Lecture 6: Epithelial cells & specialised surfaces

Question 1

What is a mucous membrane?

Answer 1

3 layers of epithelium, connective and smooth muscle tissue that line internal tubes that open to exterior.

Question 2

Where can you find mucous membranes?

Answer 2

GI tract
Respiratory tract
Urinary tract

Question 3

What is a serous membrane?

Answer 3

2 thin layers of mesothelium and connective tissue that lines closed body cavities; exude lubricants and envelop viscera (internal organs)

Question 4

Where can you find serous membranes?

Answer 4

Peritoneum of abdominal organs
Pleural sacs of lungs
Pericardial sac of heart

Question 5

Compare and contrast serous and mucous membranes.

Answer 5

S= lines closed body cavities 
M= lines open-to-exterior cavities

S= 2 thin layers of tissue
M= 3 layers of tissue

Both carry blood, lymph vessels and nerves

Question 6

Describe and explain the analogy of serous membranes.

Answer 6

Balloon analogy: outer balloon wall is parietal serosa & inner balloon wall is visceral serosa. Air inside balloon is cavity and (balloon surrounded) hand is an organ.

Question 7

Where is the parietal serosal membrane in relation to the cavity?

Answer 7

It lines the outer edges of the cavity.

Question 8

Where is the visceral serosal membrane in relation to the cavity?

Answer 8

It is closest to the organs surrounded by the membrane.

Question 9

What is the definition of epithelium?

Answer 9

Adjacent cell sheets that cover external surfaces of the body and line internal surfaces; derived from embryological germ layers.

Question 10

What are the names of the embryological germ layers and what do they become?

Answer 10

Ectoderm: epidermis
Mesoderm: inner & outer GI tract lining
Endoderm: inner linings of body cavities

Question 11

Give some surfaces (exterior, interior to exterior and closed interior) with epithelial linings.

Answer 11

Exterior: skin

Interior to exterior: GI tract; respire. tract; genitourinary
tract.

Closed interior: pericardial sac; pleural sacs; blood vessels, lymphatic vessels

Question 12

How can you classify epithelial tissue? (8 points)

Answer 12

• simple squamous
• simple cuboidal
• simple columnar
• stratified squamous (non and keratinised)
• stratified cuboidal
• stratified columnar
• pseudostratified columnar
• transitional

Question 13

How can you tell the difference between stratified columnar and pseudostratified columnar?

Answer 13

Stratified columnar has more than 1 cell thick whereas pseudo. columnar is 1 cell thick but the nuclei are at different levels: hence looks stratified.

Question 14

What is the basement membrane?

Answer 14

Basal lamina and reticular layer found at the basal (bottom) part of cells and this anchors epithelium and underlying connective tissue.

Question 15

Give the functions of simple squamous epithelia.

Answer 15

Fast material exchange
Barrier to fluids (lymphatics and vasculature)
Barrier in the brain and CNS (prevent fluid leaking out)

Question 16

What are some examples of simple squamous epithelium?

Answer 16

Bowman’s capsule barrier
Lungs, heart, viscera serosa
Mesenchymal cells of cavities

Question 17

What are 3 functions of epithelia?

Answer 17

Secretion
Protection
Reproduction
Reabsorption
Lubrication

Question 18

Name the 2 opposing surfaces of an epithelial cell and describe what you find at these surfaces.

Answer 18

Apical: microvilli, cilia, keratin(skin)

Basal membrane: basal & reticular lamina

Question 19

Give the functions of simple cuboidal.

Answer 19

Absorption
Absorption & secretion
Barrier/ covering
Hormone syn. storage and mobilisation

Question 20

What are some examples of simple cuboidal?

Answer 20

Lining of exocrine glands
Follicle cells of thyroid
Lining of ovaries
epithelial lining kidney tubules

Question 21

Give the functions of simple columnar.

Answer 21

Absorption
Secretion
Lubrication

Question 22

What are some examples of simple columnar?

Answer 22

Small intestine
Colon
gallbladder
gastric glands

Question 23

Give the functions of pseudostratified columnar.

Answer 23

Secretion
Mucus secretion
Particle trapping and removal

Question 24

What are some examples of pseudostratified columnar?

Answer 24

Nasal cavity
Trachea
Bronchi
Upper respiratory tract

Question 25

Give functions of stratified non-keratinised squamous epithelia.

Answer 25

Protection against abrasion

Reduce water loss but maintain moisture

Question 26

What are some examples of stratified non-keratinised squamous?

Answer 26

Vagina
Anal canal
Surface of cornea
Inner surface of eyelid
Oral cavity 
Oesophagus

Question 27

How does stratified keratinised squamous & stratified non-keratinised squamous differ?

Answer 27

Top layers of keratinised cells have lost their nuclei and become cornified. The outermost cells of epithelium are called the stratum corneum.

Question 28

Give the functions of stratified keratinised squamous epithelial.

Answer 28

Reduce water loss
Protection against abrasion
Prevents pathogen entry
Reduce microbial colonisation (top surface cells = dead)

Question 29

What are some examples of stratified keratinised epithelium?

Answer 29

Mainly epidermis of skin

Limited in oral cavity

Question 30

Describe the epidermis structure.

Answer 30

Mainly keratinocytes but also has…
Melanocytes
Langerhans cells

Question 31

How do keratinocytes get to the apical surface and why are they important?

Answer 31

1. Keratinocyte mitosis occurs in basal layer.
2. Daughter keratinocytes force upper layers (mature
   keratinocytes) to apical surface
3. Daughter keratinocytes differentiate and lose their
   mitotic ability.

Important as they syn. keratins which enforces strength of epidermis.

Question 32

How are keratinocytes and psoriasis related?

Answer 32

Psoriasis is where the transit time (basal –> stratum corneum) is reduced from a normal 28-40 to 2-4 days. Causing too many mature keratinocytes to be at apical surface. Thus, there isn’t enough time for keratin to be produced and enforce the skin. Resulting in patches of silvery, scaly, itchy skin.

Question 33

Skin colour is based off the number of melanocytes in the skin.
True or False?

Answer 33

False

Skin colour depends on the amount of melanin (pigment) the melanocytes produce. More melanin = darker/tanned skin

Question 34

What do Langerhans cells do?

Answer 34

Langerhans cells are skin immune cells that present antigens to T lymph. which mediates an immune reaction: allergic contact dermatitis.

Question 35

Why do melanosomes sit above the nucleus?

Answer 35

Their pigment protects the nuclei from UV damage.

Question 36

Give the functions of transitional epithelium.

Answer 36

Distensibility

Protecting underlying tissue from toxic chemicals

Question 37

Where would you find transitional epithelium?

Answer 37

Urinary tract: bladder, ureters, proximal urethra

Question 38

Give some functions of stratified columnar.

Answer 38

Secretion
Absorption
Protection

Question 39

Where would you find stratified columnar?

Answer 39

Male urethra

Conjunctiva of eye

Question 40

Give some examples of cell specialisations and their roles.

Answer 40

Keratin: prevents water loss, protects against abrasions

Cilia: controls micro-movement of lumen contents

Goblet cells: mucus secretions that lubricate, moisten and trap particles

Club cells: protects bronchioles and acts as stem cells for respiratory epithelium

Microfold cells: allows rapid sampling of gut microflora

Stereocilia: converts pressure waves–> electrical signals

Question 41

What prevents goblet cells from secreting very thick mucus?

Answer 41

Have microvilli on surface to reabsorb more H2O for release of more watery mucins. Cl- needed to be released out of goblet cell: H2O moves via osmosis (with Cl-). Hence thinner mucus.

Question 42

What is cystic fibrosis (CF)?

Answer 42

Hereditary disease in which a mutation in CFTR gene prevents sufficient Cl- being released out of goblet cells. Results=thick, sticky mucus.

Question 43

How can cystic fibrosis (CF) affect the body?

Answer 43

Breathlessness: thick mucus blocks & infects bronchial passages=damages lungs

Salty sweat: malfunctioning sweat glands as less H2O absorbed so Cl- and Na+ crystallises on skin.

Thick, non-motile stools: need surgery to fix in neonates

Infertility: MEN=sperm can’t move in fine ducts so decrease sperm vol.
FEM.=sperm can’t move up cervix during intercourse as blocked by mucus plug.

Can’t digest food: less H2O means enzymes can’t move as dehydrated secretions=stagnations

Question 44

Describe the role of club cells.

Answer 44

Protect bronchiolar epithelium by secreting uteroglobin and a surfactant.

Detoxify harmful substances inhaled by cytochrome P450 enzymes in SER.

Act as stem cells: become ciliated cells to regenerate epithelium.

Question 45

Where is the only place you’ll find microfold cells?

Answer 45

Small intestine near lymph nodes.

Question 46

What is an advantage and disadvantage of having microfold cells?

Answer 46

Ad=trap pathogens and foreign particles for immune response

Con=pathogens can exploit open area as entry to deeper tissues

Question 47

How do microfold cells contribute to the immune response?

Answer 47

1. Trap particles + pathogens
2. Presents to dendritic cells and processes them
3. Presents to lymphocytes + macrophages to raise an
   immune ‘alert’

Question 48

What are the hair cell organelles responsible for hearing and balance?

Answer 48

Stereocilia

Question 49

Aside from balance and hearing, what is the other role that stereocilia have?

Answer 49

Facilitate residual sperm absorption after spermiation.

Could be involved in sperm movement along ejaculatory ducts.

Question 50

What are vas deferens/ ductus deferens?

Answer 50

Thick-walled tube that transports sperm from epididymis (where sperm is stored).

Question 51

Smoking affects the lungs, what happens in earlier stages?

Answer 51

1. Normal mucus layer thickens
2. Cilia die
3. Ciliogenesis occurs in 2-4 days

Question 52

Smoking can cause chronic health issues, what happens at the chronic stages?

Answer 52

1. Goblet + basal cells divide.
2. Club cells die (no bronchiolar protection)
3. Carcinogens cause mutations + cancerous growth
4. Alveoli pneumocytes die
5. Fibroblast lay scar tissue

Question 53

Order the cell renewal rates from shortest to longest…

Trachea, Club cells, Alveoli, Goblet cells

Answer 53

1. Alveoli (8 days)
2. Goblet cells (10 days)
3. Trachea ( 1-2 months)
4. Club cells (never)

Question 54

What are some respiratory conditions associated with smoking?

Answer 54

Acute bronchitis
Chronic bronchitis
Emphysema
COPD
Asthma

Question 55

Describe the difference between acute and chronic bronchitis physiologically.

Answer 55

Acute: not as serious with less lung function, breathlessness, cough & mucus production due to inflammation, swollen, narrowed and mucus blocked airways.

Chronic: more serious + is the same as acute physiologically but will start to have irreparable damage to bronchiolar passages.

Question 56

What is emphysema?

Answer 56

Shortness of breath because air sacs lost elastic recoil due to permanent widened air spaces. Thus, normal alveoli size is larger.

Question 57

Which 2 diseases combined would give chronic obstructive pulmonary disease (COPD)?

Answer 57

Emphysema and chronic bronchitis.

Question 58

What is a bronchospasm?

Answer 58

Tightened smooth muscle layer in bronchiolar passages.

Question 59

Which condition is a combination of bronchospasms, mucus obstruction and narrowed airways?

Answer 59

Asthma