视交叉上核昼夜节律的基因破坏导致小鼠出现无助、行为绝望和焦虑样行为。
Genetic Disruption of Circadian Rhythms in the Suprachiasmatic Nucleus Causes Helplessness, Behavioral Despair, and Anxiety-like Behavior in Mice.
作者信息
Landgraf Dominic, Long Jaimie E, Proulx Christophe D, Barandas Rita, Malinow Roberto, Welsh David K
机构信息
Veterans Affairs San Diego Healthcare System, San Diego; Department of Psychiatry and Center for Circadian Biology, University of California, San Diego, La Jolla, California.
Veterans Affairs San Diego Healthcare System, San Diego; Department of Psychiatry and Center for Circadian Biology, University of California, San Diego, La Jolla, California.
出版信息
Biol Psychiatry. 2016 Dec 1;80(11):827-835. doi: 10.1016/j.biopsych.2016.03.1050. Epub 2016 Mar 10.
BACKGROUND
Major depressive disorder is associated with disturbed circadian rhythms. To investigate the causal relationship between mood disorders and circadian clock disruption, previous studies in animal models have employed light/dark manipulations, global mutations of clock genes, or brain area lesions. However, light can impact mood by noncircadian mechanisms; clock genes have pleiotropic, clock-independent functions; and brain lesions not only disrupt cellular circadian rhythms but also destroy cells and eliminate important neuronal connections, including light reception pathways. Thus, a definitive causal role for functioning circadian clocks in mood regulation has not been established.
METHODS
We stereotactically injected viral vectors encoding short hairpin RNA to knock down expression of the essential clock gene Bmal1 into the brain's master circadian pacemaker, the suprachiasmatic nucleus (SCN).
RESULTS
In these SCN-specific Bmal1-knockdown (SCN-Bmal1-KD) mice, circadian rhythms were greatly attenuated in the SCN, while the mice were maintained in a standard light/dark cycle, SCN neurons remained intact, and neuronal connections were undisturbed, including photic inputs. In the learned helplessness paradigm, the SCN-Bmal1-KD mice were slower to escape, even before exposure to inescapable stress. They also spent more time immobile in the tail suspension test and less time in the lighted section of a light/dark box. The SCN-Bmal1-KD mice also showed greater weight gain, an abnormal circadian pattern of corticosterone, and an attenuated increase of corticosterone in response to stress.
CONCLUSIONS
Disrupting SCN circadian rhythms is sufficient to cause helplessness, behavioral despair, and anxiety-like behavior in mice, establishing SCN-Bmal1-KD mice as a new animal model of depression.
背景
重度抑郁症与昼夜节律紊乱有关。为了研究情绪障碍与昼夜节律钟破坏之间的因果关系,先前在动物模型中的研究采用了光/暗操纵、时钟基因的全局突变或脑区损伤。然而,光可通过非昼夜机制影响情绪;时钟基因具有多效性、与时钟无关的功能;并且脑损伤不仅会破坏细胞的昼夜节律,还会破坏细胞并消除重要的神经元连接,包括光接收通路。因此,昼夜节律钟在情绪调节中的明确因果作用尚未确立。
方法
我们通过立体定向注射编码短发夹RNA的病毒载体,以敲低大脑主昼夜节律起搏器视交叉上核(SCN)中基本时钟基因Bmal1的表达。
结果
在这些SCN特异性Bmal1敲低(SCN-Bmal1-KD)小鼠中,当小鼠维持在标准光/暗周期时,SCN中的昼夜节律大大减弱,SCN神经元保持完整,神经元连接未受干扰,包括光输入。在习得性无助范式中,SCN-Bmal1-KD小鼠逃跑较慢,甚至在暴露于不可逃避的压力之前就是如此。它们在悬尾试验中也有更多时间不动,在明暗箱的光照区停留时间更少。SCN-Bmal1-KD小鼠还表现出体重增加更多、皮质酮的昼夜节律模式异常以及对应激反应时皮质酮的增加减弱。
结论
破坏SCN昼夜节律足以导致小鼠出现无助、行为绝望和焦虑样行为,将SCN-Bmal1-KD小鼠确立为一种新的抑郁症动物模型。
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