Session 4 - Epithelial Tissue

Question 1

Define a tissue

Answer 1

A collection of cells that are adapted to perform a specific function

Question 2

Define an organ

Answer 2

The state where two or more tissues are combined to create a structural unit that has a particular function that are a sum of its parts.

Question 3

What are the 4 broad tissue categories?

Answer 3

Epithelial tissue
Connective tissue
Muscle tissue
Nerve tissue

Question 4

List how epithelial cells adhere to one another at the cells lateral surface.

Answer 4

Tight junctions
Adherence junctions
Desmosome
Gap junctions
Cell adhesion molecules: integrin, selectin, CAM

Question 5

List how epithelial cells adhere to one another at their basal surface.

Answer 5

Hemi-desmosome
Focal adhesions
Integrity
Proteoglycans
Cell adhesion molecules

Question 6

What enables paracellular transport and where does it occur?

Answer 6

In the gut, tight junctions can open transiently to allow small molecules to cross such as sugars, amino acids etc.

Question 7

Where are adhesion junctions exclusively found and what are they?

Answer 7

They are only found in epithelial and endothelial cells and are always 1/3 the distance from the luminal surface. They are made from E-cadherin proteins which are attached to the Intracellular actin filament network. Found as a belt and act to stabilise the tissue and act as another barrier

Question 8

How are desmosomes constructed and where are they found?

Answer 8

They are the strongest cell adhesion molecule and as such are found in tissues that experience allot of mechanical stress such as cardiac tissue and the skin (the are the only cell adhesion molecule in the skin). They are found ~ 1/2 way between cell lateral surface and have a random distribution. E-Cadherin proteins being across cells and they are found to the cytokeratin network Intracellularly

Question 9

Describe the function of gap junctions and where they are located. And what are they made up of?

Answer 9

Close to the base of epithelial cells. They allow for quickly communicating signals between cells as they allow for the free movement of small molecules.
Thus is particularly important in smooth and cardiac tissue to signal contraction of neighbouring cells.
They are made up of a hexagonal arrangement of connexins.

Question 10

What are the only cells that don’t have gap junctions?

Answer 10

Motile cells that are in contact with each other such as spermatozoa and erythrocytes

Question 11

Why does the myometrium in the uterus change from Connexin 45 to Connexin 35 in preparation for birth?

Answer 11

Connexin 35 form wider gap junctions when they coalesce and as such they allow the transport of Ca2+ ready for contraction

Question 12

Where are hemi-desmosomes found and how do they adhere?

Answer 12

They are found on the basal surface of epithelial cells and attach to the collagen fibres found in the extracellular matrix of the connective tissue (not the basal membrane) through integrins which are bound onto the the network of intermediate fibres within the cell (same cytokeratin fibres of desmosomes)

Question 13

What is the difference between hemi-desmosomes and focal adhesions?

Answer 13

Both connect to connective tissue collagen and via integrins but are attached to Intracellular actin filaments.

Question 14

What is required for all of the adhesion molecules to work?

Answer 14

Calcium ions.

Question 15

Define a mucosal membrane and give some examples

Answer 15

The structure that lines all the “moist” hollow internal organs of the body.
It’s continuous with the respiratory skin at various body openings
GI, urinary, respiratory tract

Question 16

Name the layer of the GI tract in order

Answer 16

Mucosa (Epithelium, Lamina Propria, Muscularis Mucosa)
Sub mucosa - connective tissue layer containing arteries, nerves and veins.
Muscularis external (inner circular, outer longitudinal)
Serosa

Question 17

What kind of epithelial cells line the corpuscles (glomerulus) and what line the collecting ducts of renal system?

Answer 17

Squamous epithelium - corpuscle

Cuboidal epithelium - collecting duct

Question 18

In the urinary tract what order do the layers of muscle in the Muscularis external appear?

Answer 18

Longitudinal muscle is first and then circular muscle follows. This is the opposite to the GI tract

Question 19

What type of epithelial cell is found in the urether and what is the name it is known by?

Answer 19

Transitional, urothelium

Question 20

Name some features that protect the bladder from damage.

Answer 20

Mucosa secretes mucus which protects against acidic conditions.
Many tight junctions stop any toxic molecules leaving bladder.

Question 21

What are the 2 parts of the respiratory tract?

Answer 21

Conducting portion - nasal cavity to the bronchi

Respiratory portion - bronchi to the alveoli

Question 22

Describe the structure of the trachea and the primary bronchi

Answer 22

-Pseudostratified ciliated columnar epithelium
-Sub-muscosa contains glands that secrete watery mucus (mucin and water-make sticky mucus, serum proteins - lubricate the surfaces, lysozyme- destroy bacteria, anti-protease - inactivate bacterial enzymes)
C-shaped hyaline cartilage ring

Question 23

Describe the structure of the secondary and tertiary bronchi.

Answer 23

Same as trachea bar cartridge is crescent moon shaped not c shaped.
Trachea:
-Pseudostratified ciliated columnar epithelium
-Sub-muscosa contains glands that secrete watery mucus (mucin and water-make sticky mucus, serum proteins - lubricate the surfaces, lysozyme- destroy bacteria, anti-protease - inactivate bacterial enzymes)
C-shaped hyaline cartilage ring

Question 24

Describe the structure of the alveolus.

Answer 24

Squamous epithelium to basal lamina and the endothelium.

Folds in basal lamina allow for expansion.

Question 25

Name the 3 closed cavities and what kind of epithelial cell lines them?

Answer 25

Peritoneal - covers organs in the abdomen
Pleural - between the lungs
Pericardial - surrounds the heart

These are types of mesothelium

Question 26

Name the 8 different types of epithelial cells structure

Answer 26

Simple/stratified squamous
Simple/stratified cuboidal
Simple/stratified columnar
Pseudostratified columnar
Transitional

Question 27

Give some examples of where simple squamous cells are found.

Answer 27

Lining of heart, blood vessels, mesothelium (pleural, peritoneal cavities)

Question 28

Give some examples of where simple cuboidal cells are found

Answer 28

Ducts of exocrine glands, kidney tubules

Question 29

Give some examples of where simple columnar cells can be found.

Answer 29

Lining of GI tract and excretory ducts of glands.

Question 30

Give some examples of where pseudostratified columnar cells are found.

Answer 30

Upper respiratory tract,

Question 31

Give some examples of where stratified squamous cells can be found

Answer 31

Epidermis, mouth, oesophagus, vagina

Question 32

Give some examples of where stratified cuboidal cells be found

Answer 32

Ducts of sweat glands

Question 33

Give some examples of where stratified columnar cells can be found

Answer 33

Conjunctiva of the eye and some secretory portions of the male urethra

Question 34

Give some examples of where transitional epithelial cells.

Answer 34

Lining of the bladder

Question 35

Define epithelial

Answer 35

Sheets of contiguous cells , of varied origin, that cover the external surface of the body and line many internal surfaces.

Question 36

Name 6 surface specialisations of epithelial cells.

Answer 36

Keratin - prevents water loss
Cilia - control micro movement of luminal content
Goblet cells - mucus secretions, moistens ad lubricates
Club cells - act as stem cells for respiratory epithelium
Micro fold cells - rapid sampling of gut micro flora
Stereocilia - auidtory system

Question 37

Where is the mutation that causes cystic fibrosis and what does it cause?

Answer 37

Mutation is in the CFTR gene (cystic fibrosis transmembrane conductance regulator). This results in a deficiency of chloride ion release into the mucus so less water follows making the mucus very viscous and as such it isn’t cleared leading to raised infection risk. Affects anywhere musus is secreted: pancreas, respiratory tract, GI tract, reproductive tract, liver (bile duct), skin

Question 38

Define metaplasia and neoplasia

Answer 38

Metaplasia- capacity to change from one type of epithelium to another .
Neoplasia - changes that give rise to a tumour (a carcinoma).

Question 39

What is the name given to tumour cells of an epithelial cell origin?

Answer 39

Adenocarcinoma

Question 40

From chronic smoking why is there permanent damage to the lungs?

Answer 40

Club cells are damaged. These are a type of stem cell so are not replaced hence why the damage is permanent.

Question 41

What are the early effects of smoking on the lungs.

Answer 41

1 - normal mucus layer thickens
2 - cilia die off
3 - ciliagenesis - 2-4 days will restart (if stop smoking and the mucus layer is cleared)

Question 42

What are the chronic affects of smoking on the lungs?

Answer 42

1 - goblet cells and basal cells proliferate
2- club cells metaplasia or die
3 - carcinogens induce mutations and malignancy
4 - pneumocytes in the alveoli die
5- fibroblasts lay down scar tissue which is hard to repopulate over