Kaidanovich-Beilin Oksana, Lipina Tatiana, Vukobradovic Igor, Roder John, Woodgett James R
Samuel Lunenfeld Research Institute, Mount Sinai Hospital, USA.
J Vis Exp. 2011 Feb 25(48):2473. doi: 10.3791/2473.
Social interactions are a fundamental and adaptive component of the biology of numerous species. Social recognition is critical for the structure and stability of the networks and relationships that define societies. For animals, such as mice, recognition of conspecifics may be important for maintaining social hierarchy and for mate choice. A variety of neuropsychiatric disorders are characterized by disruptions in social behavior and social recognition, including depression, autism spectrum disorders, bipolar disorders, obsessive-compulsive disorders, and schizophrenia. Studies of humans as well as animal models (e.g., Drosophila melanogaster, Caenorhabditis elegans, Mus musculus, Rattus norvegicus) have identified genes involved in the regulation of social behavior. To assess sociability in animal models, several behavioral tests have been developed (reviewed in (3)). Integrative research using animal models and appropriate tests for social behavior may lead to the development of improved treatments for social psychopathologies. The three-chamber paradigm test known as Crawley's sociability and preference for social novelty protocol has been successfully employed to study social affiliation and social memory in several inbred and mutant mouse lines (e.g. (4-7)). The main principle of this test is based on the free choice by a subject mouse to spend time in any of three box's compartments during two experimental sessions, including indirect contact with one or two mice with which it is unfamiliar. To quantitate social tendencies of the experimental mouse, the main tasks are to measure a) the time spent with a novel conspecific and b) preference for a novel vs. a familiar conspecific. Thus, the experimental design of this test allows evaluation of two critical but distinguishable aspects of social behavior, such as social affiliation/motivation, as well as social memory and novelty. "Sociability" in this case is defined as propensity to spend time with another mouse, as compared to time spent alone in an identical but empty chamber. "Preference for social novelty" is defined as propensity to spend time with a previously unencountered mouse rather than with a familiar mouse. This test provides robust results, which then must be carefully analyzed, interpreted and supported/confirmed by alternative sociability tests. In addition to specific applications, Crawley's sociability test can be included as an important component of general behavioral screen of mutant mice.
社交互动是众多物种生物学中基本且适应性的组成部分。社会认知对于界定社会的网络和关系的结构与稳定性至关重要。对于诸如小鼠之类的动物,同种识别对于维持社会等级制度和择偶可能很重要。多种神经精神疾病的特征是社交行为和社会认知受到干扰,包括抑郁症、自闭症谱系障碍、双相情感障碍、强迫症和精神分裂症。对人类以及动物模型(例如果蝇、秀丽隐杆线虫、小家鼠、褐家鼠)的研究已经确定了参与调节社交行为的基因。为了评估动物模型中的社交性,已经开发了几种行为测试(见(3)中的综述)。使用动物模型和适当的社交行为测试进行综合研究可能会带来针对社会心理病理学的改进治疗方法。被称为克劳利社交性和对社会新奇性偏好方案的三室范式测试已成功用于研究几种近交和突变小鼠品系中的社会联系和社会记忆(例如(4 - 7))。该测试的主要原理基于受试小鼠在两个实验阶段自由选择在三个盒子隔室中的任何一个度过时间,包括与一两只它不熟悉的小鼠进行间接接触。为了量化实验小鼠的社交倾向,主要任务是测量:a)与新同种个体相处的时间,以及b)对新同种个体与熟悉同种个体的偏好。因此,该测试的实验设计允许评估社交行为的两个关键但可区分的方面,例如社会联系/动机以及社会记忆和新奇性。在这种情况下,“社交性”被定义为与独自待在相同但空的隔室中相比,与另一只小鼠相处的倾向。“对社会新奇性的偏好”被定义为与之前未遇到的小鼠而不是熟悉的小鼠相处的倾向。该测试提供了可靠的结果,然后必须通过替代社交性测试对其进行仔细分析、解释和支持/确认。除了特定应用外,克劳利社交性测试可作为突变小鼠一般行为筛选的重要组成部分。
