Kirill E. Volynski scite author profile

Latrophilin 1 (LPH1), a neuronal receptor of α-latrotoxin, is implicated in neurotransmitter release and control of presynaptic Ca 2+ . As an "adhesion G-protein-coupled receptor," LPH1 can convert cell surface interactions into intracellular signaling. To examine the physiological functions of LPH1, we used LPH1's extracellular domain to purify its endogenous ligand. A single protein of ∼275 kDa was isolated from rat brain and termed Lasso. Peptide sequencing and molecular cloning have shown that Lasso is a splice variant of teneurin-2, a brain-specific orphan cell surface receptor with a function in neuronal pathfinding and synaptogenesis. We show that LPH1 and Lasso interact strongly and specifically. They are always copurified from rat brain extracts. Coculturing cells expressing LPH1 with cells expressing Lasso leads to their mutual attraction and formation of multiple junctions to which both proteins are recruited. Cells expressing LPH1 form chimerical synapses with hippocampal neurons in cocultures; LPH1 and postsynaptic neuronal protein PSD-95 accumulate on opposite sides of these structures. Immunoblotting and immunoelectron microscopy of purified synapses and immunostaining of cultured hippocampal neurons show that LPH1 and Lasso are enriched in synapses; in both systems, LPH1 is presynaptic, whereas Lasso is postsynaptic. A C-terminal fragment of Lasso interacts with LPH1 and induces Ca 2+ signals in presynaptic boutons of hippocampal neurons and in neuroblastoma cells expressing LPH1. Thus, LPH1 and Lasso can form transsynaptic complexes capable of inducing presynaptic Ca 2+ signals, which might affect synaptic functions.

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Differential triggering of spontaneous glutamate release by P/Q-, N- and R-type Ca2+ channels

Ermolyuk

et al. 2013

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The role of voltage-gated Ca2+ channels (VGCCs) in spontaneous miniature neurotransmitter release is incompletely understood. Here we show that stochastic opening of P/Q-, N-, and R-type VGCCs accounts for ~50% of all spontaneous glutamate release at rat cultured hippocampal synapses, and that R-type channels play a far greater role in spontaneous than in action potential-evoked exocytosis. VGCC-dependent ‘minis’ show similar sensitivity to presynaptic Ca2+ chelation as evoked release, arguing for direct triggering of spontaneous release by transient spatially localized Ca2+ domains. Experimentally constrained three-dimensional diffusion modeling of Ca2+ influx-exocytosis coupling is consistent with clustered distribution of VGCCs in the active zone of small hippocampal synapses, and shows that spontaneous VGCCs openings can account for the experimentally observed VGCC-dependent minis, although single channel openings trigger release with low probability. Uncorrelated stochastic VGCC opening is thus a major trigger for spontaneous glutamate release, with differential roles for distinct channel subtypes.

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Latrophilin fragments behave as independent proteins that associate and signal on binding of LTXN4C

Volynski

Silva²,

Lelianova³

et al. 2004

EMBO J

105

179

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Heptahelical, or G-protein-coupled, receptors control many cellular functions and normally consist of one polypeptide chain. In contrast, heptahelical receptors that belong to the long N-terminus, group B (LNB) family are cleaved constitutively into two fragments. The N-terminal fragments (NTFs) resemble cell-adhesion proteins and the C-terminal fragments (CTFs) are typical G-protein-coupled receptors (GPCRs) with seven transmembrane regions. However, the functional roles of this cleavage and of any subsequent NTF-CTF interactions remain to be identified. Using latrophilin, a well-studied member of the LNB family, we now demonstrate that cleavage is critical for delivery of this receptor to the cell surface. On the plasma membrane, NTF and CTF behave as separate membrane proteins involved, respectively, in cell-surface reception and signalling. The two fragments can also internalise independently. However, separated NTF and CTF can reassociate on solubilisation. Agonist binding to NTF on the cell surface also induces re-association of fragments and provokes signal transduction via CTF. These findings define a novel principle of structural and functional organisation of the cleaved, two-subunit GPCRs.

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α-Latrotoxin, Acting via Two Ca2+-dependent Pathways, Triggers Exocytosis of Two Pools of Synaptic Vesicles

Ashton¹,

Volynski²,

Lelianova³

et al. 2001

Journal of Biological Chemistry

121

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The multiple actions of black widow spider toxins and their selective use in neurosecretion studies

Ushkaryov

Volynski

Ashton

2004

Toxicon

127

107

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