Lung cell biology

Question 1

What are the divisions of the airways`

Answer 1

0 Trachea
1 bronchi
4 bronchioles 
14 terminal bronchioles 
15 transitional bronchioles 
16 respiratory bronchioles 
19 alveolar ducts 
23 alveolar sacs

Question 2

What is epithelium?

Answer 2

Forms continous barrer isolating extenral from internal
Produces secretions to protect cells and reduce surface tension
Metabolise foreign and host derived compounds
Release mediators
Trigger lung repair process

Question 3

Where are goblet cells found?

Answer 3

Large, small, airways

Question 4

What percentage of epithelial cells are goblet cells?

Answer 4

In healthy lung 20% of epithelial cells

Question 5

What is the effect of smoking on goblet cell numbers

Answer 5

(at least doubles in smokers, thicker and increased secretions, more viscoelastic)

Question 6

What is the function of goblet cells?

Answer 6

Traps smoke carticles and trap and harour microporganisms isncreaisng chance of infection
Sythesisze and secrete mucus
‘thin’ sol phase overlays cells, thick gel phase at air interface.

Question 7

What does the mucus in goblet cells contain?

Answer 7

Mucin proteins, proteoglycans and gycosaminoglycans,

Give mucus viscoelasticity

Question 8

What combats microorgsnisms and phagocyte roteases in mucus?

Answer 8

albumin and alpha 1-antitrypsin, also called alpha 1-proteinase inhibitor,
Inhibit polymorphonuclear neutrophil proteases

Question 9

What combats inhaled oxidants?

Answer 9

Antioxidants from the blood and synthesised by epithelial cells and phagocytes – uric acid and ascorbic acid (blood), glutathione (cells)

Question 10

Where are cilia found

Answer 10

• Large, central, small airwas,

Question 11

What proportion of epithelial cells is cilia?

Answer 11

• 80% of epithelial cells

Question 12

How do cilia beat?

Answer 12

• Beat metasynchroulsy
• Tips of cilia in sol phase of mucus pushes mucus towards epiglottis
• Expectorated

Question 13

How does smoking affect cilia?

Answer 13

• Depleted in smokers with bronchitis
• Asynchrous
• Found in bronchioles which blocks smaller airways
• Unable to transort thickeend mucus
• Reduced musuc clearance

Question 14

How are smaller airways held open?

Answer 14

• Intact alveolar walls hold airways open

Question 15

Where are Clara cells found?

Answer 15

• Mosdt conducting and transitional airways

- Increase in proportion distally e.g bronchi and bronchioles

Question 16

What is the function of Clara cells?

Answer 16

• Xenobiotic metabolism

- Metablism of foreign compounds deposited by inhallation

Question 17

What are phase I and phase 2 enzymes?

Answer 17

Phase 1: cytocrhome P450 oxidases

• Metabolise foeigh compounds
• Enables phase 2 enzymes to neutralise toxic aganet
• May often activate precarcinogen to carcinogen

Phase 2: glutathione S-transferase

• Enables conjugation of BPDE to small molcule
• Neutralises it’s activtiy
• Some don’t have it
• If also smoker may increase

Question 18

What else do phase 1 and phase 2 enzymes secrete?

Answer 18

• Lots of proteases
• Lysosyme
• Antioxidants

Question 19

What is the normal ratio of Type 1 to Type 2 cells?

Answer 19

1:2

Less type 1 in smokers

Question 20

What is the function of type 2 epithelial cells?

Answer 20

• Synthesise and secrete pulmonary surfactant ( immunological functions)
• Precursor of alveolar epithelial type I cells. Divide and differentiate to replace damaged type I cells.
• Synthesise and secrete anti-proteases
• Found in alveoli
• Carry out xenobiotic metabolism

Question 21

What is the funciton of type 1 epithelial cells?

Answer 21

thin but strong to allow gas exchange

(95%) of alveolar surface

Question 22

How are carcinogens made in the lungs?

Answer 22

1. Smoke contains procarcinogens
2. Club cells, type 2 cells, macrophagesc ontain phase 2 and phase 2 enzymes used in detoxification
3. Lung cells contain hase 1 enzymes which activste compound
4. Compound becomes more carcinogenic,
5. Phase 2 enzymes make them water soluble and they are exreted
6. If more carcinogens than phase 2 enzymes can deal with you get DNA binding, adduct formtion, no repair and mutation

Question 23

What a proportion of lungs is alveolar macrophages in a normal person and in a smoker ?

Answer 23

90% of phagocytic cells

Increase 5-10x in smoker

Question 24

What is the role of alveolar macrophages?

Answer 24

• phagocytose debris and microorganisms.
• Use cytokines to recruit pro inflammatory cells and molecules
• proteases to digest unwanted debris, attack organic material
• oxidants during phagocytosis and on activation to kill infecting organisms etc
• antioxidants such as glutathione to neutralise oxidative molecules that might be inhaled or generated during infection etc
• Contain enzymes that metabolise toxicants (xenobiotic metabolism)

Question 25

What is the proportion of polymorphonuclear neutrophils in smokers and on smokers?

Answer 25

• 5% of lower respiratory tract phagocytes
• Increase 5-10x proportion in msokers

Macrophage: neutrophil ratio

70: 30 in non smokers
30: 70 in COPD

Question 26

What is the function of polymorphonuclear neutrophils?

Answer 26

• Secretory
• Store high levels of proteases
• Released
• Also release oxidative molecules (hydroxyl anions) during activation

Question 27

What occurs during COPD?

Answer 27

• Walls of alveoli become distrupted due to secretions
• Alveoli can’t open
• Small airways may also become blocked
  Fibrosis occurs in an attemt to repair tissue
  
  • Airways can’t reverse dmagae
  • Lots of inflammatory cells
• Stenotic region: not joined to rest of airways due to firbrosis

Question 28

What are resiratory bronchioles enriched with?

Answer 28

Secretory club cells

Question 29

What is the funciton of Club cells?

Answer 29

• Contain secretory granules
• Important in symbiotic metabolism (imortant for enzymes)
• Deotification
• Repair/progintor cells

Question 30

What is the effect of smoking on ciliate and club cells?

Answer 30

Increased brnchiolar ciliated cells
Club cells lower

Alveolar surface made of 2 types of cells

Question 31

What is the function of stromal cells (myofibroblasts)?

Answer 31

• Make ECM
• Collagen, elastin, elasticity, compliance
• Repair

Question 32

What is the histopathology of alveolar fibrosis?

Answer 32

• Increased type 2 (don’T differentiate into type 1)
• Increased firboblasts
• Increased collagen deposition

Question 33

What is the histpathology of abnormal repair?

Answer 33

• Type 1 cells proliferation
• Stromal cell roliferation
• Connective tissue synthesis

Question 34

What is the function of serin and metalloproteinases?

Answer 34

• Released by airways
• Substrates: proteinases, connective tissue, elastin, collagen,
• Activate other roteinases
• Inactivate antiproteinases
• Activaste cytokines/chemokines and othe pro inflammatory mediators

Question 35

What is the function of serin and metalloproteinases?

Answer 35

• Generate hioghly reactive peroxides
• Interact with proteins and lipids
• Inactivate alpha 1 antitrypsin
• Grament connective tissue

Question 36

What proportion of COPD affects smokers?

Answer 36

15-20%

Question 37

What is chronic bronchitis?

Answer 37

large/central airways affected, copious mucus production for three months of the year. Airways obstructed by mucus and thickened mucosal cell layer.

Question 38

What is small airways disease?

Answer 38

small airways become blocked/obstructed due to mucus secretion and stenosis/narrowing of airway wall due to fibrosis

Question 39

What is emphysema?

Answer 39

destruction of the respiratory tissue (especially the respiratory bronchioles of smokers) by proteolytic enzymes leads to loss of connective tissue scaffold, basement membrane “cement” and normal cell organisation. Loss of surface area and elastic recoil. Loss of vascular tissue. Gas exchange severely compromised. Affects fewer, about 10% of smokers.

Question 40

How do CYPIA1 polymorphism cause carcinogen production?

Answer 40

• high levels of carcinogenic BPDE are generated.
• insufficiently inactivated by conjugation e.g. with glutathione by glutathione transferase, as happens with the null phenotype i.e. no glutathione transferase,
• chances of DNA adduct formation with BPDE increases massively – 40-fold increase in chance of a smoker getting lung cancer.