Lecture 5: Pathophysiology of Peptic Ulcer Disease and Helicobacter pylori Infection

Question 1

What are the types of gastric mucosal cells?

Answer 1

1. Parietal cells
   
   • H+ and IF
2. G-cells (antrum)
   
   • gastrin
3. D-cells (throughout stomach)
   
   • somatostatin
4. ECL-cells
   
   • histamine
5. Chief Cells
   
   • pepsinogen
6. Surface epithelial cells
   
   • mucus and bicarbonate
7. Mucus neck cells
   
   • mucus and bicarbonate

Question 2

What is the mechanism of H+ production in parietal cells?

Answer 2

1) Gastrin
2) histamine (acts through receptor)
3) prostaglandin E (acts through receptor)
4) vagal nerve stimulation
All increase the concentration of protein kinases which increases INTRAcellular concentration of H+ in parietal cells
A H/K ATP-dependent transport at the apical membrane of the parietal cell then secretes H+ while taking in K+

Question 3

What are the 3 receptors located on the basolateral membrane of the parietal cell?

Answer 3

1. acetylcholine
2. gastrin
3. histamine
   Activation of all three receptors = acid production

Question 4

What does an increase in Ca2+ in parietal cell do?

Answer 4

Gastrin and vagal nerve INCREASES Ca2+ which increases protein kinases and H+

Question 5

What is the mechanism of proton pump inhibitors?

Answer 5

They inhibit the H/K ATPase on the apical side of the parietal cell

Question 6

What is the association between somatostatin and parietal cells?

Answer 6

Somatostatin INHIBITS G cell and ECL cell, and thereby inhibit parietal cells H+ productio

Question 7

What happens when you smell food?

Answer 7

You stop somatostatin production
Therefore there is no more feedback inhibition
You make acid in response to food

Question 8

What is the major stimulus for gastric acid production in the human?

Answer 8

Histamine, so gastrin’s main effect is to activate ECL cell

Question 9

What does Ach do in the stomach?

Answer 9

1. upregulates H+ secretion in parietal cell
2. upregulates gastrin production in G cell
3. upregulates histamine production by ECL cell
4. upregulates somatostatin (which is inhibitory) in D – cell
   Mediator of the cephalic phase of acid secretion

Question 10

Why is the stomach two organs into one?

Answer 10

Top half secretes acid
-accepts food and relaxes
Bottom half controls the production of acid
-grinds food

Question 11

What are gastric protective mechanisms regulated by?

Answer 11

PROSTAGLANDINS
Prostaglandins are PROTECTIVE of stomach
They promote mucus and bicarb production and increase submucosal blood flow

Question 12

What are the two types of prostaglandins?

Answer 12

Cyclooxygenase 1

Cyclooxygenase 2

Question 13

Why do NSAIDs fuck with stomach lining?

Answer 13

Because they inhibit prostaglandins, which are protective of the stomach lining
Less prostaglandins = less bicarbonate in the mucous

Question 14

What are the aggressive factors that lead to peptic ulcers?

Answer 14

1. acid (“no acid no ulcer”)
2. NSAIDs
   
   • inhibition of cyclo-oxygenase/prostaglandins
   • local caustic effect because it is broken down in mucus but this is not as significant
3. H. pylori
4. pepsin
5. bile salts
6. steroids, smoking, alcohol, caffein

Question 15

What are the defensive factors that protect against peptic ulcers?

Answer 15

1. mucus/mucosal barrier
2. bicarb
3. blood flow
4. cell regeneration
5. prostaglandins

Question 16

What are the key characteristics of mucosal cytoprotection?

Answer 16

1. Mucus acts as a barrier to back-diffusion
2. Bicarbonate neutralizes protons
3. Internal buffering mechanisms maintain tissue acid/base neutrality
4. additional barrier provided by tight junctions
5. epithelial restitution and mucoid cap formation if injury occurs
6. Mucosal blood flow delivers oxygen and soluble mediators

Question 17

Why is it important to have good blood flow to the stomach?

Answer 17

To replace the damaged cells and to heal shit that may be damaged by the acid
Ischemia of stomach is very uncommon

Question 18

What are the similarities/differences of gastric and duodenal ulcers?

Answer 18

Onset of gastric ulcers are after meals whereas duodenal ulcer feels pain 1-3 after meals
Duodenal ulcers are PINPOINT
Gastric ulcers are DIFFUSE and lead to weight loss, nausea and vomiting

Question 19

What is the location of gastric ulcers?

Answer 19

The antrum (where acid is regulated)

Question 20

What is the location of duodenal ulcers?

Answer 20

Duodenal bulb

Question 21

What is the duodenal bulb?

Answer 21

The portion of the duodenum closest to the stomach

Question 22

What are the peptic ulcer trends in the USA?

Answer 22

Uncomplicated ulcers are declining because of PPI and histamine antagonist use
Disappearance of H. pylori

Question 23

What is the pathophysiology of the peptic ulcer disease?

Answer 23

Aspirin alters mucosal defense mechanisms
Hypersecretory states increases acid
H pylori fucks with both defense and acid production

Question 24

What is Zollinger Ellisone Syndrome (ZES)?

Answer 24

An example of hypergastrinemia that leads to hypersecretion of acid
A non-beta islet cell tumor that secretes GASTRIN
Gastric acid hypersecretion
Fulminant peptic ulcer disease
Gastrinoma cells are not inhibited by somatostatin

Question 25

What do you need to measure to determine the cause of peptic ulcer?

Answer 25

Gastrin levels AND acid levels

Because you can have high gastrin and low acid if the parietal cells are fucked up

Question 26

What is INAPPROPRIATE hypergastrinemia?

Answer 26

Hypergastrinemia in presence of gastric acid production

Example: ZES

Question 27

What is appropriate hypergastrinemia?

Answer 27

Occurs as a normal physiologic response in situations such as atrophic gastritis, pernicious anemia, etc.

Question 28

What is pernicious anemia?

Answer 28

Megaloblastic anemia
Loss of gastric parietal cells which secrete intrinsic factor
Intrinsic factor is important for absorption of vitamin B12 in the ileum

Question 29

How does destruction of parietal cells (atrophic gastritis) lead to pernicious anemia?

Answer 29

Because parietal cells secrete intrinsic factor and intrinsic factor is necessary to absorb vitamin B12 in the ileum
Vitamin B12 deficiency leads to megaloblastic anemia
-vitamin B12 is needed for purine and thymidylate synthesis
-no vit b12 = no nucleotides for DNA replication = inhibition of DNA replication in RBCs

Question 30

What are the two types of Zollinger Ellison syndrome (ZES)?

Answer 30

1. sporadic

2. MEN-1 syndrome

Question 31

What are the characteristics of MEN-1 syndrome with ZES?

Answer 31

Multiple endocrine neoplasia syndrome type 1
Autosomal dominant
3 P’s
	i. Parathyroid hyperplasia
	ii. Pituitary adenomas
	iii. Entero-Pancreatic tumors

Question 32

What are the 3 P’s of MEN-1?

Answer 32

i. Parathyroid hyperplasia
ii. Pituitary adenomas
iii. Entero-Pancreatic tumors

Question 33

What are the two processes in ZES?

Answer 33

1. hormonal syndrome due to uncontrolled gastrin disease

2. Enteropancreatic neuroendocrine tumor with a potential for neoplastic growth

Question 34

What are the presenting symptoms of ZES?

Answer 34

Similar to gastric acid hypersecretion

1. abdominal pain
2. pain and diarrehea
3. heartburn
4. initial perforation

Question 35

Aside from ZES, what else causes hypersecretion?

Answer 35

Idiopathic hypersecretion
Increased parietal cell mass
Increased meal stimulated acid output

Question 36

What are the differences in parietal cell mass in duodenal vs. gastric ulcer?

Answer 36

Duodenal ulcers are caused by increased NUMBER of parietal cells
Gastric ulcers are caused by increased SECRETION of acid

Question 37

What does H. pylori make? Significance?

Answer 37

Makes urease

Urease neutralizes local pH (ammonium)

Question 38

What are the key characteristics of H. pylori?

Answer 38

1. secretes urease
2. attaches to host epithelium directly
3. gastric acid secretion is modified to permit maximal survival
4. induces inflammation to permit nutrition
5. evades host immune response

Question 39

What is the pathophysiology of H. pylori gastritis?

Answer 39

1. person-to-person transmission
2. Urease permits a non-acidic microenvironment in the gastric lumen!
3. flagellae and spiral morphology permit penetration of mucus layer
4. enzyme products (protease and phospholipase) permit disruption of the mucosal barrier
5. Adherence factors permit attachment to surface mucus cells exclusively
   H pylori doesn’t invade gastric mucosa but it does reduce mucosal defences

Question 40

What is the significance of urease?

Answer 40

Produced by H. pylori

Permits a non-acidic microenvironment

Question 41

How does H. pylori affect acid secretion?

Answer 41

1. can lead to HYPERacid secretion (antral predominant infection and duodenal ulcer)
2. can lead to asymptomatic chronic infection which is characterized by normal to low acid output
3. can lead to HYPO acid output that presents as pangastritis, GU, cancer, lymphoma
   
   • low acid ouput leads to HYPERGASTRINEMIA!!!!

Question 42

What is the gastrin hypothesis for DU?

Answer 42

1. antral h. pylori infection inhibits somatostatin production leading to unopposed gastrin release
2. basal and meal-stimulated hypergastrinemia lead to inappropriate gastric acid hypersecretion
3. duodenal gastric metaplasia permits colonization in duodenal bulb
4. local defenses are undermined PLUS acid hypersecretion results in duodenal ulceration

Question 43

How do you get hypersecretion with H. pylori infection?

Answer 43

Can only happen if h. pylori is predominantly in the ANTRUM!!

Question 44

What is the association of H. pylori and gastric cancer?

Answer 44

More H. pylori = gastric cancer in the DISTAL end of stomach (corpus and antrum?)
Proximal (cardia and GE junction) cancers are not as strongly associated
Also associated with Maltoma’s

Question 45

How does H. pylori lead to gastric cancer?

Answer 45

1. host factors
   -cytokines, hypergastrinemia
2. bacterial factors
   -virulence factors like Cag A, Vac A
3. Environmental factors
   -smoking
   -vitamin C
   All three combined leads to gastric cancer

Question 46

What is the pathogenesis of NSAID induced GI complications?

Answer 46

Dual-injury hypothesis
Systemic = PG inhibition
Topical effects = breakdown

Question 47

What is the significance of arachidonic acid?

Answer 47

It is a reactant that is necessary for prostaglandin formation and leukotriene formation

Question 48

What is the role of Cox-1 and 2?

Answer 48

They are ENZYMES that convert arachidonic acid to prostaglandins

Question 49

What is the difference between Cox-1 and Cox-2?

Answer 49

Cox-1 is constitutive (so always there)

Cox-2 is induced by inflammation

Question 50

What are the mechanisms of NSAID-induced mucosal injury?

Answer 50

1. decreased prostaglandin synthesis
2. altered mucus
3. decrease HCO3- and blood flow
4. direct epithelial injury
5. acid back-diffusion

Question 51

What is important about misoprostol?

Answer 51

Synthetic prostaglandin

Used to offset effect of NSAIDS

Question 52

What is the association between H.pylori and Cox1?

Answer 52

H. pylori increase Cox2

So H pylori + NSAiD leads to a lot more peptic ulcers

Question 53

What is the ideal NSAID?

Answer 53

The one that is Cox2 selective so that you still have prostaglandin effect in stomach
What does COX-2 do to the stomach?
Mediates inflammation in the stomach so causes gastritis

Question 54

What is non-ulcer dyspepsia? Significance?

Answer 54

Patients with typical ulcer pain but in whom no ulcers can be found
Could be on spectrum with IBD but little is known about this shit
Significant because it mimics acid-peptic disease even though there is no evidence of mucosal damage