Munc18-1 expression levels control synapse recovery by regulating readily releasable pool size

Abstract: Prompt recovery after intense activity is an essential feature of most mammalian synapses. Here we show that synapses with reduced expression of the presynaptic gene munc18-1 suffer from increased depression during intense stimulation at glutamatergic, GABAergic, and neuromuscular synapses. Conversely, munc18-1 overexpression makes these synapses recover faster. Concomitant changes in the readily releasable vesicle pool and its refill kinetics were found. The number of vesicles docked at the active zone and th… Show more

“…Although hundreds of patients with STXBP1 mutations have been described, the pathogenetic mechanism of these mutations is unclear. In mice, it has been well established that homozygous deletion of STXBP1 produces a total block in synaptic transmission and neurodegeneration (31), but that the heterozygous deletion of STXBP1 induces only a mild phenotype (37,38). Thus, the question arises of how a heterozygous STXBP1 mutation that in mice has only modest effects can cause severe clinical impairment in human patients.…”

Analysis of conditional heterozygous STXBP1 mutations in human neurons

“…Although hundreds of patients with STXBP1 mutations have been described, the pathogenetic mechanism of these mutations is unclear. In mice, it has been well established that homozygous deletion of STXBP1 produces a total block in synaptic transmission and neurodegeneration (31), but that the heterozygous deletion of STXBP1 induces only a mild phenotype (37,38). Thus, the question arises of how a heterozygous STXBP1 mutation that in mice has only modest effects can cause severe clinical impairment in human patients.…”

Analysis of conditional heterozygous STXBP1 mutations in human neurons

“…The use of knockout animals established that calcium-dependent PKC accounts for 80% of PTP at the calyx of Held . The involvement of calcium-sensitive isoforms suggests that PKC responds to Ca res to produce PTP, possibly by phosphorylating Munc18-1 to alter the effective pool size and the probability of release (Nili et al 2006;Toonen et al 2006;Toonen and Verhage 2007). Munc13, a calciumsensitive presynaptic protein that regulates the priming and probability of release of vesicles, has been shown to influence short-term synaptic plasticity during and following tetanic activation (Brose and Rosenmund 2002;Junge et al 2004;Beierlein et al 2007;Shin et al 2010).…”

Short-Term Presynaptic Plasticity

“…The SM protein Munc18-1 is a soluble protein initially found as an interacting partner of syntaxin-1 (Hata et al, 1993;Garcia et al, 1994;Pevsner et al, 1994). Deletion of munc18-1 completely arrests synaptic transmission , whereas increased Munc18-1 levels result in a larger readily releasable vesicle pool (RRP) and increased synaptic efficacy (Toonen et al, 2006b). Mutations in munc18-1 are found in patients with epilepsy and intellectual disability, and Munc18-1 dysregulation is implicated in Alzheimer's disease and schizophrenia (Jacobs et al, 2006;Saitsu et al, 2008;Hamdan et al, 2009;Milh et al, 2011;Vatta et al, 2012;Mastrangelo et al, 2013;Urigüen et al, 2013).…”

Munc18-1 redistributes in nerve terminals in an activity- and PKC-dependent manner