Department of Cell Biology and Neuroscience, Rowan-Virtua School of Translational Biomedical Engineering and Sciences, Stratford, NJ, USA.
Department of Cell Biology and Neuroscience, Rowan-Virtua School of Translational Biomedical Engineering and Sciences, Stratford, NJ, USA.
Behav Brain Res. 2024 Jun 5;467:115002. doi: 10.1016/j.bbr.2024.115002. Epub 2024 Apr 16.
Mild traumatic brain injury (mTBI) disrupts cognitive processes that influence risk taking behavior. Little is known regarding the effects of repetitive mild injury (rmTBI) or whether these outcomes are sex specific. Risk/reward decision making is mediated by the prefrontal cortex (PFC), which is densely innervated by catecholaminergic fibers. Aberrant PFC catecholamine activity has been documented following TBI and may underlie TBI-induced risky behavior. The present study characterized the effects of rmTBI on risk/reward decision making behavior and catecholamine transmitter regulatory proteins within the PFC. Rats were exposed to sham, single (smTBI), or three closed-head controlled cortical impact (CH-CCI) injuries and assessed for injury-induced effects on risk/reward decision making using a probabilistic discounting task (PDT). In the first week post-final surgery, mTBI increased risky choice preference. By the fourth week, males exhibited increased latencies to make risky choices following rmTBI, demonstrating a delayed effect on processing speed. When levels of tyrosine hydroxylase (TH) and the norepinephrine reuptake transporter (NET) were measured within subregions of the PFC, females exhibited dramatic increases of TH levels within the orbitofrontal cortex (OFC) following smTBI. However, both males and females demonstrated reduced levels of OFC NET following rmTBI. These results indicate the OFC is susceptible to catecholamine instability after rmTBI and suggests that not all areas of the PFC contribute equally to TBI-induced imbalances. Overall, the CH-CCI model of rmTBI has revealed time-dependent and sex-specific changes in risk/reward decision making and catecholamine regulation following repetitive mild head injuries.
轻度创伤性脑损伤 (mTBI) 会破坏影响冒险行为的认知过程。关于重复轻度损伤 (rmTBI) 的影响知之甚少,也不知道这些结果是否具有性别特异性。风险/回报决策是由前额叶皮层 (PFC) 介导的,其被儿茶酚胺能纤维密集支配。创伤性脑损伤后已经记录到 PFC 儿茶酚胺活性异常,这可能是创伤性脑损伤引起的冒险行为的基础。本研究描述了 rmTBI 对 PFC 内风险/回报决策行为和儿茶酚胺递质调节蛋白的影响。大鼠接受假手术、单次 (smTBI) 或三次闭合性颅脑撞击 (CH-CCI) 损伤,并使用概率折扣任务 (PDT) 评估损伤对风险/回报决策的影响。在最后一次手术的第一周,mTBI 增加了冒险选择偏好。到第四周,雄性在 rmTBI 后表现出冒险选择潜伏期增加,表明处理速度延迟。当测量 PFC 亚区中的酪氨酸羟化酶 (TH) 和去甲肾上腺素再摄取转运体 (NET) 水平时,雌性在 smTBI 后眶额皮层 (OFC) 中表现出 TH 水平的急剧增加。然而,雄性和雌性在 rmTBI 后均表现出 OFC NET 水平降低。这些结果表明,OFC 在 rmTBI 后容易发生儿茶酚胺不稳定,并表明并非 PFC 的所有区域都同等程度地导致创伤性脑损伤引起的失衡。总体而言,rmTBI 的 CH-CCI 模型揭示了重复轻度头部损伤后风险/回报决策和儿茶酚胺调节的时间依赖性和性别特异性变化。
