Lecture 3

Question 0

Cell-Cell Anchoring junctions

Answer 0

adherens - junctions that connect actin filament bundle in one cell with that in the next cell
desmosome - connects intermediate filaments

Question 1

Occluding Junctions

Answer 1

• tight junction seals gap between epithelial cells
• functions together with junctional complex -
• blocks things

Question 2

Channel-Forming junctions

Answer 2

gap junctions that allows the passage of small water-soluble molecules from cell cell

Question 3

Cell-Matrix Anchoring Junctions

Answer 3

actin-linked cell-matrix adhesion - anchors actin filaments in cell to ECM
hemidesmosome - anchors intermediate filaments in a cell to ECM

Question 4

The Oder of the junctional complex

Answer 4

Occluding junction
Cell-Cell anchoring junction
Channel-Forming Junction
Cell-Matrix Anchoring junction

Apical
|
Basal

Question 5

Epithelial Tissue

Answer 5

• cells directly connected with lines cavities, surfaces, surrounds organs
• minimal ECM beneath
• mechanical stresses transmitted from cell to cell by cytoskeletal filaments anchored to cell-matrix and cell-cell adhesion sites

Question 6

Connective Tissue

Answer 6

• ECM Bears mechanical stress directly of tension and compression
• cells dispersed when ECM which provides overall structure

Question 7

Adherens junction structure

Answer 7

• form strong continuous adhesion belts critical for adheren cells to form epithelia
• cadherin clusters mediate the adhesion through:
  1. homophillic interaction between cadherin receptors
  2. links to the actin cytoskeleton
• calcium keeps the connection rigid

Question 8

Adherens junction function: tissue maintenance during development

Answer 8

• cells move, but the movement bust be coordinated
• tissue is lost in adherens junction mutants: if there are no adherens junctions to connect the cells together, then they will not stick to each other

Question 9

Adhesion junction function: tumour suppression

Answer 9

• cadherins are tumour suppressors
• in a normal epithelium, normal cell occurs close to the basal lamina
  in high grade intraepithelial neoplasia: cell division everywhere and so cadherins are lost

Question 10

Importance of epithelial structure

Answer 10

• distinct apical surface: organ lumen or the animal surface
  the basal surface: underlying tissue
  epithelial polarity is critical for organ function

Question 11

Epithelial polarity and control of solute diffusion between body compartments: control of glucose transport

Answer 11

• glucose blocked from DIFFUSING between cells by tight junctions
• must be actively transported through cells by PLASMA MEMBRANE CHANNELS
• low to high using Na+ glucose symport
• positioning of channels is determined by the SNARES

Question 12

Testing the permeability barrier across an epithelia

Answer 12

• added dye apically: stays on apical side
  added it basally: stays basal side
  without tight junctions, you would get the mixing between the two

Question 13

Tight junctions encircle the apical end of each cell in an epithelial sheet

Answer 13

• tight junctions closest to the apical side

Question 14

Tight junctions are formed from strands of interacting transmembrane proteins

Answer 14

Core tight junction proteins:
Claudin:
- 4-pass transmembrane protein
- essential for --> tight junction formation
occludin:
- 4-pass transmembrane receptor
- required for barrier function
not needed for maintaining overall tight junction structure

Question 15

tight junctions function as

Answer 15

gates: prevent molecular movement across the epithelial sheet in the ECS bw cells
fences: prevent molecular movement between the apical and basolateral domains of: each cell’s plasma membrane

Question 16

Cell polarity is fundamental to Cell and Developmental Biology

Answer 16

g

Question 17

How is cell polarity established?

How does asymmetry arise to make one end of the cell different from the other?

Answer 17

• use of landmarks to establish and elaborate polarity

- signal will cause landmarks to separate to different poles (figuratively)

Question 18

Chemoattractants

Answer 18

• polarize cells and the cells chase prey
• chemoattractant binds to the receptor
  activates Gi and G12/13
• Gi activates PIP3, which activates Rac, which activates actin polymerization, which inhibits actin myosin contraction, which inhibits PIP3
• G12/13 (front0 activates Rho, which activates actin-myosin contraction, which inhibits actin polymerization

Question 19

In C. elegans, sperm entry provides a landmark for polarizing the one-cell embryo

Answer 19

• cytoskeletal flow goes from posterior (+) to anterior (-)
• sperm entry is on posterior
• anterior cues that have proteins that say to make this “anterior”
• anterior cues and posterior cues inhibit each other
• polarity generates two cell lineages after the cell divides

Question 20

Adherin junctions (AJs) are important landmarks for epithelial polarity

Answer 20

• cell is all alone, and adherens junctions are looking for another cell to connect to…(once this connects to an adjacent cell, then it goes through the half mesenchymal-to-epithelial)
• there are apical protein cues that make one side apical, and prevent it from being basal

Question 21

Conserved apical and basal cues controlling epithelial polarity

Answer 21

adherin junction links up, scribble complex comes on
Crumbs —> Par3-Park6-aPKC (tight/adhesion junction) —> scribble (adheren/septate
- whole point is that it helps elaborate pathway

Question 22

The integration of polarity complexes, adhesion complexes, cytoskeletal networks and trafficking routes is critical for the structure and function of epthelia and that forms our organs

Answer 22

complexes -> functional epithelium –> body compartments constructed from functional epithelia