Skin And Extracellular Matrix

Question 1

What is the cause Pemphigus

Answer 1

Antibodies attack cadherins and integrins in keratinocytes causing defects in cell to cell and cell to matrix adhesion

Question 2

Key feature of Pemphigus and main types of the disease

Answer 2

Blisters on skin and in oral cavity

Two types:

• Pemphigus vulgaris
• Pemphigus foliaceus

Question 3

Molecular basis of Pemphigus Volgaris

Answer 3

Autoantibodies attack cell surface antigens (desmogleins 1 and 3 - cadherins)

Question 4

Symptoms and treatment of pemphigus vulgaris

Answer 4

Symptoms:

• intra-epidermal blisters (above dermis) which can rupture
• when ruptured causes bleeding and fluid leaking
• proteolytic enzymes produced breakdown enzymes in these cells

Treatment:

• immunosuppressive agents
• corticosteroids (decrease inflammation)

Question 5

What is a key identifying feature in the histology of Pemphigus vulgaris

Answer 5

Tombstone rows

- due to single layer of basal cells still attached to dermis of skin

Question 6

Molecular basis of Bullosa Pemphigoid

Answer 6

Autoantibodies attack BP 180 and BP 230 (basement membrane proteins) which connect hemidesmosome to intermediate filaments

Skin keratinocytes cannot attach to basement membrane

Question 7

Symptoms and treatment of Bullosa Pemphigoid

Answer 7

Sub-epidermal bullae (blisters)

Blisters which appear on:

• abdomen
• groin
• upper thighs
• arms
• along creases in skin (e.g. inner elbow joint)

Treatment:
- immunosuppressants or steroids

Question 8

What is keratin and what is it’s function?

Answer 8

Intermediate filament which forms alpha helices or beta sheets

Functions:

• hold epithelial cells together through cell junctions
• provides mechanical strength at hemidesmosomes and desmosomes

Question 9

Keratin structure

Answer 9

Elongated molecule which N terminus (head) and C terminus (tail)

Composed of subunits
- Type 1 subunit pairs (acidic)
- type 2 subunit pairs (basic)
Different subunit compositions are expressed in different tissues

Question 10

Keratin subunits expressed in epithelium

Answer 10

Basal layer (stratified epithelia) 
- keratins 5 and 14 

Suprabasal layers (layers above the basal layer) 
- keratins 1 and 10

Question 11

Intermediate Filament assembly

Answer 11

1. keratin polypeptide
2. Another keratin monomer comes and coils with the first monomer to create a dimer
3. Another dimer is created and joins with the first creating a tetramer
4. Happens continuously until a protocol amend is formed
5. Eight tetramers are then twisted into a rope like filament

Question 12

What is the main cause of Karen in associated disease

Answer 12

If either one of a keratin pair is lost

Question 13

What are the two keratin associated diseases

Answer 13

Epidermolysis bullosa

Epidermolysis hyperkeratosis

Question 14

Epidermolysis bullosa simplex symptoms

Answer 14

Blisters due to skin not being able to resist mechanical stress

• blisters appear primarily on hands and feet
• can usually heal without scarring
• sever cases have widespread blisters which can lead to secondary infections and dehydration

Mostly appears in infants and children

Question 15

Molecular basis of Epidermolysis bullosa simplex

Answer 15

Genetic mutations = KRT5 or KRT14 genes

KRT14 mutation = non functioning keratin 14 molecule
KRT5 mutation = unstable keratin protein
Phenotype = keratin clumping or disorganised filaments

Because they are expressed in basal cells epidermis separated from dermis

Severity depends on type of mutations

Question 16

Epidermolysis hyperkertosis symptoms and genetic inheritance

Answer 16

Symptoms in infants:

• very red skin (erythroderma)
• severe blisters

Symptoms in adults:

• skin thickening
• blisters and erythroderma less frequent

Genetic inheritance:
Autosomal dominant

Question 17

Pathophysiology of epidermolytic hyperkeratosis

Answer 17

Mutations in KR1 and KR10

• keratin aggregates in suprabasal cells (stratum corneum)
• loss of strong intermediate filaments
• increase in mitosis

Question 18

Other keratin disorders

Answer 18

Keratin 6 and 16 mutations
- hair and nail disorders

Keratin 3 and 12 mutations
- cornea defects

Epidermodysplasia verruciformis (tree man)

Question 19

Epidermodysplasia verruciformis symptoms, genetic inheritance

Answer 19

Autosomal recessive hereditary disorder

Symptoms:

• wart like growths
• scaly macules and papules
• on hands and feet

Question 20

Epidermodysplasia verruciformis molecular basis

Answer 20

Loss of function mutations in EVER1/TMC6 or EVER2/TMC8 (chromosome 17)

• code for membrane proteins which forms a complex with zinc transporter protein in ER membrane of keratinocytes
• these proteins also act as restriction factors for EV-specific HPV in keratinocytes (limit access of zinc to viral proteins) without the genes it increases risk of HPV

Question 21

What is the ECM and what is its function?

Answer 21

Network of proteins and polysaccharides

The ECM influences cell:

• growth
• movement
• shape
• proliferation
• survival
• development

Question 22

Which cells produce the ECM?

Answer 22

Fibroblasts

Question 23

What is the ECM composed of?

Answer 23

3 major macromolecules:

1. Proteoglycans and glycosaminoglycans (GAGs)
   - produce polysaccharide chains
2. Fibrous proteins
   - help with structure
   - collagen for strength and elastin for stretch
3. Glycoproteins
   - helps with adhesion
   - fibronectin (helps adhere fibroblasts to matrix)
   - laminin (adhere epithelium to basal lamina)

Question 24

What is the basal lamina and what are its macromolecules components?

Answer 24

Specialised ECM which lies beneath epithelial cells

Components:

• laminin to adhere
• type 4 collagen

Question 25

Glycosaminoglycan (GAG) structure

Answer 25

Unbranched polysaccharide chains of repeated disaccharides

Disaccharide:

1. Always an amino sugar (N-acetylglucosamine or N-acetyalgalactosamine)
2. Always uronic acid

Sulphate in most cases (has a sulphate group on each block

Question 26

Glycosaminoglycan (GAG) chemical features

Answer 26

Hydrophilic (likes water)

Negatively charged

• attract positive ions (Na) in water
• form hydrated gels

Helps withstand compressive forces (swelling)

Question 27

What are proteoglycans and what is it’s structure

Answer 27

A proteoglycan are Glycosaminoglycan (GAG) covalently linked to a protein

Structure:
Protein - linkage tetrasaccharide - GAGs

Question 28

Types of Proteoglycans and their main functions

Answer 28

Decorin:

• 1-10 GAG chains
• influences fibrillogenesis
• assists in assembly of collagen fibrils

Aggrecan:

• 100 GAGs
• resists compression

Ribonuclease (RNase)
- catalyses degradation of RNA into smaller components

Question 29

Proteoglycan Functions

Answer 29

Mechanical

Filter
- regulate molecules getting in and out of the cell by charge or size

Chemical signalling (syndecans) 
- bind to growth factors for cell growth and proliferation 

Regulate protein or enzyme activity

Question 30

4 classes of proteoglycans

Answer 30

Intracellular

Transmembrane

Pericellular

ECM

Question 31

Where is collagen produced? Where is it mostly found?

Answer 31

It’s a fibrous protein secreted by fibroblasts

Major component in hair and skin (can lasts up to 10 years compared to other proteins)

Question 32

What are the classes of collagen?

Answer 32

1. Fibrillar collagens
2. Fibril-associated collagens
3. Network forming collagens

Question 33

Fibrillar Collagen Class

• types
• where is it found

Answer 33

Type 1,2,3,5,11

Found in:

• skin
• bone
• tendons
• ligaments
• cornea
• organs

Question 34

Fibril-associated class collagens

• types
• where is this found
• function

Answer 34

Type 9 and 12

9 - cartridge and cornea
12 - tendons and other tissues

Function: link Fibrillar collagens together

Question 35

Network Forming class of collagens

• types
• where is it found/function

Answer 35

Type 4 and 7

4 - form mesh networks in the basal lamina
7 - anchoring

Question 36

Collagen structure

Answer 36

Long, stiff, triple stranded helix

3 collagen alpha chains wound together

• 42 types of alpha chains
• 40 combinations of different alpha chains wound together

Rich in proline and glycine

Question 37

Synthesis and secretion of collagen pathway

Answer 37

1. Synthesis of pre collagen alpha chains on ribosomes
2. Hydroxylation of proline and lysine
3. Release from ribosome and glycosylation of selected hydroxylysines = pro collagen
4. Formation of triple helix and folding of globular domains
5. Secretion from cell
6. Remove pro-sequences from N and C terminals = tropocollagen
7. Deamination of lysine residues to form aldehyde cross links = collagen
8. Aggregation and self-assembly into collagen fibrils which make collagen fibres

Question 38

How is collagen organised

Answer 38

In bundles

Question 39

What is the purpose of elastin

Answer 39

For tissues to stretch and recoil

Question 40

What is the chemical components and features of elastin

Answer 40

• 750 amino acids
• hydrophobic (don’t like water)
• rich in proline and glycine (not glycosylated)
• loose random coil formation

Question 41

How is elastin synthesised?

Answer 41

1. Tropoelastin is secreted into extra cellular environment
2. These become cross linked to form elastin fibres
3. Networks of these fibres come together to make a sheet
4. These sheets are then covered with microfibrils

Question 42

Common disorders of the extra cellular matrix

Answer 42

• arthritis
• scurvy
• Marian syndrome
• osteogenesis imperfecta
• chondrodysplasias
• Euler see-Danilo’s syndrome

Question 43

What is arthritis and what are the 2 types?

Answer 43

Irreversible destruction of cartilage, tendon and bone

Types:

1. Rheumatoid arthritis (autoimmune disease)
2. Osteoarthritis (due to injury)

Question 44

What macromolecules are found in cartridge?

Answer 44

Proteoglycans and type 2 collagen

Question 45

Which joints are mostly affected by osteoarthritis?

Answer 45

Hip
Hand
Foot
Knee

Question 46

What are some features of rheumatoid arthritis in the knee joint?

Answer 46

• subchondral cysts and sclerosis (bone hardening)

Question 47

Difference between osteoarthritis and rheumatoid arthritis in synovial joints

Answer 47

Osteoarthritis:
- thinning of cartridge which leads to bone ends rubbing together

Rheumatoid:
- synovial membrane becomes inflamed which causes bone erosion

Question 48

Rheumatoid arthritis aetiology

Answer 48

1. Due to the inflammation of synovial membrane inflammatory cytokines (TNF alpha and interleukins) are released
2. This stimulates the production of matrix metalloproteinases (MMP’s) which degrade the ECM
   - MMP 13 plays a key role

Question 49

Collagen related disorders

Answer 49

• Ehlers-Danilo’s syndrome
• scurvy
• Chondrodysplasias
• osteogenesis imperfecta

Question 50

Scurvy symptoms

Answer 50

• swelling and bleeding of gums
• easily bruised and bleeding
• pain and swelling of joints
• hair and tooth loss
• small bleeding around hair follicles and under nails
• fatigue
• dry and pale skin

Question 51

Scurvy Aetiology

Answer 51

Vitamin C deficient

Vitamin C needed for collagen processing (proline and lysine hydorxylation)
- without this pro-collagen alpha chains degrade

Leads to:

• fragile blood vessels (explains the bleeding)
• loose teeth

Question 52

Osteogenesis imperfecta aetiology

Answer 52

Results from mutations in collagen 1 gene
- collagen 1 needed for skin, tendons and bones to provide tensile strength

Severity of disease depends on location of mutation

Question 53

Severity vs gene mutation location in osteogenesis imperfecta

Answer 53

Ranges from normal quality collagen but insufficient quantities
To
Mutations encoding middle to C terminal part of protein which is lethal
- e.g. glycine substituted for a bulkier amino acid = collagen fibrils cannot be formed

8 different types

Question 54

Osteogenesis imperfecta symptoms

Answer 54

• Blue whites of the eyes
• bones fracture easy (due to missing strength)
• slight spinal curvature
• loose joints
• poor muscle tone
• early loss of hearing in some children

Question 55

Chondrodysplasia mutation and symptoms

Answer 55

Mutation in collagen 2 which is needed in cartilage

Symptoms

• abnormal cartilage, bone and joint deformities
• shortening of fingers and toes

Question 56

Ehlers-danlo’s syndrome aetiology

Answer 56

Mutations in 20 different collagen and collagen related genes

• collagen 1,2, 5
• collagen biogenesis/interacting proteins

Leads to abnormal assembly of collagen fibres

Question 57

Ehlers- Danlos syndrome symptoms and complications

Answer 57

Symptoms:

• hyper-flexible joints
• stretchy skin

Complications:

• aortic dissection
• joint dislocations
• chronic pain
• early osteoarthritis

Question 58

Elastin related disorders

Answer 58

Marian syndrome

Question 59

Marian syndrome symptoms

Answer 59

• tall stature
• arachnodactyly (excessively long fingers and toes)
• defects of heart (valves and aorta)
• chest malformation
• eye problems (dislocation of lens)
• flexible joints
• scoliosis (curvature of the spine)

Death can occur due to rupture of the aorta (thinning of elastin in aorta)

Question 60

Marian Syndrome cause

Answer 60

Autosomal dominant (hereditary)

Mutation in FBN1 gene on chromosome 15
- encodes for Fibrillin-1

Fibrillin 1 forms microfibrils which forms a sheath around elastin fibres
- when this is lost elastin is degraded