09-14-2021-0406 - Munc-18 Munc mammalian uncoordinated-18 protein homologue UNC-18 UNC Sec1/Munc18-like like sec VAMP SNAP syntaxin vesicle priming fusion conformation change induced activation protein complexing complex - absent neurotransmitter secretion where munc-18-1 deficiency (deficient mouse; gene knock out; gen-mod, etc.) synaptobrevin helix level primary secondary tertiary quaternary proteins assembly level of assembly etc.

 Munc-18 (an acronym for mammalian uncoordinated-18) proteins are the mammalian homologue of UNC-18 (which was first discovered in the nematode worm C. elegans^[1][2]) and are a member of the Sec1/Munc18-like (SM) protein family. Munc-18 proteins have been identified as essential components of the synaptic vesicle fusion protein complex and are crucial for the regulated exocytosis of neurons and neuroendocrine cells.^[3]

Function[edit]

Munc-18 binds syntaxin and forms a syntaxin/munc-18 complex which is thought to precede and/or regulate vesicle priming, a process mediated by VAMP, SNAP-25 and syntaxin.^[4] Munc18-1, a member of the SM family, has multiple roles in exocytosis.^[5] It directly promotes syntaxin stability and either controls the spatially correct assembly of core complexes for SNARE-dependent fusion, or acts as a direct component of the fusion machinery through the interaction with SNARE core.^[6] Munc18a, which binds specifically to the N-terminal of syntaxin, causes a conformation change, activating syntaxin, which in turn connects to the ternary-SNARE complex.^[7] Deletion of munc18-1 leads to a defect in secretory vesicle docking.^[8] Furthermore, the munc18-1 deficient mouse is the first mouse model wherein neurotransmitter secretion is completely absent. This mouse model is appropriately titled the "silent mouse."^[9]

Mechanism[edit]

This outline below presents a broad modeling of how Munc-18 is thought to play a role in vesicle docking and fusion, allowing for intentional exocytosis.^[10] As it is a combined preliminary modeling, more research is necessary to fully understand the role of Munc-18 in this process.

1. Munc18-1 binds to a closed form of syntaxin-1, blocking SNARE complex formation. This is thought to affect vesicle docking
2. Munc13 opens syntaxin-1, Munc18-1 is translocated to the SNARE complex, which releases the inhibitory effect, allowing assembly (specifically of the alpha helix 4 part bundle)
3. It is thought that Munc18-1 stabilizes the formed trans-SNARE complex, preventing its dissociation
4. The SNARE complex, potentially with the assistance of Munc-18 brings the membranes together and causes fusion

It has also been shown in one study that Munc-18 binds to the C-terminus of synaptobrevin, suggesting that this protein plays an important role in membrane fusion.^[11]

Family members[edit]

The following is a list of human munc-18 proteins:

protein	gene
	symbol	name
MUNC18-1	STXBP1	syntaxin binding protein 1
MUNC18-2	STXBP2	syntaxin binding protein 2
MUNC18-3	STXBP3	syntaxin binding protein 3
MUNC18-4	STXBP4	syntaxin binding protein 4
MUNC18-5	STXBP5	syntaxin binding protein 5
MUNC18-6	STXBP6	syntaxin binding protein 6

See also[edit]

• Vesicle fusion
• Exocytosis
• Syntaxin
• SNARE

https://en.wikipedia.org/wiki/Munc-18

Categories: 

• Neurophysiology
• Human proteins