Genetically modified mouse models have proven useful to study learning and memory processes and the neurocircuitry and molecular mechanisms involved, as well as to develop therapies for diseases involving cognitive impairment. A variety of tests have been developed to measure cognition in mice, and here we present those established and regularly used in the German Mouse Clinic. The test paradigms have been carefully chosen according to reliability of results and disease relevance of the cognitive functions assessed. Further criteria were time efficiency and ease of application. All tests assess slightly different but also overlapping or interacting aspects of learning and memory so that they can be used to complement each other in a comprehensive assessment of cognitive function. The five protocols described are for spontaneous alternation in the Y-maze, social discrimination, object recognition, automated assessment of learning and memory using the IntelliCage, and olfactory discrimination learning.
Phenotyping of inbred mouse strains and genetically modified mouse models for characteristics related to neuropsychiatric diseases includes assessing their anxiety-related behavior. A variety of tests have been developed to measure anxiety in laboratory rodents and these tests have been placed under scrutiny over the years concerning their validity. Here we describe the most widely used tests for anxiety in mice. The protocols we present are established methods used in the German Mouse Clinic (GMC), with which alterations in anxiety could successfully be discovered in mouse mutants. Moreover, since baseline anxiety levels in mice are easily influenced by a great variety of disturbances, we carefully outline the critical parameters that need to be considered.
Adaptive social behavior is important in mammals, both for the well-being of the individual and for the thriving of the species. Dysfunctions in social behavior occur in many neurodevelopmental and psychiatric diseases, and research into the genetic components of disease-relevant social deficits can open up new avenues for understanding the underlying biological mechanisms and therapeutic interventions. Genetically modified mouse models are particularly useful in this respect, and robust experimental protocols are needed to reliably assess relevant social behavior phenotypes. Here we describe in detail three protocols to quantitatively measure sociability, one of the most frequently investigated social behavior phenotypes in mice, using a three-chamber sociability test. These protocols can be extended to also assess social memory. In addition, we provide a detailed protocol on pup retrieval, which is a particularly robust maternal behavior amenable to various scientific questions. © 2017 by John Wiley & Sons, Inc.
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