Grant Laura M, Barth Kelsey J, Muslu Cagla, Kelm-Nelson Cynthia A, Bakshi Vaishali P, Ciucci Michelle R
Department of Surgery.
Department of Psychiatry.
Behav Neurosci. 2018 Aug;132(4):269-283. doi: 10.1037/bne0000258. Epub 2018 Jul 9.
Rats produce high rates of ultrasonic vocalizations (USVs) in social situations; these vocalizations are influenced by multiple neurotransmitter systems. Norepinephrine (NE) plays a significant role in vocalization biology; however, the contribution of NE to normal, prosocial vocal control has not been well established in the rat. To address this, we used NE adrenoceptor agonists (Cirazoline, Clonidine) and antagonists (Prozasin, Atipamezole, Propranolol) to quantify the contribution of specific alpha-1, alpha-2, and beta NE receptors to USV parameters in male Long Evans rats during seminaturalistic calling. We found that multiple USV acoustic variables (intensity, bandwidth, duration, peak frequency, and call profile) are modified by alterations in NE signaling. Very generally, agents that increased NE neurotransmission (Atipamezole) or activated alpha-1 receptors (Cirazoline), led to an increase in intensity and duration, respectively. Agents that decreased NE neurotransmission (Clonidine) or blocked alpha-1 receptors (Prazosin) reduced call rate, intensity, and bandwidth. However, the beta-receptor antagonist, Propranolol, was associated with increased call rate, duration, and intensity. Limb motor behaviors were largely unaffected by any drug, with the exception of Clonidine. Higher doses of Clonidine significantly reduced gross motor, grooming, and feeding behavior. These results confirm the involvement of NE transmission in vocal control in the rat, and suggest that this USV model is useful for studying the neuropharmacology of behavioral measures that may have implications for disease states, such as Parkinson's disease. (PsycINFO Database Record
大鼠在社交情境中会发出高频超声波发声(USV);这些发声受多种神经递质系统影响。去甲肾上腺素(NE)在发声生物学中起重要作用;然而,NE对大鼠正常亲社会发声控制的贡献尚未得到充分证实。为了解决这个问题,我们使用NE肾上腺素能受体激动剂(西拉唑啉、可乐定)和拮抗剂(哌唑嗪、阿替美唑、普萘洛尔)来量化特定的α-1、α-2和β NE受体对雄性长Evans大鼠在半自然发声过程中USV参数的贡献。我们发现,NE信号的改变会改变多个USV声学变量(强度、带宽、持续时间、峰值频率和叫声特征)。一般来说,增加NE神经传递的药物(阿替美唑)或激活α-1受体的药物(西拉唑啉)分别导致强度和持续时间增加。减少NE神经传递的药物(可乐定)或阻断α-1受体的药物(哌唑嗪)会降低叫声频率、强度和带宽。然而,β受体拮抗剂普萘洛尔与叫声频率、持续时间和强度增加有关。除可乐定外,肢体运动行为在很大程度上不受任何药物影响。高剂量可乐定显著降低了总体运动、梳理和进食行为。这些结果证实了NE传递参与大鼠的发声控制,并表明这种USV模型可用于研究可能对帕金森病等疾病状态有影响的行为测量的神经药理学。(PsycINFO数据库记录)