5.1 Epithelial Tissues

Question 1

What are the main functions of epithelia?

Answer 1

• Barrier - between outside world and internal milieu of cell
• Protection - mechanical and chemical
• Absorption - in small intestine and kidney, large SA provided
• Secretion - in respiratory and alimentary tracts, and in glandular epithelium

Question 2

What do epithelial layers protect tissues underneath them from?

Answer 2

• Radiation
• Desiccation
• Toxins
• Invasion by pathogens
• Physical trauma

Question 3

What are the two types of epithelia?

Answer 3

• Covering and lining epithelium

* Glandular/secretory epithelium

Question 4

What are covering and lining epithelium?

Answer 4

Sheets that cover the body on external surfaces and line internal surfaces - i.e. skin and gut linings

Question 5

What are glandular/secretory epithelium?

Answer 5

Cells that have originated from invaginated epithelial cells, now arranged as 3D secretory units (exocrine will still maintain contact with outside of body, endocrine will not/are no longer in contact)

Question 6

In what 4 categories are epithelia classified?

Answer 6

Shape, stratification, function and specialisation

Question 7

What are the three shapes of epithelia?

Answer 7

• Squamous - flat plate like, seen in permeable surfaces as allow transport across
• Cuboidal - height and width similar, seen in lining surfaces, good absorption and secretion
• Columnar - height 2-5 times greater that width, allows protection, lubrication and absorption/secretion

Question 8

What are the four types of stratification in epithelia?

Answer 8

• Simple epithelium - one layer
• Stratified epithelium - several layers (can be keratinised, as seen in skin)
• Pseudostratified - gives appearance of layers, but not actually present
• Transitional - several layers that may change shape (seen in urinary system)

Question 9

What are the two specialisations of epithelia?

Answer 9

• Cilia - movement of particles, e.g. airway, mucociliary escalator
• Microvilli - increase absorption/surface area, e.g. gut

Question 10

What is simple squamous epithelium?

Answer 10

• Structure: single layer of flat, often hexagonal cells (so flat that nuclei appear as bumps)
• Function: diffusion, filtration, secretion, absorption and some protection against friction
• Location: lining of blood and lymphatic vessels (endothelium) and small ducts, alveoli, loop of Henlé, serous membranes (mesothelium - line body cavities i.e. pleura/thoracic cavity) and inner surfaces of eardrum

Question 11

What is simple cuboidal epithelium?

Answer 11

• Structure: single layer of cube-shaped cells - some have microvilli (kidney tubules) or cilia (terminal bronchioles)
• Function: active transport and facilitated diffusion allow for secretion and absorption (kidney), secretion by cells in glands/choroid plexus, cilia allow movement of mucus-containing particles (i.e. out of terminal bronchioles)
• Location: kidney tubules, glands and their ducts, choroid plexus (brain, produces CSF), lining of terminal bronchioles and of the surface of the ovaries

Question 12

What is simple columnar epithelium?

Answer 12

• Structure: single layer of tall, narrow cells - some have cilia (bronchioles, auditory tubes, uterus and uterine tubes) or microvilli (intestines)
• Function: move particles out of bronchioles, partially responsible of movement of oocyte through uterine tubes (cilia), secretion by cells in glands, stomach and intestine. Absorption by cells of the intestine.
• Location: glands and some tubes, bronchioles, auditory tubes, uterus, uterine tubes, stomach, intestines, gallbladder, bile ducts and ventricles in the brain

Question 13

What is stratified squamous epithelium?

Answer 13

• Structure: multiple layers that are cuboidal at the base layer and progressively flattened toward the surface - can be moist or keratinised. In moist layers, cells retain a nucleus, in keratinised upper layers die and do not
• Function: protection against abrasion and infection
• Location: moist - mouth, throat, larynx, oesophagus, anus, vagina, inferior urethra and cornea. Keratinised - skin

Anywhere an abrasion can occur, multiple layers will be necessary

Question 14

How are stratified layers named/classified?

Answer 14

They are defined by the cell shape at the uppermost layer, as will contain a mix of shapes

Question 15

What is stratified cuboidal epithelium?

Answer 15

• Structure: multiple layers of somewhat cube-shaped cells
• Function: secretion, absorption and protection against infection
• Location: much rarer than other types - found in sweat gland ducts, ovarian follicular cells and salivary gland ducts

Question 16

What is pseudostratified columnar epithelium?

Answer 16

• Structure: single layer of cells (some are tall and thin, reaching upper surface, some do not). Nuclei of different cells are at different layers, giving the impression of stratification. Cells are almost always ciliated and are associated with goblet cells that secrete mucus onto the free surface
• Function: synthesise and secrete mucus into free surface and then move mucus/fluid that contains foreign particles over the surface of the free surface and from passengers
• Location: lining of nasal cavity, nasal sinuses, auditory tubes, pharynx, trachea and bronchi (almost exclusively respiratory system, cilia specially developed for function)

Also known as respiratory epithelium

Question 17

What is transitional epithelium?

Answer 17

• Structure: stratified cells that appear cuboidal when organ/tube is not stretched and squamous when organ/tube is stretched by fluid - CHANGE SHAPE
• Function: accommodates fluctuations in the volume of fluid in an organ or a tube, protection against the caustic effect of urine
• Location: lining or urinary bladder, uterus and superior urethra

Question 18

What are microvilli?

Answer 18

Fingerlike projections with microfilament cores (actin)

Question 19

• What is a ‘brush border’?

Answer 19

A microvilli-covered surface of a simple cuboidal and simple columnar epithelium found in different parts of the body

Question 20

What are cilia?

Answer 20

Microtubules that are arranged precisely to allow movement. 
Axoneme core (9x2 +2 microtubule arrangement, 9 pairs of microtubules around the edge with 2 in the middle, 20 total)
Motor proteins are used to generate force (dynein, produces necessary force for bending, microtubule gliding is powered by ATP hydrolysis)

Question 21

Where do exocrine glands secrete their products?

Answer 21

On the external or internal epithelial surface, via a duct

Question 22

Where do endocrine glands secrete their products?

Answer 22

Secrete products into blood of lymphatic vessels (ductless)

Question 23

• What organ contains both exocrine and endocrine glands?

Answer 23

The pancreas, secretes products used for digestion

Question 24

• Are there multiple classifications of exocrine glands?

Answer 24

Yes, their shapes come in more than one form

Question 25

What is a goblet cell?

Answer 25

• A unicellular glandular epithelial cell whose function is to secrete mucus - found in gastrointestinal and respiratory tracts
• Name derived from shape
• Basal region sits on basal lamina
• Apical portion, theca, faces the lumen and is filled with membrane-bound secretory droplets
• Secretes mucus to lubricate cell surface
• Is a gland in its own right, even though it is unicellular

Question 26

In which type of epithelium are goblet cells usually found?

Answer 26

Interspersed with pseudostratified columnar cells, i.e. in respiratory tract

Question 27

How do the pseudostratified columnar cells cooperate with goblet cells?

Answer 27

The cilia on the pseudostratified cells beat upwards and outwards to shift the mucus produced by goblet cells (which traps foreign bodies and carries them out for expulsion)

Question 28

What are the layers of cells in the respiratory tract?

Answer 28

• Pseudostratified epithelium
• Beneath this is the connective supporting tissue, the lamina propria (specific to epithelium)
• The epithelium and the lamina propria form a mucosa
• Beneath the mucosa is the submucosa and adventitia (connective tissue with larger glands)

Question 29

From which germ layer can epithelium be derived?

Answer 29

Any of the three:
Endoderm
Ectoderm
Mesoderm

Question 30

Where is stratified or pseudostratified epithelia derived from?

Answer 30

The ectoderm - forms oral + nasal mucosa, cornea, skin, glands of skin and mammary glands

Question 31

Where is simple epithelium derived from?

Answer 31

Some from the endoderm - forms lining of respiratory tract, small intestine, pancreas, gall bladder and liver
Some from the mesoderm - forms kidney, pleurae, peritoneum, pericardium, mesothelium, reproductive systems, endothelial cells of blood vessels

Question 32

What is a basement membrane?

Answer 32

The boundary between epithelial and connective tissue - epithelia cells are usually surrounded by or lie in a supporting layer of connective tissue

Question 33

What two sections does the basement membrane comprise of in epithelium?

Answer 33

Basal lamina

Reticular lamina

Question 34

What is the purpose of the basement membrane?

Answer 34

Acts as a mechanical barrier and anchors epithelial to the connective tissue

Question 35

What is the basal lamina?

Answer 35

Synthesised by epithelial cells and contains anchoring fibrils of type IV collagen which extends into the reticular lamina
In contact with epithelial tissue

Question 36

What is the reticular lamina?

Answer 36

Produced by the connective tissue and contains fibres and collagen bundles around which fibrils are able to loop
In contact with connective tissue

Question 37

What is the apical surface of the epithelium?

Answer 37

The surface facing outwards/towards the lumen

TOP

Question 38

What is the basal surface of the epithelium?

Answer 38

The surface connected/adjacent to the basement membrane (basal lamina)
BOTTOM

Question 39

Do epithelial cells exhibit polarity?

Answer 39

Yes

Question 40

How are the domains distinct/epithelium polarised?

Answer 40

Domain structure correlates with function - they have distinct morphological, biochemical and functional differences, allowing specialised functions associated to different domains

Question 41

What are the adaptations and function of the apical domain?

Answer 41

Rich in ion channels and carrier proteins, can have cilia, microvilli and stereocilia
Function:
• Protection
• Secretion
• Absorption
• Regulation of nutrient and water uptake

Question 42

What are the adaptations and function of basal domains?

Answer 42

Basolateral (bottom and sides) domain has junctional specialisations 
Function:
• Cell contact
• Adhesion
• Communication
• Ion channels
• Receptors
• Basal infoldings

Question 43

What types of junctions are present in the basolateral domain of epithelial cells?

Answer 43

• Tight junctions (occluding, block intercellular transport)
-> zona occludens, these can have flexible tightness
• Anchoring/adhesive (link adjacent cytoskeletons)
-> adherening junctions: zonula adherens
-> desmosome junctions: macula adherens, called hemidesmosomes when at the bottom of the cell
• Communicating/gap (allow specific communication between cells through acting as channels through which molecules can move)

Question 44

Through which type of microscope are tight, anchoring and gap junctions possible to be viewed?

Answer 44

Only through electron microscopy

Question 45

• What family of transmembrane proteins are associated with tight junctions?

Answer 45

Cytoplasmic membrane associated with guanylyl kinase-like domain (MAGUK) protein family and zona occludens proteins (ZO-1, ZO-2 and ZO-3)

Question 46

Where are tight junctions particularly tight?

Answer 46

In organs like the brain - vital for forming the blood brain barrier, acting as both a physical and a metabolic barrier

Question 47

The two principle proteins of tight junctions and their function are:

Answer 47

• Claudins
• Occludins
These establish a fence junction through the formation of large multi-protein complexes
Allow for homophilic cell-cell adhesions, mediate tight, high affinity binding between adjacent cells

Question 48

What proteins are seen at adhering junctions?

Answer 48

Cadherins

Question 49

How are adhering junctions linked together?

Answer 49

Through cadherins binding to each other intracellularly (outside the cells), but with connections to actin microfilaments within the cell and therefore to the cytoskeleton
Filaments run into terminal webs at edges of cell, actin filaments are stabilised here by spectrin

Question 50

What are the proteins at desmosomes?

Answer 50

Cadherins

Question 51

How are desmosome junctions linked together?

Answer 51

Through cadherins linking to a cytoplasmic plaque made of attachment proteins - the adhesion molecules (cadherins) are also linked to the intermediate filament cytoskeleton.

Question 52

• What is pemphigus?

Answer 52

A blistering autoimmune disease that affects the skin - antibodies produced that attack desmosomes (specific cadherins in skin known as desmogleins). 
Antibodies form IgA^- mediated dermatoses -> aberrant deposits of IgA (immunoglobulin A, type of antibody) on the basement membrane
Affects skin (keratinocytes) and mucus membranes - junctions break down and adhesion lost, allowing skin to slough off and the formation of blisters.

Question 53

• What are the three subtypes of pemphigus?

Answer 53

• vulgaris (blisters deep in epidermis)
• foliaceus (blisters in superficial layers)
• paraneoplastic (90% mortality, blisters in deep layers and neoplasm)

Question 54

• What are the risk factors for pemphigus and treatments?

Answer 54

Never quite clear what the trigger is - environmental or genetic (risk factors for both, preferentially affects women)
Corticosteroids 93 plasmapheresis (exchange/transfusion of plasma to remove harmful antibodies)

Question 55

• What is EB?

Answer 55

Epidermolysis bullosa - genetic skin disease that is caused by mutations in keratin genes. Presents as easy blistering of the skin and mucous membranes

Question 56

What is the function of keratin?

Answer 56

Plays an important role in maintaining the integrity of the epidermis - attaches cell membrane at site of desmosome/hemidesmosome junction to nuclear membrane

Question 57

What are the four main types of EB?

Answer 57

• Simplex - KRT5 and KRT14 mutations
• Dystrophic - COL7A1 mutation (collagen gene)
• Junctional - affects laminin and collagen, present in hemidesmosomes, causes blisters in lamina lucida
• Kindler syndrome - blistering in young children

Question 58

• What treatment is possible for EB?

Answer 58

Stem cells - in future, regeneration using transgenic stem cells may be possible

Current is wound care, control of infection and pain, nutritional support and limiting of complications

Question 59

What proteins are seen in gap junctions?

Answer 59

Connexins are the proteins in gap junctions, each one has many pairs that allows for chemical and electrical signals to be passed between cells

Question 60

In which ways can epithelial transport occur?

Answer 60

It can be through (from apex to base or vice versa, transcellular/intracellular) or between cells (in the gaps between epithelia, paracellular/intercellular)

Question 61

In which direction can epithelial transport occur?

Answer 61

Apex to base (i.e. top to bottom, absorption - seen in kidneys and intestines)
Or
Base to apex (i.e. bottom to top, secretion - seen in sweat glands)

Question 62

What is the transepithelia transport of ions?

Answer 62

This is a selective exchange of ions

FIND SLIDE ON CANVAS

Question 63

• What are the modifications to increase surface area in the intestinal lumen?

Answer 63

• Plicae circulares (valves of Kerckring) - transverse folds increase SA by factor 2-3, decrease velocity for movement of chyme. ‘Branches of the tree’, villi come off from here.
• Villi - epithelial covered finger-like protrusions that increase SA by factor 10, contain capillary loops and blindly ending lymphatic vessels
• Microvilli - modifications of apical plasmalemma of epithelium lining the villi, increases SA by factor 20
• Crypts of Lieberkuhn - invaginations of epithelium into lamina propria forming intestinal glands

Question 64

Look at photo examples of epithelia

Answer 64

DO IT you WILL be tested on this.