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Publication : FLRT proteins are endogenous latrophilin ligands and regulate excitatory synapse development.

First Author  O'Sullivan ML Year  2012
Journal  Neuron Volume  73
Issue  5 Pages  903-10
PubMed ID  22405201 Mgi Jnum  J:224730
Mgi Id  MGI:5688833 Doi  10.1016/j.neuron.2012.01.018
Citation  O'Sullivan ML, et al. (2012) FLRT proteins are endogenous latrophilin ligands and regulate excitatory synapse development. Neuron 73(5):903-10
abstractText  Latrophilins (LPHNs) are a small family of G protein-coupled receptors known to mediate the massive synaptic exocytosis caused by the black widow spider venom alpha-latrotoxin, but their endogenous ligands and function remain unclear. Mutations in LPHN3 are strongly associated with attention deficit hyperactivity disorder, suggesting a role for latrophilins in human cognitive function. Using affinity chromatography and mass spectrometry, we identify the FLRT family of leucine-rich repeat transmembrane proteins as endogenous postsynaptic ligands for latrophilins. We demonstrate that the FLRT3 and LPHN3 ectodomains interact with high affinity in trans and that interference with this interaction using soluble recombinant LPHN3, LPHN3 shRNA, or FLRT3 shRNA reduces excitatory synapse density in cultured neurons. In addition, reducing FLRT3 levels with shRNA in vivo decreases afferent input strength and dendritic spine number in dentate granule cells. These observations indicate that LPHN3 and its ligand FLRT3 play an important role in glutamatergic synapse development.
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