Cytosis

Question 1

What are the requirements for two membranes to fuse?

Answer 1

1. They both need to contain SNARE protein.

2. They need to be similar.

Question 2

What is the function of SNARE proteins?

Answer 2

SNARE proteins recognize, bind to each other and initiate fusion.

Question 3

What are the two different types of exocytosis?

Answer 3

Constitutive and regulated.

Question 4

What are the characteristics of constitutive exocytosis?

Answer 4

1. Continous
2. Slow rate
3. The secretory product is not condensed.
4. Small vesicles.

Question 5

What are the characteristics of regulated exocytosis?

Answer 5

1. Triggered by a signal from outside the cell –> rise of Ca2+ inside the cell
2. A large number of products are released in a short time.
3. Secretory product is condensed.
4. Large secretory granules (stored until signal)

Question 6

What are the two types of vesicles cells release to the extracellular space? And what is the difference between the two?

Answer 6

Microvesicles and exosomes.

Microvesicles exit out of the cell by encapsulating a portion of the cell membrane.

Exosomes are large vesicles containing smaller vesicles. the large vesicle fuses with the cell membrane and the small vesicles are released.

Question 7

What are the three types of endocytosis?

Answer 7

1. Phagocytosis
2. Pinocytosis
3. Receptor-mediated endocytosis.

Question 8

What is phagocytosis?

Answer 8

1. Cell swallowing of large particles.
2. Cell surface folds around the particle and creates a large vesicle called phagosomes.
3. Energy is required and the cytoskeleton is involved.

Question 9

What is pinocytosis?

Answer 9

1. Cell surface forms an invagination which forms a small vesicle called pinosome.
2. Energy is not required and the cytoskeleton is not involved. The liquid is taken up.

Question 10

What are phagosomes and pinosomes?

Answer 10

Phagosomes are the vesicle resulting from phagocytosis and pinosomes are the vesicles resulting from pinocytosis.

Question 11

What is receptor-mediated endocytosis?

Answer 11

Pinocytosis of only molecules bound to their specific receptors on the cell membrane.

Question 12

What kind of proteins are required in receptor-mediated endocytosis?

Answer 12

Coating proteins (clathrin and COP). Help invaginate membrane fractions with receptors. Coated vesicles are formed.

Question 13

What are the steps of receptor-mediated endocytosis?

Answer 13

1. Binding of ligands to cell membrane receptors.
2. The receptor molecule moves to the clathrin-coated pit.
3. Membrane folds inward.
4. Formation of a coated vesicle.
5. The vesicle fuses with an endosome.
6. Receptors and molecules separate.
7. Receptors return to the cell membrane.
8. Endosome moves and goes from early endosome to late endosome.
9. Late endosome fuses with hydrolase vesicles, where digestive enzymes digest the ligands.
10. Late endosome becomes lysosome.

Question 14

What is the function of lysosomes?

Answer 14

Lysosomes contain hydrolases which perform intracellular digestion.

Question 15

When do the lysosomal enzymes become active?

Answer 15

Lysosomal enzymes are inactive in the hydrolase vesicles as they are still bound to man-6-P receptors. Once they come in contact with the acidic environment in lysosomes, they become active and disociate from the receptors.

Question 16

What are some lysosomal enzymes (acid hydrolyses)?

Answer 16

1. Nucleases
2. Proteases
3. Glycosidases
4. Lipases
5. Phosphatases
6. Sulfatases
7. Phospholipases.

Question 17

How are lysosomes formed?

Answer 17

In a fusion between hydrolase vesicles and phagosomes, late endosomes, autophagic vacuoles.

(Hydrolase vesicles can also fuse with the cell membrane for extracellular digestion) RARELY

Question 18

What kind of lysosome is made from the fusion between a hydrolase vesicle and a phagosome or late endosome?

Answer 18

Heterolysosome

Question 19

What kind of lysosome is made from the fusion between a hydrolase vesicle and an autophagic vacuole?

Answer 19

Autolysosomes.

Question 20

What does the low PH inside lysosomes cause?

Answer 20

Dissociation of receptors from the lysosomal enzymes. ACTIVATION.

Question 21

What happens with the Man-6-P receptors once they dissociate from the lysosomal enzymes?

Answer 21

They recirculate back to TGN (trans-Golgi network)

Question 22

What is meant by extralysosomal digestion?

Answer 22

Digestion of molecules outside of the lysosomes.

Question 23

What’s an example of extralysosomal digestion?

Answer 23

Cytosolic proteins are digested by proteasomes. These proteins are first marked by attachment of a small molecule; ubiquitin.

Question 24

What are the two organelles that do not participate in membrane trafficking?

Answer 24

Mitochondria and Peroxisomes.

Question 25

Why can’t mitochondria and peroxisomes participate in membrane trafficking?

Answer 25

1. They multiply by fission.
2. Unique membranes.
3. Their proteins are synthesized on free ribosomes.

Question 26

How does a protein get digested by extralysosomal digestion?

Answer 26

The protein gets first marked by a small protein called ubiquitin and is then digested by proteasomes.