TOB L3

Question 1

Describe surfaces with epithelial linings

Answer 1

EXTERIOR SURFACES:

• Skin
• Surface of cornea

INTERIOR SPACES OPENING TO EXTERIOR

• GI tract
• Respiratory tract
• Genitourinary tract

INTERIOR SPACES THAT DO NOT OPEN TO EXTERIOR

• Pericardial sac
• Pleural sacs
• Peritoneum
• Blood + lymphatic vessels

Question 2

Describe how epithelial cells are derived

Answer 2

Epithelial cells are derived from all three germ layers of the embryo

Ectoderm =
- Epithelium (epidermis) of skin
- Corneal epithelium of eye

Mesoderm:
- Epithelium of urogenital tract
- Blood + lymphatic vessel lining
- Pericardial + pleural sac lining
- Peritoneal lining

Endoderm
- Epithelia of respiratory tract
- Epithelia of GI tract
- Epithelium of liver + glands including thyroid, thymus, salivary glands

Question 3

Diagram showing the three germ laters of the embryo

Answer 3

Question 4

Describe the different types of epithelia

Answer 4

Simple = (one cell layer thick)
-squamous
-cuboidal
-columnar
-pseudostratified

Stratified/compound = (>once cell layer thick)
-squamous
-cuboidal
-columnar
-transitional

Question 5

What is the relation between epithelia and basement membranes?

Answer 5

All epithelia are anchroed to an underlying basement membrane

Question 6

Describe the structure and function of the basement membrane

Answer 6

1. Strong, sheet-like, flexible layer of ECM
2. Supports epithelium + important in cellular signalling

Basement membranes are mostly compised of type III (reticular fibrils), type IV (basal lamina) and type VII collagens.

BM forms a thin, flexible, acellular layer separating epithelial cells from underlying connetive tissue

Question 7

State how glycoproteinsw in the basement membrane are identified

Answer 7

PAS - Periodidc Acid Schiff stainining

Question 8

How can we distinguish simple squamous epithelium?

Answer 8

1. Nuclei bulge from cell surface
2. Single layer
3. Thin scale-like flat cells
4. All rest on basement membrane

Question 9

State locations of simple squammous epithelia

Answer 9

1. Lining of blood and lymph vessels (endothelium
2. Lining of body cavitities - pericardium, pleura, peritonduem (mesothelium)
3. Respiratory epithelium - pulmonary alveoli
4. Bowman’s capsule (kidney)
5. Loop of henle (kidney)
6. Inner and middle ear
7. Intercalated pancreatic ducts

Question 10

What is “endothelium” and state its function ?

Answer 10

Simple squamous epithelium lining vasculature (arteries, veins, capillaries, lymphatic vessels)

1. Exchanges gases + nutrients
2. Allows specific blood cells to enter tissues
3. Regulates platelet coagulation

Question 11

What is “mesothelium”?

Answer 11

Epithelium lining the body cavities (pleural + abdominal)

Question 12

Functions of simple squamous epithelia

Answer 12

1. Lubrication - to allow movement of viscera (pericardium, pleura, peritoneum)
2. Gas exhange - in Pulmonary alveoli
3. Barrier - in Bowman’s capsule
4. Passive transport of water and ions - in loop of henle
5. Active transport by pinocytosis (mesothelium + endothelium)

Question 13

How can we distinguish simple cuboidal epithelium?

Answer 13

1. Cells equal width + height
2. Nucleus centrally placed + round
3. May / may not feature brush border of microvilli
4. All rest on basement membrane

Question 14

State locations of simple cuboidal epithelia

Answer 14

1. Thyroid follicles
2. Small ducts of many exocrine glands
3. Kidney tubules
4. Respiratory bronchioles
5. Mesothelium of ovary

Question 15

Histology of simple cuboidal epithelium of pancreatic duct

Answer 15

Question 16

State the role of simple cuboidal eputhelium in thyroid gland follicles

Answer 16

Simple cuboidal epithelium of thyroid gland follicles is made up of thyrocytes

Thyrocytes synthesise thyroxine, which is stored in its precursor form, thyroglobulin in the colloid

C cells (parafollicular cells) secrete CALCITONIN

Question 17

State the role of simple cuboidal epithelium in the kidney tubules

Answer 17

1. 65% of golumerular filtrate absorbed by PCT
2. Na+ resorbed in DCT under control of aldosterone (secreted by adrenal cortex)
3. ADH secreted by posterior pituitary gland increases permeability of collecting ducts leading to production of hypertonic urine

Question 18

Histology of mesothelium of ovary

Answer 18

Question 19

State functions of simple cuboidal epithelia

Answer 19

1. Absoroption + conduit (exocrine glands)
2. Absorption, conduit, secretion (kidney tubules)
3. Barrrier / covvering (ovary)
4. Hormone synthesis + mobilisation (thyroid)

conduit - channel liquid
mobilisation - moving

Question 20

How can we distinguish simple columar epithelium ?

Answer 20

1. Rectangular cells
2. Ovoid, basal nucleus
3. May be cilliated or may have microvilli
4. All rest on basement membrane

Question 21

State locations of simple columnar epithelium

Answer 21

1. Stomach lining + gastric glands
2. Small intestine + colon
3. Gallbladder
4. Large ducts of exocrine glands
5. Oviducts
6. Uterus
7. Ductuli efferentes of testsis

Question 22

Histology of simple columnar epithelium in the colon

Answer 22

Simple columnar epithelium: Crypts of Lieberkuhn in the colon

Question 23

State the role of simple columnar epithelium in the gall bladder

Answer 23

1. Concentrates bile (produced by liver) by absorbing water + electrolytes

Question 24

State the role of simple columnar epithelium in straiated duct of parotid salivary gland

Answer 24

• Removes Na+ to make saliva hypotonic (lots of energy + transporters needed)

Why is the simple columnar epithelium of this duct striated?

• due to in foldings of the cell membranes

Question 25

State 4 types of intercellular junctions

Answer 25

Interceullular junctions create a contiguous (boarders touching), functional epithelium

1. Tight junctions
2. Gap Junctions
3. Adherance Junctions
4. Spot Junctions

(make sure to recognise on diagram)

Question 26

Tight Junctions

Answer 26

1. Also called Zonula occludens
2. Consist of occludins + connect microfilaments of adjascent cells
3. Control diffusion in apical regions

Question 27

Adherens junctionjs

Answer 27

1. Formed of belts of cadherin proteins linking microfilaments of adjascent cells

Question 28

Spot Junctions

Answer 28

1. Also called maculae adherens / desmosomes) are comprised of integrins + provide a contigous epithelium
2. Anchored to intermediate filaments

Question 29

State the function of hemidesmosomes

Answer 29

Anchor cells to basal lamina via integrins

Question 30

State the function of Junctional Complexes

Answer 30

Control passafe of luminal complexes between cells

Junctional complexes isolate the luminal sapce from the intercellular space.

Fluid is moved from e.g. the intestinal lumen into cell, then into intercellular sapce, then across basement membrane into connective tissue, int vasculature

Question 31

State the functions of Cholera Toxins

Answer 31

Disrupt complex junctions in gut
This increases intestinal permeability

Question 32

Give an example of a specialisation of epithelia

Answer 32

Simple columnar epithelia cells with microvilli

Question 33

Describe the structure and function of microvilli in the context of simple columnar epithelia

Answer 33

Microvilli are apical extensions that greatly increase the surface area for selective absorption of intestinal contents

Supported by actin microfilaments + join microfilaments of cytoskeleton at the terminal web

Question 34

Describe how the surface area of the small intestine is increased

Answer 34

1. Plicae circulares
2. Villi
3. Microvilli

The mucosa of the samll intestine have a series of folds called plicae circulares

Outgrowth of villi from mucosa further increase SA

Microvilli increase SA of plasma membrane for absorption

Question 35

Describe the sturcture and function of lacteals

Answer 35

Lacteals (dilated lymphatic vessels)
In lamina propria
Absorption of fat

Smooth muscle produces local rythmc movements to improve efficiency of absorption

Question 36

State the structure and function of cilia

Answer 36

Short, motile, membrane extensions
Supported my microtubules
Move substances (e.g. mucus) over cell surface

Question 37

Describe how cillia are motile

Answer 37

Motile means they can move themselves
This is due to transient interactions between dynein + microbules

Question 38

How are cillia anchored?

Answer 38

Cillia are anchored at BASAL BODIES

Question 39

Give a structural difference between cilia and microvilli

Answer 39

Longer + wider
core structure = axoneme

Question 40

Give an example of cilliated simple colunnar epithelium

Answer 40

Oviduct
Cillated cells propel ova towards uterus
Non-cilliated peg cells produce mucus (arrow on diagram)

Question 41

State functions of simple columnar epithelia

Answer 41

1. Absorptiuon - small intestine, colonn, gallbladder
2. Secretion - stomach lining, gastric glands, small intestine, colon
3. Lubrication (small intestine + colon)
4. Transport (oviduct)
5. Lining of some larger exocrine ducts

Question 42

How can we distinguish pseudostratified columnar epithelium?

Answer 42

1. Some cells tall, some short
2. All rest on basement membrane
3. Some cilliated
4. Nucleu found in basal 2/3?

Question 43

State locations of pseudostratified columnar epithelia

Answer 43

1. Lining of nasal cavity, trachea, bronchi
2. Epididymis, extending into ducturs (vas) deferens
3. Large excretory ducts e.g. of salivary glands
4. Auditory rube + part of tympanic cavity
5. Lacrimal sac
6. Parts of male urethra

Question 44

Histology of upper (conducting) respiratory tract

Answer 44

• Motile cilia
• Mucus secreting goblet cell
• Nuclei at different levels
• Thick basement membrane

Question 45

Describe the mucocillary escalator

Answer 45

1. Cillia associated with epithelium of upper respiratory tract beat at 12 Hz within a watery SOL (solution?) exuded (released) by epithelial cells
2. Above “sol” lies a “gel” viscoelastic blanket of mucus.
3. Mucus immobilises particles + lubricates their passage as cillacry action moves them in one direction to the oropharynx, where they are swallowed

Question 46

Diagram of upper respiratory tract

Answer 46

Question 47

State the meaning of viscoelastic

Answer 47

Substance with both viscous + elastic properties when deformed

Question 48

Describe the structure and function of the epididymis

Answer 48

Coiled tube behind each testis
Pseudostratified epithelium
Sperm from testis mature + aquire motility as they move through it
They have principal cells

Question 49

State the function of principal cells in the epididymis

Answer 49

Absorb fluid
Secrete substances to promote maturation of sperm, phagocyte residual bodies + degenerating sperm

Question 50

What are the stem cells of the epithelium?

Answer 50

Basal cells

Question 51

Describe the structure and function of stereocilia in the epididymis

Answer 51

Giant microvilli
Immotile
Supported by actin

Increase SA for absorption, phagocytosis, secretion
(including phagocytosis of degenerate spermatoaoza)

Question 52

Histology of interlobular duct of parotid gland

Answer 52

Question 53

Describe the structure and function of the salivary glands

Answer 53

Anterior + inferior to opening of ear + produces serous (watery) secretions

Question 54

Functions of pseudostratified columnar epithelium

Answer 54

1. Secretion and conduit (a channel) (respiratory tract, ductus deferens/sperm duct/vas deferens)
2. Absorption in epididymis
3. Particle trapping + removing (respiratory tract)

Question 55

How can we distinguish stratified squamous epithelium (non-keratinised)?

Answer 55

Squamous cells are the most outer layer

Question 56

State locations of stratified squamous epithelium (non-keratinised)

Answer 56

1. Oral cavity
2. Oesophagus
3. Larynx
4. Vagina
5. Part of anal canal
6. Surface of cornea
7. Part of inner surface of eyelid
8. Distal urethra

Question 57

State the function of stratified squamous non-keratinised epithelium in the oesophagus

Answer 57

1. Provides protection from abrasion
2. Minimises water loss

Question 58

Describe how shedding flattened cells are replaced within the stratified squamous non-keratnised epithelium in the oesophagus

Answer 58

Flattened cells shed from surface replaced by:

1. Proliferation (rapid reproductio of cell)
2. Differntiation of basal cells

Question 59

Describe the sturcture and function of the epiglottis

Answer 59

Flap of tissue that sits beneath your tongue at the back of the throat

Closes windpipe (trachea) while eating to prevent food entering the airway

Question 60

Describe the epithelium present in the epiglottis

Answer 60

Two sides of epiglottis are lined by 2 different types of epithelium.

1. Stratified squamous non-keratnised epithelium (buccal cavity, oesophagus)
2. seudostratified columnar epithelium
   (characteristic of upper respiratory tract)

PAY ATTENTION TO HISTOLOGY
MAKE SURE YOU TELL THE DIFFERENCE IN EPITHELIUM

Question 61

Histology of epithelium of epiglottis

Answer 61

PAY ATTENTION TO HISTOLOGY
MAKE SURE YOU TELL THE DIFFERENCE IN EPITHELIUM

Question 62

Histology of stratiefied squamous non-keratanised eipithelium in the cornea

Answer 62

Question 63

Describe the function of stratified squamous non-keratinised epithelium in the vagina

Answer 63

Produces glycogen under influence of oestrogen
Glycogen is substrate for lactobacilli, which reduces pH by producing lactic acid
Prevents colonisation by pathogenic organisms
Epithelium degenerates post menopause

Question 64

State functions of stratified squamous non-keratinised epithelium

Answer 64

1. Protection against abrasion
2. Reduces water loss, but itself is moist
3. Secretion (vagina)

Question 65

How can we distinguish stratified squamous keratinised epithelium?

Answer 65

Question 66

State locations of stratified squamous keratnised epithelia

Answer 66

1. The skin (Epidermis)
2. Limited distrobution in oral cavity (e.g. gums)

Question 67

Histology of stratified squamous keratinsied epithelium in epidermis (thin skin)

Answer 67

Question 68

Histology of stratified squamous keratinsied epithelium in epidermis (thick skin, sole of foot)

Answer 68

Question 69

State functions of stratified squamous kerinised epithelia

Answer 69

1. Protection against abrasion + physical trauma
2. Prevention of water loss
3. Prevention of microbe ingress
4. Shield against UV light damage

Question 70

How can we distinguish transitional epithelium?

Answer 70

Question 71

Describe the location of transtional epithelium

Answer 71

Lines upper (proximal) parts of urinary tract

1. Renal calyces (singular: calyx)
2. Ureter
3. Bladder
4. Urethra (proxomal)

Question 72

Describe the structure and function of the transitional epithelium in the urether

Answer 72

Transitional epithelium is distensible, Allowing structures to stretch as they fill with urine.

Protection of underlying tissue from cytotoxic effects of urine

RECOGNISE BINUCLEATE DOME CELL

Question 73

Define the term “distensible”

Answer 73

Stretching by internal pressure

Question 74

Histology showing the difference between a relaxed and distended ureter

Answer 74

Question 75

Describe how the organisation of transitional epithelium changes in the ureter

Answer 75

Chanegs from smapp basal cells to intermediate layers of more columnar cells, with a superficial layer of bulbous umbrella cells

Question 76

Describe the rates of renewal of epithelia

Answer 76

Epithelia constantly proliferate to maintain protective barriers

Cell renewal rate of epithelia higher than other tissues

Renewal rate increases following injury

Time taken from cell division in basal layer of epidermis to eventually being rid of is 28 days

Question 77

Which epithelium has the longest turn over time?

Answer 77

Respiratory epithelium

Question 78

Describe how enterocytes are replaced

Answer 78

By regeneratvive cells in base of intestinal crypts
(every 3.48 days)

Question 79

State the 3 different shapes of epithelia

Answer 79

1. Squamous
2. Cuboidal
3. Columnar