GASTROINTESTINAL DISORDERS

Question 1

The Human Microbiota:
1) What does bacteria colonize
2) What are the 5 important functions of bacteria
3) What is an imbalance of gut microbiota associated with
4) How is bacteria better than human cells

Answer 1

1) Bacteria colonize skin, mouth, vagina, gut, etc.
- Mainly in large intestine
- Not as much in small intestine or in stomach

2)
- Maturation if the immune-system and gut physiology
- Synthesis of vitamins and metabolites
- Digestions of complex glycan derived from food (fibers)
- Protects from intestinal infection (such as C.difficile)
- Metabolism of xenobiotics due to different P450s

3) Implicated in several diseases

4) Bacteria has more metabolic potential than human cells
- Bacteria will synthesize vitamins and metabolites that we need
- Metabolize dietary fibers and give us energy in return
- Important in immune maturation

Question 2

Peptic Ulcer Disease (PUD)
1) What area of the GIT does this disease affect
2) What allows ulcers to form
3) What are other contributing factors for PUD

Answer 2

1) Upper GIT (stomach, duodenum, lower esophagus)

2) - Decreases barrier function
- Excess acid production

3) - Helicobacter pylori infection
- NSAIDs
- Stress, especially in patients with chronic illness

Question 3

Helicobacter pylori + Gastric Cancer:
1) Describe the study linking H. pylori infection and gastric cancer

Answer 3

1) 1994: 1630 participants infected with H. pylori
- Up to 26.5 years later after regular follow ups and endoscopic check ups
o RESULTS:
♣ Those with H. pylori eradication treatment had a decreased incidence of gastric cancer

Question 4

Helicobacter pylori + Gastric Cancer:
1) Describe the study linking H. pylori infection and gastric cancer

Answer 4

1) 1994: 1630 participants infected with H. pylori
- Up to 26.5 years later after regular follow ups and endoscopic check ups
o RESULTS:
♣ Those with H. pylori eradication treatment had a decreased incidence of gastric cancer

Question 5

Treatment of H. pylori Infection

Answer 5

• Patients with H. pylori infections require antimicrobial agents to prevent relapse of the infection and thereby ulcers
• DRUGS (used in combination)
  o Vonoprazen (PPI)
  o Amoxicillin (antibiotic)
  o Claithromycin (antibiotic)

Question 6

Gatroesophageal Reflux Disease (GERD)
1) What is GERD

2) What does GERD lead to

3) What is Barret esophagus

4) How is GERD commonly treated

Answer 6

1) Dysfunctional relaxation of the lower esophageal sphincter
- Allows the acidic gastric contents to reflux into the esophagus

2)
o Inflammation
o Ulcerations
o Bleeding
o Barret esophagus

3) Barret esophagus
♣ Cell lining of the upper GIT thickens
♣ Premalignant condition
* Acid stress can easily develop into cancer

4)
o PPI
o H2 histamine receptor antagonists
o Drugs that increase the tone of the lower esophageal sphincter
♣ DA receptor antagonists

Question 7

Antisecretory Drugs:
1) What is the direct pathways of antisecretory drug action

2) What is the indirect pathways of antisecretory drug action

3) What are ECL cells

4) Where and what are parietal cells

Answer 7

1) These molecules stimulate the parietal cell of the stomach lining to trigger H+ secretion

ACh (from ENS) –> Acts on M3 receptor
Gastrin –> Acts on CCK2 receptors
Histamine
- Acts on histamine receptors
- Sensitizes cell to other stimuli as well
- From ECL cells

2) The molecules are released to stimulate ECL cell of the gastric mucosa to release histamine to act on the parietal cell
♣ ACh (from ENS)
♣ Gastrin

3) ECL cells are neuroendocrine cell found in the gastric glands of the gastric mucosa

4) Parietal cells are found in the in stomach lining
o Has proton pumps responsible for acid secretion into the stomach lumen
♣ Tightly controlled secretion

Question 8

PPI: Proton Pump Inhibitor
1) Example
2) Action

Answer 8

1) Omerprazole
2)
- When it gets to parietal cells, it will cross into acidic vesicles where it will get protonated
♣ Protonated form will not cross membranes
♣ Prodrug converted into active form by acid
♣ Goes and inactivates H+ pump

• Will inhibit proton pumps on parietal cells
  o Inhibit H+ secretion independent of how the acid secretion is stimulated
  ♣ Histamine
  ♣ ACh
  ♣ Gastrin

Question 9

H2 Receptor Antagonist:
1) Example
2) Action

Answer 9

1) Cimetidine

2) Will inhibit H2 receptors on the parietal cell
o So, histamine will be unable to stimulate the cell
o The cell can still be stimulated to secrete H+ by gastrin and ACh

Question 10

Muscanaric Antagonist:
1) Example
2) Action

Answer 10

1) Propantheline

2) Inhibits ACh receptors (M3) on the parietal cell
o So, ENS cannot stimulate H+ secretion
o The cell can still be stimulated to secrete H+ by gastrin and H2

Question 11

GPCR:
1) How do GPCRs work in general

Answer 11

1) Upon activation of the G-alpha subunit of GPCR by agonist
o G-alpha dissociates from the receptor and G-beta-gamma
o Bound GDP (on G-alpha) is exchanged for GTP
♣ –> Activation of the alpha-subunit
* Activated alpha-subunit then activates other molecules in cell
* One of the outcomes is eventual activation of the proton pump

Question 12

Drugs that Alter GPCR Activation and H+ Pumping
1) How does ACh activate H+ pumping via GPCR
2) What happens with muscanaric antagonists

Answer 12

1) ACh will bind to Gq-alpha subunit bound to GTP
♣ This activated GPCR and causes activation of Gq-alpha
♣ Gq-alpha moves to PLC
* PLC will hydrolyze PIP2
o PIP2 = GLYCEROL + 2 FATTY ACIDS
oPIP2 –> DAG + IP3
♣ DAG activated a kinase that activates the H+ pump

2) By inhibiting ACh action will inhibit H+ secretion from the H+ pump of the parietal cell

Question 13

Drugs that Alter GPCR Activation and H+ Pumping
1) How does histamine activate H+ pumping via GPCR
2) What happens with H2 receptor antagonists

Answer 13

1) Histamine will bind to Gs-alpha subunit bound to GTP
- This activated GPCR and causes activation of Gs-alpha
- Gs-alpha stimulates production of cAMP by activating adenylyl cyclase
- cAMP –> PKA –> H+ pump activation –> H+ secretion

2) If H2 receptor is blocked then none there will be no histamine stimulation of the H+ pump

Question 14

Drugs that Alter GPCR Activation and H+ Pumping
1) How does prostaglanding inhibit H+ pumping via GPCR
2) What happens with prostaglandin analogs

Answer 14

1) When prostaglandin binds to its receptor, it activates Gi-alpha subunit of GPCR
* This prevents the activation of PKA
o This in turn prevents activation of H+ pump –> reducing h+ secretion
* Protective effect on the GIT

Question 15

NSAIDs:
1) What can NSAIDs cause
2) Action of NSAIDs in stomach environment

Answer 15

1) NSAID-associated peptic ulcer disease
2)
♣ Cross membrane easily and are neutral in acid
♣ Once it gets into the cell with neutral pH, it gains a negative charge and gets trapped in the cell
* This causes cell damage

Question 16

COX-1:
1) When is it expressed
2) What is it involved in
3) What does it produce
4) Blocked by what
5) What does blocking result in (3)

Answer 16

1) Constitutively expressed
2) Involved in inflammation
3) Produces the gastric prostaglandins responsible for mucosal integrity
4) Blocked by NSAIDS

5) Decreases [prostaglandin]
o Increases gastric acid secretion
o Decrease bicarbonate/mucous production
o Decrease blood flow

Question 17

COX-2:
1) When is it expressed
2) What is it involved in
3) Blocked by what
4) What does blocking result in

Answer 17

1) Induced by inflammatory stimuli
2) Involved in cardiac issues
3) COX-2 selective NSAIDs (ex. Celecoxib)
4) * Carry lower risk of ulcer formation
* Associated with an increase in myocardial infarction and stroke

Question 18

Prostaglandin Analogs:
1) 2 effects of prostaglandins on the GI system
2) Bind to what receptor
3) Example of prostaglandin analog

Answer 18

1)
o Cytoprotection
o Decreased acid secretion

2) PGE1 receptor

3) Misoprostol

Question 19

Misoprostol:
1) Effects of misoprostol (4)
2) What can misoprostol be used for

Answer 19

1)
o Increases the secretion of mucus
o Increases bicarb secretion
o Enhances mucosal blood flow
o Inhibits mucosal cell turnover
♣ Enhances mucosal defense

2)
- Directly decreases gastric acid secretion
♣ By activating prostanoid receptors on parietal cells
- Can be used to prevent NSAID-induced damage
- Not a first line drug

Question 20

Constipation: Laxatives –> Hyperosmolar Agents
1) What do they do

2) Give an example

3) How and when is this used

Answer 20

1) Increase intestinal content osmolarity
♣ This leads to fluid secretion into the bowel
♣ Therefore, leading to bowel movement
* Water flows from an area of low osmotic pressure (more water, less solute) to an area of high osmotic pressure (less water, more solute)

2) Polyethylene Glycol (PEG)

3) PEG is poorly absorbed
♣ Solutions of PEG + electrolytes
* Commonly used for bowel cleaning before colonoscopy
♣ PEG without electrolytes can be used daily for chronic constipation

Question 21

Constipation: Laxatives –> Bulk-Forming Laxatives
1) What are they

2) What do they do

3) What is the paradoxal antidiarrheal effect

4) Give an example

Answer 21

1) Bulk-forming laxatives are non-absorbable cellulose-like materials that resemble dietary fibers

2) In the presence of H2O, they hydrate and trigger the defecation reflex
* Fiber-rich diet can also work (it is a non-digestible fiber)

3) Intestinal transit time is reduced
- Paradoxal antidiarrheal effect
♣ Ability to bind excess water can also aid in diarrhea

4) EX: Psyllium + methylcellulose

Question 22

Constipation: Laxatives –> Stimulant Laxatives
1) Example
2) How is the prodrug activated
3) Mechanism of action

Answer 22

1) Anthraquinones (Senna glycoside)
2) Converted by colonic bacteria to their active form
* Inactive form has 2 glucose molecules
* Colonic bacteria activates the molecule by removing the glucose molecules

3) Act on the intestinal epithelium
* Increases fluid accumulation
* Increases contraction
- Mechanism is complex
* Seems to involve de-glycosylated active form causing an increase in prostaglandin E2 (PGE2) synthesis

Question 23

INCREASING SECRETION –> Other Agents
Lubiprostone
1) What type of molecule is it
2) What was it thought to do/work
3) How was it later found to work

Answer 23

1) Prostanoic acid derivative
2) Was THOUGHT to stimulate type-2 chloride channels (CIC-2) in the SI
* This increase in chlorine rich fluid secretion in the intestine:
o Increases colonic motility
o Softens stool
3) LATER found to bind prostanoid receptors (EP4) on epithelial cells
* Triggers Gs-protein mediated stimulation of adenylyl cyclase
o Increase cAMP activation PKA promotes fluid secretion into lumen

Question 24

INCREASING SECRETION –> Other Agents
Linaclotide

1) Mechanism of Action
2) Analog of what

Answer 24

1) Mimics the action of:
* Endogenous guanylin + uroguanylin
o Both guanylate cyclase type C (GC-C) receptor ligands
* Increases the flow of electrolytes + H2O into lumen of GIT
* Increases cGMP production into the serosa
* reduction in visceral hyperalgesia

2) Analog of ETEC heat-stable toxin a (STa)

Question 25

Cl- Secretion and Increasing Fluid Secretion:
1) What was thought to happen by activating Cl- secretion

2) What actually happens

Answer 25

1) WHAT WAS THOUGHT: By activating Cl- secretion
o Na+ will follow suit and efflux from the basolateral side to the intestinal lumen
o If the lumen is high in salt concentration, this leads to fluid secretion in the bowel
♣ Water moves from an area of low solute to high solute

2) By activating cAMP production
o Activates PKA –> activation of
- CFTR
* Causing the secretion of Cl-
o Activates PKA –> inhibition of
- NHE3
* Inhibiting the influx of Na+ into the cell

Question 26

BACTERIAL TOXINS: Enterotoxigenic E. coli (ETEC)
1) aka
2) mechanism of action

Answer 26

1) travellers diarrhea
2) Stimulates GC-C
* Converts GTP –> cGMP
o cGMP
- Blocks PDE (converts cAMP ATP)
- Activates PKGII (activates CFTR)

Question 27

BACTERIAL TOXINS: Cholera toxin AND E. coli Heat-labile toxin (LT)
1) Mechanism of action

Answer 27

1) Triggers Gs-protein mediated stimulation of adenylyl cyclase

Question 28

Cystic Fibrosis Patients:
1) What is the mutation found in CF patients and its link to constipation

2) If you were to use linaclotide or misoprostol, would it work to increase fluid secretion

3) What drug is useful in CF patients

Answer 28

1) CFTR mutation in CF patient
o No fluid secretion of mucous membranes
o Therefore, can easily suffer from chronic constipation

2) Expected to work less
* They work to stimulate CFTR
* But if CFTR is non-functional then its stimulation wouldn’t be effective
o Therefore, is blocking of NHE3 and PDE enough to cure the constipation in CF patients?
* Or is CFTR activation just that important

3) Tenapanor is useful in constipation in CF patient to block the influx of Na+

Question 29

Opioid-Induced Constipation: (OIC)
1) What do opioids act on and what does this result in

2) by decreasing motility, what does it result in

3) whats a major side effect of opioids

4) what is used to treat + prevent OIC (type of drug)

5) What’s an example of this drug

Answer 29

1) Opioids act on enteric neurons to:
o Decrease secretion
o Promote fluid reabsorption from the lumen

2) Opioids decrease motility resulting in slowed transit through the GIT
o Greater time allowed for fluid absorption
o Drying of fecal mass

3) constipation

4) Opioid antagonists

5) Naloxegol

Question 30

Naloxegol:
1) what is Naloxegol
2) Why is its structure crucial in its action vs other opioid antagonists

Answer 30

1) Poly(ethylene glycol)-functionalized derivative of naloxone (narcan)
* Naloxone used to reverse opioid OD

2) This poly(ethylene glycol) makes the molecule unable to cross the BBB and act on the CNS
- Remains in the periphery so no addiction

Question 31

Diarrhea: Opioid Agonists –> LOPERAMIDE
1) Why is loperamide different to other opioid agonists
2) What effect does loperamide have on the GIT and what happens at high doses
3) When should loperamide not be used and why

Answer 31

1) Specific antidiarrheal agent that does not cross the BBB acts in periphery

2) Antisecretory effect mediated by mu-receptors
o At higher dosage, loperamide also decreases motility

3) Should NOT be used in symptomatic treatment of diarrhea causes by enteric organisms
* EHEC, C.diff, Shigella
* Because these infections induce toxins in the gut
* So, slowing the motility of the gut can promote their absorption and be dangerous

Question 32

IBD: Inflammatory Bowel Disease
1) What kind of disease is IBD and is it curable
2) What are the 2 main manifestations of IBD
3) What is IBD associated with

Answer 32

1) Chronic + incurable disease ever-increasing number of cases
2) Ulcerative colitis + Crohn’s Disease
3) Deregulated immune response directed towards some gut bacteria
♣ Responds poorly to bacteria that wouldn’t normally elicit a response
- Microbial imbalance in the gut

Question 33

IBD:
1) What is the treatment of IBD

Answer 33

1)
o 5-aminosalicylates (5-ASA)
o Corticosteroids
o Immunosuppressives
o Biologics

Question 34

IBD: Using biologics as treatment
1) What antibody is used
2) Why would patients lose response to the antibody
3) What additional therapies introduced

Answer 34

1) Infliximab (anti-TNF-alpha)
2) suboptimal drug exposure (caused by immunogenicity
3) Vedolizumab + Ustekinumab

Question 35

What is immunogenicity caused by suboptimal drug exposure?

Answer 35

Immunogenicity occurs when the immune system in an animal administered a drug recognizes it as foreign and generates a humoral and/or cellular immune response.

Question 36

1) What is Vedolizumab
2) What is Ustekinumab

Answer 36

1) Alpha-4-beta-7 blocker
- Prevents T-cell trafficking to the gut

2) Antibody blocking the p40 subunit of IL-12 + IL-23

Question 37

IBD: Using 5-ASA as treatment
1) Example
2) What is the unconjugated version of this example
3) Why is unconjugated form no longer given
4) What was done to resolve this

Answer 37

1) Sulfasalazine
2) Mesalamine
3) Mesalamine is rapidly absorbed in the jejunum
- Allowing only 20% to reach terminal ileum + colon to have action

4) Sulfasalazine is a prodrug that gets converted to mesalazine + sulfapyridine by gut bacteria
♣ Sulfapyridine is responsible for many side effects
♣ 5-ASA is responsible for the efficacy in IBD treatment

Question 38

IBD: Using glucocorticoids as treatment
1) Why are glucocorticoids used
2) Conventional examples of glucocorticoids
3) 2nd generation example of glucocorticoids
4) Long term use of glucocorticoids (recommended?)

Answer 38

1) Used to reduce inflammatory response of IBD

2)
o Prednisone
o Prednisolone

3) Budesonide

4) Long-term corticoid steroid use with either conventional or budesonide is not recommended