Toxicology of Antivirals

Question 1

What are the main differences btw bacteria and viruses?

Answer 1

• bacteria is extracellular, viruses are intracellular
• viruses rely on the host cell for most of their metabolism (bacteria depend on their own metabolic machinery)
• viruses are very diverse
• bacteria have many targets for chemotherapy- viruses have very few
• toxicity of antivirals is linked to their therapeutic mechanism- toxicity is independent of their therapeutic target

Question 2

What is the rate of toxicity with antiviral medications?

Answer 2

low rate

Question 3

Nucleoside analogs mimic the structure of _________

Answer 3

normal nucleosides

Question 4

What needs to happen to allow for nucleoside analogs to be active?

Answer 4

• must be phosphorylated by cellular or viral enzymes to nucleotides inorder to be active

Question 5

How do nucleoside analogs work?

Answer 5

-they compete with normal nucleosides for the viral polymerase or reverse transcriptase - incorporated into the viral DNA and stops the DNA replication

Question 6

Host polymerases are _____ sensitive and are usually able to proof read out analogs that are incorporated

Answer 6

less

Question 7

Phosphorylation of nucleosides is crucial for what?

Answer 7

to allow them to be incorporated into the DNA chain

Question 8

What confirmation of the nucleoside analogs causes toxicity to the mitochondria?

Answer 8

• the + confirmation- our mitochondria like this confirmation

Question 9

Does cidofovir need to be phosphorylated to get into the cell?

Answer 9

NO

Question 10

What enzyme is typically involved in the inhibition of DNA repair?

Answer 10

• polymerase beta

Question 11

What is the role of polymerase gamma?

Answer 11

• aids in mitochondrial DNA synthesis
• polymerase gamma- does not have proofreading activity
• not able to remove things once they’re incorporated

Question 12

What is the action of TK-1 enzyme?

Answer 12

phosphorylates nucleosides and nucleoside analogs

Question 13

What is the action of TK-2 enzymes?

Answer 13

TK isoenzymes found in the mitochondria - most abundant species of TK

Question 14

What are some of the manifestations of mitochondrial toxicity?

Answer 14

1. Hepatotoxicity
2. Peripheral neuropathy
3. Central neuropathy
4. Myopathies

Question 15

Explain the hepatotoxicity involved in antiviral toxicities

Answer 15

1. Hepatotoxicity
   - loss of mitochondrial fx in liver cell causes reduced aerobic metabolism and liver cell damage
   - s/s: hepatitis, fatty liver and alteration of lipid metabolism, lactic acidosis, death

Question 16

Explain the peripheral neuropathies involved in antiviral toxicities

Answer 16

• pathogenesis: shortage of energy for transmission of action potential along myelinated axons
• s/s: dysestesia (tingling, burning sensation) starting in the feet, loss of sensation and reflexes, spontaneous pain

Question 17

Explain the myopathies that are involved in antiviral toxicities?

Answer 17

• pathogenesis: loss of mitochondrial in muscles causes loss of contraction strength and disruption of muscle architecture
• s/s: weakness, fatigue, cardiomyopathy (loss of contractility, enlargement of heart)

Question 18

What is the mechanism in which bone marrow suppression is thought to work?

Answer 18

• caused by inhibition of DNA polymerases n bone marrow precursor cells

Question 19

AZT affects mostly in _____ series in bone marrow supp/

Answer 19

erythroid

Question 20

Ganciclovir causes what with regard to bone marrow suppression?

Answer 20

• anemia, myelosuppression, trombocytopenia

Question 21

What antiviral causes serious hypersensitivity of immunological origin?

Answer 21

• abacavir

Question 22

What antiviral causes serious tubular renal toxicity?

Answer 22

• cidofovir

- tenofovir

Question 23

What medications are considered NNRTIs?

Answer 23

• nevirapine
• efavirenz
• delaviridine

Question 24

What is the MOA of NNRTIs?

Answer 24

• bind the reverse transcriptase or polymerase at sites other than the nucleoside-triphosphate binding site
• binding results in the distortion of the polymerase, which becomes unable to catalyze DNA elongation

Question 25

NNRTIs are _________ inhibitors

Answer 25

non-competitive

Question 26

What is the toxicity of NNRTIs?

Answer 26

• usually mild
• rash and hypersensitivity are common, also dyslipidemia
• ALSO can be psychiatric problems, dizziness, hepatic problems, etc

Question 27

What is the MOA of PIs?

Answer 27

• inhibit HIV protease in a very specific manner

Question 28

Why can’t you give PI’s are mono therapy?

Answer 28

• they rapidly cause onset of resistant viruses if given alone
• NOT very toxic

Question 29

What is the “designer drug” of the PIs

Answer 29

saquinavir

Question 30

What are the s/s or cardiovascular disease and PIs

Answer 30

• redistribution of fat - called the buffalo hump, peripheral wasting, lipodystrophy
• dyslipidemia- increase in serum lipids, increase risk of HD
• high cholesterol, high TG

Question 31

PI increase the risk of ____ disease? Specifically what?

Answer 31

• cardiovascular
• myocardial infarction (increases risk by 16% per year of tx) - NNRTI does not have the same increase in TG and cholesterol

Question 32

What is the combo of drugs usually used as anti-retroviral tx?

Answer 32

• INSTI (1) and NRTIs (2)

Question 33

What are the 2 drugs that can cause an AKI?

Answer 33

indinavir and tenofovir

Question 34

What is HIV associated neuropathy caused by?

Answer 34

• caused by the HIV infection directly

Question 35

What is the grouping of sx caused by abacavir hypersensitivity?

Answer 35

• fever
• rash
• GI
• constitutional
• respiratory

Question 36

Hypersensitivity to abacavir is linked to what?

Answer 36

• specific HLA alleles (HLA-B*5701 in particular)

Question 37

What is acyclovir used for?

Answer 37

• herpes simplex virus

- varicella- zoster

Question 38

What is the triple specificity of acyclovir?

Answer 38

1) phosphorylated exclusively by herpes thymidine kinase
2) strong specificity for viral DNA polymerase
3) cellular polymerases proofread acyclovir out of the DNA, but viral polymerases cannot

Question 39

What is the MOA of ganciclovir?

Answer 39

• ganciclovir is incorporated into the DNA (not a good chain terminator) and the subsequent attempts at repair cause DNA strand breaks and apoptosis

Question 40

What are the main SE of bone marrow toxicity?

Answer 40

• aplastic anemia
• neutropenia
• trombocytopenia

Question 41

What is more toxic- ganciclovir and acyclovir?

Answer 41

• ganciclovir

Question 42

What is hepatitis C?

Answer 42

• an RNA virus replicated by an RNA/RNA polymerase

Question 43

What is the historical treatment of hepatitis C?

Answer 43

• ribavirin (inhibits viral replication)
• pegylated interferon 2 alpha
  (double tx boosts the immune system)

Question 44

What is the toxicity of direct acting antivirals?

Answer 44

• rash
• nausea
• fatigue
• headache

Question 45

What is the MOA of ribavirin?

Answer 45

• competitive inhibitor of IMP dehydrogenase and therefore of de novo synthesis of GTP and dGTP
• inhibitor of viral guanylyltransferase of HCV (reduces viral RNA capping)
• incorportated and acts as a mutagen for RNA viruses (mutation catastrophe)
• direct inhibition of viral RNA/RNA polymerase
• shift toward Th1 response

Question 46

What is the main toxicity of ribavirin?

Answer 46

• hemolytic anemia (27% of patients)
• • ribavirin phosphates accumulate in erythrocytes, because they lack the phosphatases to hydrolyze
• • depletion of normal high energy phosphates
• -sensitivity to oxidative damage
• • haemolysis and enhanced clearance of erythrocytes