Frontiers in Synaptic Neuroscience (Jan 2016)

Physical Interactions and Functional Relationships of Neuroligin 2 and Midbrain Serotonin Transporters

  • Ran eYe,
  • Meagan A. Quinlan,
  • Hideki eIwamoto,
  • Hsiao-Huei eWu,
  • Noah H. Green,
  • Christopher S. Jetter,
  • Douglas G. McMahon,
  • Douglas G. McMahon,
  • Jeremy eVeenstra-VanderWeele,
  • Pat R. Levitt,
  • Randy D. Blakely,
  • Randy D. Blakely

DOI
https://doi.org/10.3389/fnsyn.2015.00020
Journal volume & issue
Vol. 7

Abstract

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The neurotransmitter serotonin (5-hydroxytryptamine, 5-HT) modulates many key brain functions including those subserving sensation, emotion, reward and cognition. Efficient clearance of 5-HT after release is achieved by the antidepressant-sensitive 5-HT transporter (SERT, SLC6A4). To identify novel SERT regulators, we pursued a proteomic analysis of mouse midbrain SERT complexes, evaluating findings in the context of prior studies that established a SERT-linked transcriptome. Remarkably, both efforts converged on a relationship of SERT with the synaptic adhesion protein neuroligin 2 (NLGN2), a postsynaptic partner for presynaptic neurexins, and a protein well known to organize inhibitory GABAergic synapses. Western blots of midbrain reciprocal immunoprecipitations confirmed SERT/NLGN2 associations, and also extended to other NLGN2 associated proteins (e.g. -neurexin (NRXN), gephyrin). Midbrain SERT/NLGN2 interactions were found to be Ca2+-independent, supporting cis versus trans-synaptic interactions, and were absent in hippocampal preparations, consistent with interactions arising in somatodendritic compartments. Dual color in situ hybridization confirmed co-expression of Tph2 and Nlgn2 mRNA in the dorsal raphe, with immunocytochemical studies confirming SERT:NLGN2 co-localization in raphe cell bodies but not axons. Consistent with correlative mRNA expression studies, loss of NLGN2 expression in Nlgn2 null mice produced significant reductions in midbrain and hippocampal SERT expression and function. Additionally, dorsal raphe 5-HT neurons from Nlgn2 null mice exhibit reduced excitability, a loss of GABAA receptor-mediated IPSCs, and increased 5-HT1A autoreceptor sensitivity. Finally, Nlgn2 null mice display significant changes in behaviors known to be responsive to SERT and/or 5-HT receptor manipulations. We discuss our findings in relation to the possible coordination of intrinsic and extrinsic regulation afforded by somatodendritic SERT:NLGN2 complexes.

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