Antifungal (MC) - Block 3

Question 1

How are fungi similar to mammalian cells?

Answer 1

1. Eukaryotic
2. Biochemical structures and cell membranes
3. DNA is organized into chromosomes in the cell nucleus containing distinct cytoplasmic organelles
4. Share similar mechanisms for DNA replication and protein synthesis

Question 2

What is the major sterol of fungi?

Answer 2

Ergosterol through 14-reductase

Question 3

How does ergosterol differ from cholesterol?

Answer 3

Additional double bonds hive the structure flexible rigidity

Question 4

What is the primary sterol in mammals?

Answer 4

Cholesterol

Question 5

Disruption of protein/carb matrix in a defective cell wall leads to?

Answer 5

Cells become sensitive to osmotic lysis similar properties to antimicrobial cell wall inhibitors

Question 6

What are the types of fungal infections?

Answer 6

1. Superficial mycoses (Dermatophytoses)
2. Deep seated mycoses (systemic mycoses)

Question 7

Dermatophytoses activity?

Answer 7

Capable of digesting keratin of the skin

Question 8

How do superficial mycoses differ from systemic?

Answer 8

Non-contagious unless immunocompromised and neonates

Question 9

Why are glucan synthesis inhibitors safe?

Answer 9

No analogous mammalian cell wall structure (no harm to human cells)

Question 10

What is the target for glucan synthesis inhibitors?

Answer 10

b1,3-glucan synthase

Question 11

What are the types of echinocandins?

Answer 11

Fungicidal against yeast (Candida)
Fungistatic against mold (Aspergillus)

Question 12

What are the therapeutic uses for echinocandins?

Answer 12

1. Broad range (especially against all candida)
2. Used in azole resistant candida
3. Low toxicity
4. Better than Amphotericin B and fluconazole against yeast infection

Question 13

Where does echinocandin B derive from?

Answer 13

Precursor of Anidulafungin -> effective against A. nidulans

Question 14

Types of echinocandins?

Answer 14

1. Caspofungin
2. Micafungin
3. Anidulafungin

Question 15

Indication of caspofungin?

Answer 15

1. EMpiric
2. Treatment of invasive aspergillosis and Candida

Question 16

Indication of micafungin?

Answer 16

Treatment of candidemia and prophylaxis

Question 17

How does lipophilicity contribute to echinocandin activity?

Answer 17

Long lipophillic tail: hemolytic in vitro (insertion into cell membrane)
Short lipophillic tail: loss of activity
LogP >3.5: antifungal

Question 18

What enzymes are targeted by ergosterol synthesis drugs?

Answer 18

1. Squalene epoxidase
2. 14a-demethylase
3. Δ14-reductase (not approved)
4. Δ7, Δ8 isomerase (not approved)

Question 19

What is ERG1?

Answer 19

Squalene metabolized by squalene epoxidase to squalene epoxide

Question 20

What is ERG11?

Answer 20

Lanosterol’s C14 become dimethylated by C14-demethylase

Question 21

What is ERG24?

Answer 21

d14-reducase reduces structure

Question 22

What is ERG2?

Answer 22

C8-isomerase shifts 8-9 alkene

Question 23

What is the SAR of squalene epoxidase inhibitors?

Answer 23

Allylamine

Question 24

Activity of squalene epoxidase inhibitor?

Answer 24

Narrow spec and only effective against nail and skin dermatophytes

Question 25

Are there selectivity issues of squalene epoxidase inhibitors?

Answer 25

Enzyme is present in mammalian cholesterol pathways, but have lower affinity for these agents and most are used topically

Question 26

What is the major functional group for squalene epoxidase inhibitors?

Answer 26

Allyl amine

Question 27

What are the types of squalene epoxidase inhibitors?

Answer 27

1. Naftifine
2. Terbinafine
3. Butenafine
4. Tolnaftate

Question 28

Describe the activity of 14α-demethylase Inhibitors?

Answer 28

CYP450 enzyme that are present in mammalian cholesterol pathway
* High probability of CYP450 interactions

Question 29

Describe the binding of 14α-demethylase Inhibitors?

Answer 29

Azole drug binds to Fe in place of histidine -> CYP can no longer bind/carry molecular O2 effectively inhibiting the enzymatic process

Question 30

How are all CYP enzymes structurally similar?

Answer 30

Contains a heme cofactor coordinating molecular O2

Question 31

Describe the activity of azoles based on its structure?

Answer 31

Chain mimics sterol scaffold
Azole bind to Fe

Question 32

SAR of azole?

Answer 32

1. 1,2, 4- triazole with pKa of 6.5-6.8 (charged at vaginal pH)
2. N3 of imidazole and N4 of imidazole of triazole binds to P450 iron
3. Most active ones have 2-3 aromatic rings, one can be substituted with halogens or nonpolar group (most have fluorine)

Question 33

Target of azole

Answer 33

14a-demethylase

Question 34

Types of azoles?

Answer 34

1. Clotrimazole
2. Butoconazole
3. Econazole
4. Miconazole
5. Ketoconazole
6. Itraconazole
7. Posaconazole
8. Fluconazole
9. Voriconazole

Question 35

DDI of ketoconazole?

Answer 35

Potent CYP3A4 inhibitor

Question 36

What isavuconazonium sulfate?

Answer 36

Systemic prodrug formulation (enhanced solubility) used for the tx of aspergillosis and candidiasis

Question 37

Examples of Δ14 reductase inhibitor? Indication?

Answer 37

Amorolfine: treatment of dermatophytosis

Question 38

Examples of Δ7, Δ8-Isomerase Inhibitors

Answer 38

Amorolfine

Question 39

What are the groups of polyene membrane disrupters?

Answer 39

A 26-member ring: Natamycin
A 38-member ring: Amphotericin B and Nystatin

Question 40

Polyene MOA?

Answer 40

Binds to ergosterol -> formation of pores:
* Increase permeability to proteins and monovalent and divalent cations
* Eventual cell death

Attach with higher affinity to ergosterol over cholesterol membranes

Question 41

Describe the toxicity of polyene specifically amphotericin B?

Answer 41

Amphotericin B: may induce oxidative damage in fungal cells
* At higher concentrations, amphotericin B binds to cholesterol in mammalian cell membranes
* Nephrotoxicity

Question 42

Describe the binding of amphotericin B? SAR?

Answer 42

H-bond between hydroxyl, carbonyl, and amino groups of the drug and membrane making the channel stable:

Question 43

Inidication for amphotericin B?

Answer 43

Lethal fungal infections such as coccidimycosis and histoplasmosis:
* Systemic infection
* Admin intrthecally to get into the CNS

Question 44

How does nystatin compare to amphotericin?

Answer 44

1. 38 membered ring
2. No systemic absorption
3. Toxic when given IV
4. MOA is same as amphotericin

Question 45

Indication for nystatin?

Answer 45

Dermal and GI infections from Candida albicans

Question 46

What is natamycin?

Answer 46

26-membered macrolactone, MOA is similar to amphotericin B
* Topical as cream, eyedrop, lozenge
* No systemic absorptio

Question 47

What polyene is given IV?

Answer 47

Amphotericin B

Question 48

What are DNA and protein syntheis difficult targets for selective toxicity?

Answer 48

Fungal cells share similar homology in DNA replication and RNA translation with mammalian cells

Question 49

What enzyme is responsible for flucytosine transport?

Answer 49

Cystosine permease that converts drug to 5-fluorouracil (5-FU) in the cytoplasm

Question 50

That is the toxic form of flucytosine?

Answer 50

5-FdUMP that traps thymidylate synthase and folate

Question 51

MOA of flucytosine?

Answer 51

5-FU is phosphorylated and incorporated into RNA -> miscoding and halts protein syntheis
* Inhibits DNA synthesis through thymidylate synthetase

Question 52

MOA of griseofulvin?

Answer 52

Inhibits fungal cell mitosis by disrupting mitotic spindle formation (critical for cellular division)

Question 53

Indiation for griseofulvin?

Answer 53

Dermatophytes:
* Enters in the structure of the precursors of keratin
* Doesn’t have local activity (not topical)

Question 54

Fatty acid product that is a natural antifungal?

Answer 54

Sebum