Pharmacology-Host & Defense

Question 1

What are the 5 classes of antimicrobials?

Answer 1

1. Cell wall synthesis inhibitors
2. Protein synthesis inhibitors
3. Nucleic Acid inhibitors
4. Metabolism inhibitors

Question 2

What are the main cell wall synthesis inhibitors for antimicrobials?

Answer 2

Beta-lactam antibiotics (penicillin, carbapenem, cephalosporins, monobactams) and Vancomycin/Daptomycin/Polymixin B
-They work through the beta-lactam ring and interfering with transpeptidation reaction that seal the peptide cross-links between glycyn chains, they target PBP’s. But penicillases and beta-lactamases render them useless. Use a beta-lactam or 3rd generation ceph for CAP. Use Oral Penicillin V for pharyngitis, there has never been a case of resistance.

Question 3

Which generation of cephalosporin enters the CNS?

Answer 3

3rd generation (ceftriaxone, cefotaxime). You use 3rd generation for gonococcus, pseudomonas, anaerobes, meningitis, gonorrhea, etc. You can use these for CAP.

Question 4

Cephalosporins

Answer 4

Main toxicities are hypersensitivity reactions, toxicity of aminoglycosides, toxic with alcohol.

Question 5

Beta-lactamase inhibitors

Answer 5

Like taxobactim, clavulonic acid, they help beta-lactams work better, they are suicide inhibitors, they are hydrolyzed by beta-lactamases for the antibiotics, so you add them with penicillin.

Question 6

Vancomycin

Answer 6

Super toxic, effective against MRSA and C. diff. They depolarize bacterial cell-wall membrane, disrupt osmotic gradient, binding to D-ala. You get Red-Man Syndrome (severe flushing and rashes) as well as rhabdomyolysis. Along these lines, Daptomycin depolarizes the bacterial cell membrane, and Polymixins disrupts the osmotic gradient of the cell wall.

Question 7

What are the main protein synthesis inhibitors for bacteria?

Answer 7

Buy AT 30, CCEL at 50. Numbers referring to ribosomal unit. A = aminoglycosides, T = tetracyclines, C = clindamyacin, C = Clarithromycin, E = Erithromycin, L = Linezolid. Aminoglycosides has frequent renal and oto-toxicity.

Question 8

Clindamycin

Answer 8

Associated with C. diff overgrowth when used sometimes. It is a macrolide along with erythromycin. Use macrolides for atypical pneumonia.

Question 9

What are the main nucleic acid synthesis inhibitors for bacteria?

Answer 9

Fluoroquinolones, which include ciprofloxacin and levofloxadin. As well as metronidazole and nitrofurantoin. Fluoros are mostly for gram negatives. Metro is good for anaerobes.

Question 10

Fluoroquinolones

Answer 10

They inhibit DNA gyrase, toxicity includes tendonitis and tendon ruptures. Fluo got tendonitis trying to outrun a Flox. Use fluos for atypical pneumonia.

Question 11

Metronidazole

Answer 11

Associated with C. diff overgrowth, it has free radicals that damage DNA, that is how it works.

Question 12

Nitrofurantoin

Answer 12

Macrobid, damage DNA, helps kill E. coli in UTIs.

Question 13

What are the main inhibitors of metabolism for bacteria?

Answer 13

Sulfonamides, TMP/SMX. Toxicity of these includes hemolysis if patient is G6PD deficient.

Question 14

Rifampin

Answer 14

Drug used to treat leprosy and meningococcal infections. Inhibits DNA-dependent RNA polymerase, you can get red-orange body fluids.

Question 15

Two main anti-pseudomonal antibiotics?

Answer 15

Pipercillin and Tazobactam

Question 16

Beta-lactamases inactivate beta-lactam antibiotics. What inactivates aminoglycosides and macrolides?

Answer 16

Adenylases and Esterases.

Question 17

What are the 4 different classes of antifungals?

Answer 17

1. Membrane Function
2. Ergosterol Synthesis
3. Nucleic Acid Synthesis
4. Cell Wall Synthesis

Question 18

What are the two main drugs that target membrane function of fungi?

Answer 18

Amphotericin B and Nystatin. They are both polyenes, they bind to Ergosterol and form a pore that dirsupts membrane, allowing potassium to be lost and causing cell death. Toxicities include shake and bake syndrome, and 90% of people have renal effects of amphotericin B.

Question 19

What are the main ergosterol synthesis inhibitors for fungi?

Answer 19

Azoles, like fluconazole, ketoconazole, clotrimazole, and allylamines, they target the 14alpha-demethylase. Treat athles foot, candida. Fluconazole has good CNS penetration for fungal meninigitis. Terbinafine is the main allylamine. It inhibits squalene epoxidase in ergosterol synthesis. It is used for dermatophytes, but can be pretty hepatotoxic. Clotrimazole and nystatin can be used topically for vaginal candidiasis. Fluconazole is used as single oral dose usually effective for vaginal candidiasis.

Question 20

What are the main nucleic acid synthesis inhibitors for fungi?

Answer 20

Flucytosine, Griseofulvin. Flucytosine can have bone marrow suppression, and griseofulvin can be carcinogenic. The activity of griseofulvin is limited to dermatophytes.

Question 21

What is the main cell wall synthesis inhibitor for fungi?

Answer 21

Capsofungin, by inhibiting beta-glucan synthase.

Question 22

What are the main DNA viruses?

Answer 22

Adenovirus, Poxvirus, Herpes Virus, HPV.

Question 23

What helps block viral attachment and entry into a cell?

Answer 23

Entuvirtide, used for HIV.

Question 24

What helps block penetration of the mammalian cell once the virus is inside in the cytoplasm?

Answer 24

Interferon-alpha, which is used for HBV and HCV.

Question 25

What helps block uncoating of virus inside the cell?

Answer 25

Amantidine, binds to a protein M2, for influenza A, but not B.

Question 26

What helps block nucleic acid synthesis of virus in cell?

Answer 26

Acyclovir, used for HSV, and Foscarnet, used for CMV. With acyclovir you can get crystalline nephropathy. For genital herpes, three drugs are good with HSV. Acyclovir, foscarnet and trifluridine are active against strains of HSV. Foscarnet is not used in genital infections (HSV2) because it has poor oral bioavailability and trifluridine is used topically. So Acyclovir is best for oral dose.

Question 27

What helps block late protein synthesis and processing of a virus?

Answer 27

Protease inhibitors, used for HIV.

Question 28

What helps block the release of a virus from a cell?

Answer 28

Neuraminidase inhibitors like Osetlamivir (tamiflu), used for influenza A and B. The viral enzymes cleave sialic acid residues allowing for the viral release from the cell, so these antivirals stop these enzymes from doing so.

Question 29

What are the three eicosanoids?

Answer 29

1. prostanoids
2. Leukotrienes
3. Lipoxins (anti-inflammatory)

Question 30

What are the three prostanoids?

Answer 30

1. prostacyclins
2. prostaglandins
3. thromboxanes

Question 31

Name and describe the two main enzymes that help break down arachidonic acid:

Answer 31

Cox-1 and Cox-2. Cox-1 maintains balance of COX metabolites and is responsible for normal GI function. The expression of Cox-2 can be induced by pro-inflammatory stimuli like LPS, cytokines, growth factors. You can get peptic ulcers because of lack of mucous when you use NSAIDS, because PGE2 and I2, which come from Cox-1, help secrete mucous.

Question 32

Which enzymes do NSAIDS and Ibuprofen target?

Answer 32

They are non-selective for both Cox-1 and Cox-2. Can cause GI pain and nephrotoxicity. Linked with Stevens-Johnson syndrome.

Question 33

Which enzymes does Celebrex target?

Answer 33

It is selective for Cox-2, and this is good because there is less of a risk of a GI problem, but you can have heart issues with celebrex.

Question 34

How does aspirin work?

Answer 34

It works by irreversibly inactivating Cox-1 and Cox-2, and inhibits platelet aggregation. Is associated with postviral encephalitis (Reye’s syndrome) in kids. Aspirin can also cause Aspirin Exacerbated Respiratory Disease. Aspirin inhibits the formation of prostaglandins. PGEs (anti-inflammatory) inhibits/regulates the production of leukotrienes, so we end up getting too much leukotriene and causes excessive inflammatory responses.

Question 35

How does acetaminophen work?

Answer 35

It inhibits Cox-2 in the CNS, and is well tolerated.

Question 36

What is PGE1 used for when it is given?

Answer 36

It helps maintain the ductus arteriosus open in infants to help with PDA, can also help with ED, erectile dysfunction. Is also given to help induce contractions as misoprostol and is used to induce abortions.

Question 37

What is PGE2 used for when it is given?

Answer 37

You can treat glaucoma with it to increase outflow of aqueous humor, and dysmenorrhea is caused by increased endometrial synthesis of PGE2 so you can give NSAIDS to help with menstruation.

Question 38

How to relieve bronchoconstriction with drugs affecting eicosanoids?

Answer 38

You can use Zileuton, which inhibits lipoxygenase, so it inhibits leukotrienes (which are pro-inflammatory and too much can cause like asthma). Leukotriens are potent constrictors of airway smooth muscles. Also, montelukast inhibits CYSLT1 receptors to help with asthma.

Question 39

What are the four classes of immunosuppressants?

Answer 39

1. Glucocorticoids
2. Calcineurin inhibitors
3. Antimetabolites/Anti-proliferative agents
4. Biologicals (antibodies)

Question 40

What is the main drug with glucocorticoids with immunosuppressants?

Answer 40

Prednisone. It blocks cytokine activation by binding to corticosteroid response elements. Associated with cushings syndrome, hyperlipidemia, hyperglycemia, hypertension.

Question 41

What are the two main calcineurin inhibitors with immunosuppressants?

Answer 41

1. Cyclosporine and 2. Tacrolimus. Cyclosporine works by blocking calcineurin, which usually dephosphorylates NFAT to make it active, which is essential to make IL-2, which is essential for T cells. Tacrolimus binds with FK-binding protein, and this complex inhibits calcineurin as well. Cyclosporin is lipophilic, and depends on bile for absorption. Cyclosporin is also associated with gingival hyperplasia.

Question 42

What are the three main drugs associated with antimetabolites/anti-proliferative agents in immunosuprresion?

Answer 42

1. Azathioprine
2. Mycophenolic acid derivatives (MPA)
3. Sirolimus (rapamycin)
   - Immunosuppressants are usually never given as a single drug, they are usually combined with several in order to minimize side effects and they have different mechanisms that work together.
   - Sirolimus binds to mTOR, which inhibits T cell proliferation in response to IL-2.
   - Azathioprine and MPA are associated with myelosuppression, while sirolimus is associated with anemia, hyperlipidemia, and leukopenia.

Question 43

What are the main drugs that are antibodies and biologicals given for immunosuppression?

Answer 43

1. Daclizumab
2. Basiliximab
3. Belatacept (I think this is like CTLA4-Ig
   - The first two above are antibodies that bind to and inhibit CD25 (IL-2alpha) on T cells
   - I think Belatacept is like CTLA4-Ig because it binds and blocks B7 on APC’s so they can’t interact with CD28.