Department of Psychological and Brain Sciences, Boston University, Boston, Massachusetts, 02119.
Boston University School of Medicine, Boston, Massachusetts, 02118.
J Neurosci. 2020 Nov 11;40(46):8782-8798. doi: 10.1523/JNEUROSCI.1280-20.2020.
Many mammals have evolved to be social creatures. In humans, the ability to learn from others' experiences is essential to survival; and from an early age, individuals are surrounded by a social environment that helps them develop a variety of skills, such as walking, talking, and avoiding danger. Similarly, in rodents, behaviors, such as food preference, exploration of novel contexts, and social approach, can be learned through social interaction. Social encounters facilitate new learning and help modify preexisting memories throughout the lifespan of an organism. Moreover, social encounters can help buffer stress or the effects of negative memories, as well as extinguish maladaptive behaviors. Given the importance of such interactions, there has been increasing work studying social learning and applying its concepts in a wide range of fields, including psychotherapy and medical sociology. The process of social learning, including its neural and behavioral mechanisms, has also been a rapidly growing field of interest in neuroscience. However, the term "social learning" has been loosely applied to a variety of psychological phenomena, often without clear definition or delineations. Therefore, this review gives a definition for specific aspects of social learning, provides an overview of previous work at the circuit, systems, and behavioral levels, and finally, introduces new findings on the social modulation of learning. We contextualize such social processes in the brain both through the role of the hippocampus and its capacity to process "social engrams" as well as through the brainwide realization of social experiences. With the integration of new technologies, such as optogenetics, chemogenetics, and calcium imaging, manipulating social engrams will likely offer a novel therapeutic target to enhance the positive buffering effects of social experiences or to inhibit fear-inducing social stimuli in models of anxiety and post-traumatic stress disorder.
许多哺乳动物已经进化成社会性生物。在人类中,从他人经验中学习的能力对生存至关重要;从很小的时候起,个体就处于一个帮助他们发展各种技能的社会环境中,例如行走、说话和避免危险。同样,在啮齿动物中,行为,如食物偏好、探索新环境和社交接近,可以通过社交互动来学习。社交接触促进新的学习,并有助于在生物体的整个生命周期中修改预先存在的记忆。此外,社交接触可以帮助缓冲压力或负面记忆的影响,以及消除适应不良的行为。鉴于这种相互作用的重要性,越来越多的研究工作致力于研究社会学习,并将其概念应用于广泛的领域,包括心理治疗和医学社会学。社会学习的过程,包括其神经和行为机制,也是神经科学中一个迅速发展的研究领域。然而,“社会学习”一词已经被松散地应用于各种心理现象,通常没有明确的定义或界限。因此,本综述给出了社会学习的特定方面的定义,概述了在电路、系统和行为水平上的先前工作,最后,介绍了关于学习的社会调节的新发现。我们通过海马体及其处理“社会印痕”的能力,以及通过大脑对社会经验的广泛实现,将这些社会过程置于大脑中。随着新技术的整合,如光遗传学、化学遗传学和钙成像,操纵社会印痕可能会提供一个新的治疗靶点,以增强社会经验的积极缓冲作用,或抑制焦虑和创伤后应激障碍模型中引起恐惧的社会刺激。