University College London Ear Institute, 332 Gray's Inn Road, London WC1X 8EE, UK.
Southwark and Central Integrated Psychological Therapies Team, The Maudsley Hospital, South London and Maudsley NHS Foundation Trust, Denmark Hill, London SE5 8AZ, UK.
Nat Commun. 2016 Nov 24;7:13442. doi: 10.1038/ncomms13442.
Neural adaptation is central to sensation. Neurons in auditory midbrain, for example, rapidly adapt their firing rates to enhance coding precision of common sound intensities. However, it remains unknown whether this adaptation is fixed, or dynamic and dependent on experience. Here, using guinea pigs as animal models, we report that adaptation accelerates when an environment is re-encountered-in response to a sound environment that repeatedly switches between quiet and loud, midbrain neurons accrue experience to find an efficient code more rapidly. This phenomenon, which we term meta-adaptation, suggests a top-down influence on the midbrain. To test this, we inactivate auditory cortex and find acceleration of adaptation with experience is attenuated, indicating a role for cortex-and its little-understood projections to the midbrain-in modulating meta-adaptation. Given the prevalence of adaptation across organisms and senses, meta-adaptation might be similarly common, with extensive implications for understanding how neurons encode the rapidly changing environments of the real world.
神经适应是感觉的核心。例如,听觉中脑的神经元会迅速调整其发放率,以提高常见声强的编码精度。然而,目前尚不清楚这种适应是固定的,还是动态的,依赖于经验。在这里,我们使用豚鼠作为动物模型,报告了当环境再次出现时,适应会加速——对于在安静和响亮之间反复切换的声音环境,中脑神经元会积累经验,以更快地找到有效的编码。我们将这种现象称为元适应,这表明上有对中脑的影响。为了验证这一点,我们使听觉皮层失活,发现随着经验的积累,适应的加速会减弱,这表明皮层及其对中脑的鲜为人知的投射在调节元适应中起作用。鉴于适应在生物和感觉中的普遍性,元适应可能也同样普遍,这对理解神经元如何编码现实世界中快速变化的环境具有广泛的意义。