Lecture 4

Question 1

What is the function of the lens?

Answer 1

Fine tunes projection of images onto the retina

Question 2

What does the lens need to achieve its function?

Answer 2

• Be transparent
• Higher refractive index than media in which it is suspended
• Curved surfaces that permit both near and far focussing

Question 3

What is loss of lens transparency called?

Answer 3

Cataract

Question 4

Describe the tissue architecture of the adult lens

Answer 4

• Epithelial cells on anterior exterior
• transition into differentiating fibre cells in outer cortex throughout life
• Older mature fibre cells internalised and retained in nucleus
• age gradient set up in embryo

Question 5

7 stages of Lens embryonic development

Answer 5

1. Optic cup
2. Lens placode
   3 & 4. Formation of lens vesicle
3. Elongation of primary fibre cells
4. Embryonic lens
5. Internalisation of embryonic nucleus by secondary fibre cells

Question 6

What do primary fibre cells form?

Answer 6

Lens embryonic nucleus

Question 7

What causes primary fibre cells to form the lens embryonic nucleus?

Answer 7

Growth factors secreted by the retina, which cause posterior epithelial cells to elongate to fill the lens vesicle. The anterior epithelium remains a single layer of cells

Question 8

Where are secondary fibre cells derived from?

Answer 8

Anterior epithelial cells located at the equator

Question 9

What do secondary fibre cells do to primary fibres?

Answer 9

Internalise them

Question 10

What does fibre cell differentiation involve?

Answer 10

• Elongation
• Loss of cell nuclei and cell organelles
• Expression of fibre specific proteins (e.g. crystallins)

Question 11

What does the refractive index gradient in the lens do?

Answer 11

Correct for spherical aberration

Question 12

How does the lens achieve a high refractive index?

Answer 12

Express a high concentration of cytoplasmic proteins called crystallins

Question 13

What percent of wet weight of lens are crystallins?

Answer 13

Over 40%

Question 14

What are crystallins?

Answer 14

• Proteins such as enzymes that have been recruited to increase protein concentration
• Other crystallins (alpha-crystallin) have chaperone activity and prevent protein aggregation

Question 15

What does an aggregation of crystallins lead to?

Answer 15

Light scattering and cataract formation

Question 16

What profile/structure do DF cells adopt?

Answer 16

Hexagonal cross-sectional profile that facilitates tight packing and minimises extracellular space

Question 17

How is the hexagonal cross-sectional profile of DF cells maintained?

Answer 17

• Cytoskeleton of lens-specific beaded filaments

- Specialised cell-to-cell junctions

Question 18

Example of some of the specialised cell-to-cell junctions in DF cell formation?

Answer 18

• Ball and socket joints
• Ridges (tongue and groove)
• Square arrays
• Gap junctions