Lecture 19 Snares 1

Question 1

When is membrane fusion occurring

Answer 1

In our bodies all the time

Question 2

Examples of membrane fusion

Answer 2

• Synaptic vesicles fusion - communication between neurons and muscles at NMJ
• Secretory granule fusion - endocrine and exocrine pancreas e.g. insulin
• Secretion of serum proteins - albumin from hepatocytes and antibodies from plasma cells
• Mucus secretion - epithelial mucosal cells
• Intracellular transport of proteins between organelles in all of your cells

Question 3

How can secretory vesicles be visualised

Answer 3

Electron microscopy (1938)

Question 4

What does EM not tell you

Answer 4

The molecular machinery involved with vesicle fusion

Question 5

Describe synaptic vesicles

Answer 5

50-100nm diameter
Fast fusion
ms

Question 6

Describe zymogen granules

Answer 6

500nm diameter
slower fusions
second

Question 7

3 approaches to identify machinery of vesicle transport

Answer 7

1. biochemical reconstitution
2. yeast genetics
3. cloning

Question 8

Give an example of biochemical reconstitution

Answer 8

Intra-Golgi transport assay

Question 9

Describe Intra-Golgi transport assay

• break up…
• donor…
• marker…
• cell lines…
• mixed…
• vesicles budding off…
• gives quantification of…

Answer 9

• Break up cells to access the Golgi - add cytoplasm and ATP
• Donor Golgi-containing fraction from VSV-infected mutant - incorporate radioactive sugar (glucose) onto protein. This is a viral glycoprotein that normally traffics from ER to Golgi to PM so can use as marker to follow trafficking of membrane
• 1 cell line does not have the enzyme involved in glycosylation steps and other cell line contains the enzyme
• Mixed mutant cells and normal cells (acceptor Golgi-containing fraction from uninfected WT cells) with WT enzyme
• If get vesicles budding off, get incorporation of radioactive sugar onto VSV so can measure transfer of material between compartments
• Gives quantification of measure of IC trafficking

Question 10

What was biochemical reconstitution used to identify

Answer 10

COPI vesicles

Question 11

What was biochemical reconstitution used to identify (not COPI)

Answer 11

NSF

Question 12

What happens in the assay as you increase levels of Golgi membrane

Answer 12

Increased amounts of signal

Question 13

What inhibits the reaction of Intra-Golgi transport assay

Answer 13

• N-ethylmaleimide inhibits reaction (alkalyting reagent that reacts with free cysteine)

Question 14

What target was purified from NSF inhibiting the reaction

Answer 14

N-ethylmaleimide Sensitive Factor (NSF)

Question 15

What is NSF

Answer 15

ATPase

Question 16

What occurs when Golgi membranes are salt washed

Answer 16

NSF can no longer bind to the membranes

Question 17

Target purified from salt washing

Answer 17

SNAP

soluble NSF attachment protein

Question 18

What were yeast genetics used to isolate and how

Answer 18

Made temp sensitive mutants which change their density when inhibit secretion.

They isolated sec mutants:
• Sec 1 – SNARE binding protein
• Sec 17 - encodes α-SNAP
• Sec18 – encodes NSF

Question 19

Cloning of synaptic vesicle proteins identified and how

Answer 19

VAMP and Syntaxin
• Antibodies were raised against synaptic vesicles purified from electric rays (which have large axons)
• The antibodies were then used to expression clone VAMP and Syntaxin

Question 20

What do Clostridial neurotoxins tetanus and botulinum B cleave

Answer 20

Vamp/ synaptobrevin

Question 21

How did they know these toxins cleaved Vamp

Answer 21

Bands disappeared in SDS-PAGE gel.

Question 22

Symptoms of tetanus/botulinum

Answer 22

• Tetanus to locked jaw

* Botulinum to floppy baby syndrome

Question 23

What did they find in the biochemical purification of SNAREs

Answer 23

Found could purify a large complex that dissembles when ATP is hydrolysed

Question 24

How does biochemical purification occur

• tagged..
• bind…
• bound…
• add…
• get…
• complex…

Answer 24

1. Tagged NSF and made it recombinantly
2. Bind NSF onto beads (believed this was an ATPase from immune affinity experiment)
3. Bound to α/γ SNAP complex
4. Add ATP that could be hydrolysed
5. Got bands that could be sequenced
6. Got syntaxin, VAMP and SNAP 25 complex

Question 25

Describe the complex formed in biochemical purification

Answer 25

• VAMP on vesicle (T-SNARE)
• Syntaxin and SNAP25 on target membrane (V-SNARE)
• These interact to form a large complex that can be purified
• Hydrolysis of ATP fuses these things together

Question 26

Rothman’s SNARE hypothesis

Answer 26

1) SNAREs for each transport step within the cell regardless of type of vesicle i.e. 38 SNAREs encoded in the human genome
2) SNAREs should provide specificity to vesicle transport
3) SNAREs should be sufficient to drive lipid bilayer fusion
4) Proposed that NSF and ATP hydrolysis catalyses membrane fusion (this bit is actually wrong!)

Question 27

What do the VAMP and synataxin/SNAP 25 form

Answer 27

coiled-coil

Question 28

How do snares form this coiled coil

Answer 28

zipper in a parallel coiled coil and in doing so they pull the vesicles close enough to provide the energy for the fusion of lipid bilayers

Question 29

SNARE zipper provides…

Answer 29

energy to drive membrane fusion

Question 30

What isn’t required for membrane fusion but is for recycling of snares

Answer 30

NSF

Question 31

Trans-SNARE:

Answer 31

Trans-SNARE: When the SNAREs are coiled before fusion

Question 32

Cis-SNARE:

Answer 32

Cis-SNARE: When the vesicles have fused and the SNAREs uncoil

Question 33

Types of SNAREs

Answer 33

• Q type - Syntaxin-like/SNAP 25 (glutamine)

* R type - VAMP-like (arginine)

Question 34

Ratio of types of snares

Answer 34

3Q:1R SNARE conserved in all complexes

Question 35

Do SNAREs provide the specificity of membrane fusion?

Answer 35

• Only get fusion with SNARE complexes which fit 3Q:1R ratio (Mutation of a Q/R inhibits SNARE activity and fusion doesn’t work as well)
• SNAREs show some promiscuity but on the whole they predominantly interact with SNAREs from the appropriate membranes.
• Lots of additional machinery contribute to specificty (i.e. rabs/ coat proteins and tethers)

Question 36

In Rothman’s SNARE hypothesis, he suggested SNAREs should provide specificity to vesicle transport. Was this correct?

Answer 36

PARTIALLY YES - SNAREs do provide specificity - but there are other things that also do

Question 37

Common features of SNARE proteins

Answer 37

• Generally small 14-40kDa
• All have at least 1 coiled-coil or SNARE motif (except SNAP 25 have 2)
• Generally C-terminally anchored

Question 38

How to see if the SNAREs the minimal fusion machinery?

Answer 38

• Synthetic vesicle, liposome, with VAMP on it
• Put dye onto vesicle
• Mix together and see if get fusion and is this sped up etc by adding other thing
• TIRF microscopy

Question 39

Recombinant SNAREs can drive membrane fusion of…

Answer 39

purified liposomes

Question 40

What happens in liposomes if add snare machinery on own

Answer 40

some fusion, but not much

Question 41

What occurs if add calcium to liposomes

Answer 41

increases rate of vesicle fusion

Question 42

What does syntaxin do

Answer 42

Regulates complex and inhibits ability of fusion - opens and closes the complex

Question 43

Was Rothman correct in stating SNAREs were the minimum machinery for membrane fusion

Answer 43

yes - but other things like calcium assist

Question 44

Role of NSF

Answer 44

snare recycling after fusion

Question 45

Is NSF required for fusion

Answer 45

no

Question 46

which complex does NSF act on

Answer 46

cis-SNARE complex

Question 47

shape of nsf

Answer 47

ring

Question 48

How does NSF work

Answer 48

• NSF uses ATP activity to unwind SNARE molecules i.e. unwind VAMP/Syntaxin coiled-coil after fusion
• The complex is unscrewed to separate the SNAREs

Question 49

In Rothman’s SNARE hypothesis, he suggested NSF + ATP hydrolysis catalyses membrane fusion. Was this correct?

Answer 49

No – NSF recycles the SNAREs after fusion