Increased anxiety-like behavior in mice lacking the inhibitory synapse cell adhesion molecule neuroligin 2

J. Blundell, K. Tabuchi, M. F. Bolliger, C. A. Blaiss, N. Brose, X. Liu, T. C. Südhof, C. M. Powell

Research output: Contribution to journalArticlepeer-review

155 Scopus citations


Neuroligins (NL) are postsynaptic cell adhesion molecules that are thought to specify synapse properties. Previous studies showed that mutant mice carrying an autism-associated point mutation in NL3 exhibit social interaction deficits, enhanced inhibitory synaptic function and increased staining of inhibitory synaptic puncta without changes in overall inhibitory synapse numbers. In contrast, mutant mice lacking NL2 displayed decreased inhibitory synaptic function. These studies raised two relevant questions. First, does NL2 deletion impair inhibitory synaptic function by altering the number of inhibitory synapses, or by changing their efficacy? Second, does this effect of NL2 deletion on inhibition produce behavioral changes? We now show that although NL2-deficient mice exhibit an apparent decrease in number of inhibitory synaptic puncta, the number of symmetric synapses as determined by electron microscopy is unaltered, suggesting that NL2 deletion impairs the function of inhibitory synapses without decreasing their numbers. This decrease in inhibitory synaptic function in NL2-deficient mice correlates with a discrete behavioral phenotype that includes a marked increase in anxiety-like behavior, a decrease in pain sensitivity and a slight decrease in motor co-ordination. This work confirms that NL2 modulates inhibitory synaptic function and is the first demonstration that global deletion of NL2 can lead to a selective behavioral phenotype.

Original languageEnglish (US)
Pages (from-to)114-126
Number of pages13
JournalGenes, Brain and Behavior
Issue number1
StatePublished - Feb 2009


  • Anxiety
  • Autism
  • GABA
  • Inhibition
  • Neurexin
  • Neuroligin
  • Nociception
  • Pain
  • Social interaction

ASJC Scopus subject areas

  • Genetics
  • Neurology
  • Behavioral Neuroscience


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