Epithelial Structure

Question 1

Xeroderma pigmentosum

Answer 1

defect in DNA repair, DNA repaired via nucleotide excision repair

UV sensitivity syndrome (UVSS)

disrupted desmosomes in basal keratinocytes

Question 2

Connective Tissue

Answer 2

directly bears mechanical stresses of tension and compression

bones and tendons

plenty of ECM and sparse cells

Question 3

Epithelial Tissue

Answer 3

polarized

mechanical stresses transmitted from cell to cell by cytoskeletal filaments

cytoskeleton of cells linked from cell to cell by anchoring junctions

ECM is scanty, just thin basal lamina

Question 4

Cell to cell anchoring junctions

Answer 4

adherens junction

desmosomes

Question 5

Adherens junction

Answer 5

cadherins, catenins, and actin
-connect actin bundle from one cell to the next one

-actin-linked cell matrix adhesion anchors actin filament in cell to the ECM

e-cadherins: transmembrane adhesion molecules associated with cell motility and shape

Question 6

Desmosomes

Answer 6

anchoring junctions, attach cells and cytoskeletons to other cells and or to the ECM by using intermediate filaments

found in heart and skin (high stress/tension tissue) because they provide mechanical strength

spot-welds
Ca+ dependent

spot desmosome: between cells
hemidesmosome: bind to ECM

uses cadherins: 1. Desmoglein 2. Desmocollin

Question 7

Tight junction

Answer 7

seals apical membranes, cell polarity is key

gap between epithelial cells
discretion of tight junction

uses 4 pass membrane proteins

1. Claudin and 2. Occludin

Question 8

Gap junction

Answer 8

creates a pore

allows passage of small water soluble molecules between cells

Connexins: channel forming protein

Couples cells electrically and metabolically (signal transduction and signal depolarization)

important in cell to cell communication

Question 9

Classical adherins

Answer 9

homophilic

e-cadherin

cytoskeleton association: actin filaments via catenins

cell junction association: adherent junctions (cell to cell connection), synapses

Question 10

Desmosomal adherins

Answer 10

homophilic

Desmoglein and Desmocollin

cytoskeleton association: intermediate filaments

cell junction association: desmosomes

Question 11

Integrins

Answer 11

heterophilic

many types

cytoskeleton association: actin filaments,

bind to ECM but not other integrins

cell junction association: focal adhesions (found in hemidesmosomes)

Question 12

Desmosome mutations

Answer 12

Mutation in Desmocollin-2 is associated with arrhythmogenic right ventricular cardiomyopathy (ARVC)

common cause of sudden death in the young

desmosome is not properly inserted in membrane

Question 13

Blistering Disorders

Answer 13

Some autoimmune responses react to desmosome cadherins such as desmoglein 1 and 3

desmoglein 1 in epidermis

desmoglein 3 in spinous layer

desmoglein 1 Attacked by antibodies results in pemphigus foliaceus

Question 14

Intermediate filaments

Answer 14

(think girders in a building)

provide mechanical strength beause they are strong filaments

resist mechanical stresses

keratin

Question 15

Microtubules

Answer 15

(slinky of life)

tube like structures, determine positions of organelles and direct intracellular transport

staggered tetramer of 2 coiled-coil dimers

make up centrioles and mitotic spindles

accessory protein: Tau

Question 16

Actin filaments

Answer 16

determine cell’s surface

necessary for whole-cell locomotion, secretion, and endocytosis

accessory protein: Arp!!!!!!

Question 17

Fibroblasts

Answer 17

make ECM proteins and tissue that epithelial cells sit on

Question 18

Extracellular Matrix (ECM)

Answer 18

secreted by fibroblasts –> provide mechanical support

Question 19

Blood vessels

Answer 19

lined with endothelial cells (polarized)

• supply nutrients and oxygen
• remove waste

Question 20

Skin

Answer 20

Contains:

1. ECM
2. Blood Vessels
3. Macrophages and dendritic cells
4. Lymphocytes
5. nerve fibers
6. Basal Stem Cell***

Question 21

Basal stem cell

Answer 21

responsible for generating tissue in the basal layer
(doesn’t make macrophages)

responsible for integrity of the whole tissue, connected to connective tissues

talks to fibroblasts,

Question 22

Skin layers

Answer 22

Epidermis
– Forms the outer covering of skin
– Creates a water barrier
– Made of epithelial cells
– Continuously repaired and renewed
Dermis
– Second layer
– Rich in collagen
– Provides toughness
Hypodermis
– Fatty subcutaneous layer
    - greatly affected by dehydration-skin turgor

Question 23

Epidermis

Answer 23

renewed every 30 days by basal cells (stem cells)

stem cells create 2 cells:

• one identical cell
• one cell that differentiates into something specific

changes some desmosomal proteins and some keratins at each layer

Question 24

Epidermis Layers

Answer 24

From top down:

1. keratinized squames, made of keratinocytes
2. granular cell layer, waterproof barrier
   (also a barrier between inner active layer and outer dead epidermis)
3. Prickle cell layer
4. Basal cell layer, attaches to the basal lamina. these are the only dividing cells in the epidermis

Question 25

Stem cell

Answer 25

primitive cell that can self-renew or give rise to more specialized cell types

ex: one blood stem cell can give rise to red cells, white cells, and platelets

can divide without limit: telomerase

Adult stem cells are tissue specific
(skin basal stem cells are adult)

Question 26

Transmembrane adhesion proteins

Answer 26

2 families:

Cadherins: cell to cell connection

Integrins: attachment of cells to matrix

Question 27

Cadherin-Mediated Adhesion

Answer 27

highly selective recognition

enable cells of similar types to stick together and segregate from other cells

if you lose epithelial cadherin (E-cadherin) you lose the cell to cell connection

E to N cadherin switch is important in early development

but… E to N switch is mimicked in metastasis later on (breast cancer)

Question 28

Anchor proteins

Answer 28

Beta-catenin,

p120-catenin,

gamma-catenin

Question 29

Beta Catenin

Answer 29

also a transcription factor

when Wnt-1 binds to receptor

B-catenin travels to the nucleus from an e-cadhedrin

this then begins Wnt1 genes to be expressed (bad)

big in cancer signaling

Question 30

B-catenin mutation to cancer

Answer 30

common mutation

over expression and cell proliferation

inhibits APC (tumor suppressor)

RAS is activated (oncogene)

other tumor suppressors inhibited including p53

Question 31

Cytoskeleton

Answer 31

important in cell motility

guides intracellular traffic

includes motor proteins

Question 32

ARP (ARP 2 and ARP 3)

Answer 32

accessory protein to actin

important in movement

70 degree angle from mother cell

activates formation of actin polymerization and thus cables get built

as these cables push forward you get protrusion of membrane and movement of the cell

Question 33

Listeria

Answer 33

presents on surface protein called ActA

ActA then activates ARP 2/3 complex

causes the toxin to be pushed around on cables and migrates

Question 34

Cell migration by external signals

Answer 34

Rho and Rac are both small G proteins (monomeric, Cdc42 as well)

active with GTP and inactive with GDP

an external chemoreceptor causes G-alpha-I to inhibit AC and then forces PIP2 to form Rac instead of dissociating

this then activates ARP which causes polymerization of actin and thus protrusion (movement of cell)

Rho is activated as well and causes contraction (actin-myosin contraction) at the back of the cell to allow continued cell movement

Question 35

Synthetic triterpenoids

Answer 35

drugs that target ARP by inactivating the G-protein

good at stopping metastasis

also blocking RTK pathway will prevent ARP

Question 36

Integrin downstream signaling

Answer 36

Src/FAK activate ERK and JNK to regulate cell proliferation, cell survival, and differentiation

SFK: Src family kinase = activates Grb2 for RTK pathway to get to ERK

Question 37

Laminin

Answer 37

connects many different components together

most abundant ECM protein in basement membrane

connects cells to ECM components, especially type 4 collagen (network forming collagen)

also modulates cell proliferation, differentiation, and motility

Question 38

Collagen

Answer 38

3D shape comes from 3 monomer strands

very rich in proline and glycine

most common is 1, 2 and 3 types

Question 39

Fibrillar collagen

Answer 39

Types: 1, 2, 3, 5
stabilized by H bond

major portion of connective tissue and wound healing

strength comes from covalent bonds using lysyl oxidase which requires VIT C**

diseases can result:
osteogenesis imperfecta
Ehlers Danlos syndrome

Question 40

Non-fibrillar collagen

Answer 40

Types 9 and 12

structure of planar basement membranes

anchoring fibrils to basement membrane beneath the squamous epithelium

Question 41

Postranslational Hydroxylation

Answer 41

Proline and lysine hydroxylation via:

prolyl and lysyl hydroxylases

need vitamin c (ascorbic acid) for function of enzymes

Question 42

Ehlers Danlos syndrome

Answer 42

a decrease in lysyl hydroxylase (enzyme) leads to overly flexible joints, blood vessel walls, uterus,

Vitamin C needed for this enzyme function

Question 43

Scurvy

Answer 43

loss/deficiency of cofactors Vit C and Fe2+

prolyl hydroxylase affected

Sx: wounds reopen, loses teeth, pale skin,

Question 44

Elastin

Answer 44

ability of tissues to recoil and recover shape

important in cardiac valves

stretching exposes hydrophobic regions, relaxing covers

at the core of fibrillin filaments

defect in fibrillin leads to Marfan’s syndrome, Mitral valve prolapse, and aortic aneurysm

Question 45

Proteoglycan

Answer 45

extracellular molecule made of proteins and sugar

fibrous structural protein, binds to protein growth factors

heparan sulfate attaches to fibroblast growth factor (FGF) and causes proliferation

TGF-beta (transforming growth factor-beta) binds to proteoglycan decorin which inhibits growth factors

made of long polypeptides called glycosaminoglycans (GAGs)

synthesized by repeating disaccharides, hundreds of sugars in one strand

Question 46

chondroitin 6 sulfate

Answer 46

arthritis, joint relief

pharmaceutical treatment

Question 47

Hyaluranon

Answer 47

long repeating sequence of gluconic acid and acetylglucosamine

provides mechanical support to tissues

attracts a lot of cations (Na+) and draws in water to matrix to help withstand pressure