

URO III synthase

Question 34

Following a series of decarboxylation and oxidation reactions, Coproporphyrinogen III is converted into

Answer 34

Protoporphyrin IX

Question 35

Protoporphyrin IX is converted into Heme by

Answer 35

Ferrochelatase

Question 36

A mitochondrial enzyme that adds an Fe2+ to protoporphyrin IX to form Heme

Answer 36

Ferrochelatase

Question 37

Ferrochelatase is inhibited by

Answer 37

Lead

Question 38

What are the three porphyrins generated in heme biosynthesis (and where are they excreted)

Answer 38

1. ) Uroporphyrin (urine)
2. ) Coproporphyrin (Urine and bile)
3. ) Protoporphyrin (Bile)

Question 39

Water solubility decreases due to decarboxylation steps as the pathway progresses towards heme. Thus excretion progresses from

Answer 39

Urine (uroporphyrin: 8 carboxylates) to bile (protoporphyrin: 2 carboxylates)

Question 40

What are the three mechanisms of regulation of ALAS 1 (the committed step enzyme) in the liver?

Answer 40

1. ) Allosteric feedback
2. ) Inhibition of newly synthesized ALAS from cytosol to mitochondria
3. ) Repression of transcription of ALAS

Question 41

What provides allosteric feedback to regulate ALAS 1 in the liver?

Answer 41

Heme, Hemin, and hematin

*pharmologically by stable forms of heme

Question 42

What inhibits the newly synthesized ALAS protein transport from cytosol to mitochondria?

Answer 42

Heme

Question 43

What represses the transcription of ALAS?

Answer 43

Heme, Glucose, and Insulin

Question 44

What serves as an activator to induce ALAS-1 transcription?

-a coactivator of nuclear receptors and transcription factors

Answer 44

Peroxisome proliferator-activated receptor ƴ coactivator 1α (PGC-1α )

Question 45

Inhibit PCG-1α, thereby inhibiting ALAS transcription

Answer 45

Heme, Insulin, and Glucose

Question 46

What are the “4M’s” that induce transcription of ALAS 1?

Answer 46

1. ) Medication
2. ) Menstruation
3. ) Malnutrition
4. ) Maladies (stress, trips, exams)

Question 47

Certain medications are metabolized by cytochrome P450 enzymes, which are hem-containing proteins. What effect then do certain drugs have on heme synthesis?

Answer 47

Induce the synthesis of cytochrome P450, thus leading to an increased demand for heme

Question 48

The increased demand for heme caused by induced synthesis of Cytochrome P450 leads to

Answer 48

An overall decrease of heme in the liver and subsequent transcription of ALAS synthase and heme synthesis

Question 49

Low iron cellular content through and iron response element sequence (IRE) results in the

Answer 49

Repression of translation of ALAS2

Question 50

Describe how low iron cellular content through an IRE represses transcription

Answer 50

The IRE forms a translational blockade that prevents iron from binding translational machinery

Question 51

ALAS 1 catalyzes the first step of heme synthesis in the

Answer 51

Liver

Question 52

ALAS 2 catalyzes the first step of heme synthesis in the

Answer 52

Erythroid cells

Question 53

What are three abnormalities in Heme synthesis

Answer 53

1. ) Sideroblastic anemia
2. ) Lead (Pb) poisoning
3. ) Porphyias

Question 54

Heterogeneous group of disorders with 2 common features

Answer 54

Sideroblastic Anemia

Question 55

What are the two common features of sideroblastic anemia?

Answer 55

1. ) Ring sideroblasts in the bone marrow

2. ) Impaired heme biosynthesis

Question 56

Abnormal normoblasts with excessive accumulation of iron in the mitochondria

Answer 56

Ring sideroblasts

Question 57

Results in mture red blood cells that are smaller than normal (microcytic) and appear pale (hypochromic) because of the shortage of hemoglobin

Answer 57

Sideroblastic anemia

Question 58

Sideroblastic anemia disturbs

Answer 58

Mitochondrial metabolism

Question 59

What is the major hereditary sideroblastic anemia and what is it’s etiology (cause)

Answer 59

Congenital X-linked sideroblastic anemia: caused by ALAS-2 mutation

Question 60

What are three ways to aquire sideroblastic anemia (SA)?

Answer 60

1. ) Drugs (isoniazid for tuberculosis or ethanol)
2. ) Toxins (lead)
3. ) Nutritional (pyridoxine deficiency)

Question 61

Lead inhibits which two key enzymes in heme synthesis?

Answer 61

ALA dehydratas(ALAD) and Ferrochelatase

Question 62

Which is more sensitive to the effects of lead, Ferrochelatase or ALAD

Answer 62

ALAD

Question 63

How can you treat lead induced sideroblastic anemia?

-bind lead and help it be excreted in urine

Answer 63

Lead chelators

Question 64

What is a moderate in severity presentation of lead poisoning?

Answer 64

Gingival and long bone lead lines

Question 65

What is a more sever consequence of lead poisoning?

Answer 65

Renal failure

Question 66

What are three ways we can diagnose lead poisoning?

Answer 66

1. ) Accumulation of ALA in urine
2. ) Zinc protoporphyrin (ZPP) in the blood
3. ) Basophilic stippling in peripheral smear

Question 67

The accumulation of ALA in the urine, which indicates lead poisoning, is due to

Answer 67

ALAD inhibition

Question 68

The presence of Zinc protoporphyrin (ZPP) in the blood, which indicates lead poisoning, is due to the fact that

Answer 68

In the absence of iron, iron can not be chelated into protoporphyrin IX, so Zn substitutes for Fe

Question 69

Pathologies stemming from defects in heme biosynthesis

Answer 69

Porphyrias

Question 70

Most porphyrias behave as

Answer 70

Autosomal dominant genetic diseases

Question 71

What are three porphyrias in heme biosynthesis and which steps do they occur?

Answer 71

1. ) Acute intermittent porphyria (step 3)
2. ) Porphyria cutanea tarda (step 5)
3. ) Erythropoietic protoporphyria (step 8)

Question 72

Clinical presentations of Porphyrias differ. They could be presented by a deficient

Answer 72

Enzyme

Question 73

The accumulation of heme biosynthesis intermediates such as ALA and PBG could indicate

Answer 73

Acute Porphyria

Question 74

Accumulation of porphyrinogens in the skin and tissues could indicate

Answer 74

Non-acute porphyria

Question 75

The second most common type of porphyria

Answer 75

Acute intermittent Porphyria (AIP)

Question 76

Acute intermitent Porphyria (AIP) is caused by a

Answer 76

Partial deficiency in PBG deaminase (PBGD)

Question 77

The accumulation of ALA and/or PBG can result in peripheral neuropathy and nerovisceral symptoms, which indicate

Answer 77

Acute intermittent Porphyria (AIP)

Question 78

Unlike other porphyrias, AIP does not result in

Answer 78

Skin lesions

Question 79

Only 10% of people with AIP develop disease, but all are at risk for

Answer 79

Primary liver cancer

Question 80

Clinical expression of AIP occurs in response to 4Ms that decrease the livers concentration of

Answer 80

Heme

Question 81

What is the consequence of the decrease in cellular levels of heme seen in AIP?

Answer 81

Feedback inhibition on ALA synthase is reduced, resulting in more heme biosynthesis

Question 82

With AIP, your urine becomes a dark-brown color. This is the result of

Answer 82

PBG in urine which gets oxidized to porphobilin upon being exposed to air

Question 83

What are three treatment options for AIP?

Answer 83

1. ) Avoid precipitating factors (4Ms)
2. ) Glucose loading
3. ) Administer HEmin/Hematin (inhibit ALAS synthase)

Question 84

What is the most common type of Porphyria?

Answer 84

Porphyria cutanea tarda (PCT)

Question 85

PCT results from a deficiency of the hepatic enzyme

Answer 85

Uroporphyrinogen decarboxylase (UROD)

Question 86

Essentially an aquired disease, but some individuals have a genetic (autosomal dominant) deficiency of UROD, which contributes to its development

Answer 86

Porphyria cutanea tarda (PCT)

Question 87

Genetic PCT is referred to as

Answer 87

Familial PCT

Question 88

The clinical onset of PCT typically occurs during the

Answer 88

4th or 5th decade of life

Question 89

What types of factors can influence the expression of UROD and subsequently cause PCT?

Answer 89

Alcohol, Hepatic iron overload, sunlight, hep B or C, hydrochlorobenzene

Question 90

What are some symptoms of PCT?

Answer 90

1. ) Bullae
2. ) Hypertrichosis
3. ) Heliotropic facial skin
4. ) sclerodermoid plaque on scalp

Question 91

Blisters filled with clear fluid

Answer 91

Bullae

Question 92

Purple-red suffusion facial skin

Answer 92

Heliotrope facial skin

Question 93

Tiny white bumps or small cysts on the skin which can also represent PCT

Answer 93

Milia

Question 94

What causes one of the major signs and symptoms or porphyrias: photosensitivity?

Answer 94

The ring shaped intermediates which are reactive w/ light and form oxygen radicals

Question 95

Leads to local tissue damage (on sun exposed skin) including itching and burning sensations and rash-like appearance

Answer 95

Photosensitivity caused by porphyrias

Question 96

One of the ways to detect PCT is through the coral red fluoresence of urine, caused by

Answer 96

Uroporphyrin to cproporphyrin ratios ranging from 3:1 to 5:1

Question 97

To detect PCT, the fractionation of serum porphyrins can be performs. What would indicate PCT?

Answer 97

A predominance of 7-8 carboxyl porphyrin fractions reflecting a UROD defect

Question 98

How can PCT be detected in red blood cells?

Answer 98

UROD enzyme activity assay

Question 99

What are two clinical treatments of PCT?

Answer 99

1. ) Chelation with an iron chelator

2. ) Phlebotamy (bleeding)

Question 100

Reduces iron stores, which improves heme synthesis disturbed by iron mediated inhibition of UROD

Answer 100

Phlebotamy

Question 101

Erythropoetic Protoporphyria is caused by mutations in

Answer 101

Ferrochelatase

Question 102

Has an autosomal dominant inheritance and is present in early childhood

-indicated by severe cutaneous photosensitivity

Answer 102

Erythropoetic Protoporphyria (EPP)

Question 103

Later in life, EPP results in

Answer 103

Chronic liver disease

Question 104

Iron inhibits

-Causes PCT

Answer 104

UROD

Question 105

Which is the only Porphyria that can be acquired and is not genetic?

Answer 105

PCT

Question 106

Iron inhibits

-Causes PCT

Answer 106

UROD

Question 107

Which is the only Porphyria that can be acquired and is not genetic?

Answer 107

PCT

Question 108

What role does vitamin B6 provide in heme biosynthesis?

Answer 108

Vitamin B6 is a cofactors for ALAS

Question 109

Stimulates ALAS2 in erythroid cells

Answer 109

Iron

Question 110

When an enzyme of heme biosynthesis is inhibited, what is actually excreted and detected to show inhibition?

Answer 110

Porphyrins. The inhibition causes accumulation of porphyrinogen, which is oxidized to porphyrin and then excreted