Michigan State University, East Lansing, USA.
Chronobiol Int. 2009 Oct;26(7):1290-306. doi: 10.3109/07420520903415742.
Circadian rhythms in behavior and physiology are very different in diurnal and nocturnal rodents. A pacemaker located in the suprachiasmatic nucleus (SCN) of the hypothalamus is responsible for generating and maintaining circadian rhythms in mammals, and cellular and molecular rhythms within the SCN of diurnal and nocturnal rodents are very similar. The neural substrates determining whether an animal has a diurnal or nocturnal phase preference are thus likely to reside downstream of the SCN. The ventral subparaventricular zone (vSPVZ), a major target of the SCN that is important for the expression of circadian rhythmicity in nocturnal lab rats (Rattus norvegicus), exhibits different rhythms in cFos expression in diurnal Nile grass rats compared to lab rats. We examined the effects of chemotoxic lesions of the cFos-expressing cells of the vSPVZ on activity rhythms of grass rats to evaluate the hypothesis that these cells support diurnality in this species. Male grass rats housed in a 12:12 light:dark (LD) cycle were given bilateral injections of the neurotoxin n-methyl-D-L-aspartic acid (NMA) or vehicle aimed at the vSPVZ; cells in the SCN are resistant to NMA, which kills neurons in other brain regions, but leaves fibers of passage intact. vSPVZ-damaged grass rats exhibited highly unstable patterns of activity in constant darkness (DD) and in the LD cycle that followed. However, crepuscular bouts of activity could be seen in all animals with vSPVZ lesions. Damage to the vSPVZ reduced cFos expression in this area but not in the SCN. Using correlational analyses, we found that the number of cFos-ir cells in the vSPVZ was unrelated to several parameters of the activity rhythms during the initial post-surgical period, when animals were in LD. However, the number of cells expressing cFos in the vSPVZ was positively correlated with general activity during the subjective day relative to the subjective night when the animals were switched to DD, and this pattern persisted when a LD cycle was reinstated. Also, the number of cFos-ir cells in the vSPVZ was negatively correlated with the strength of rhythmicity in DD and the number of days required to re-entrain to a LD cycle following several weeks in DD. These data suggest that the vSPVZ emits signals important for the expression of stable diurnal activity patterns in grass rats, and that species differences in these signals may contribute to differences in behavioral and physiological rhythms of diurnal and nocturnal mammals. (Author correspondence: mschw009@umaryland.edu ).
行为和生理学中的昼夜节律在昼行性和夜行性啮齿动物中差异很大。位于下丘脑视交叉上核(SCN)的生物钟负责产生和维持哺乳动物的昼夜节律,并且昼行性和夜行性啮齿动物 SCN 中的细胞和分子节律非常相似。因此,决定动物是否具有昼行性或夜行性相位偏好的神经基质很可能位于 SCN 下游。腹侧旁室下区(vSPVZ)是 SCN 的主要靶标,对于夜行性实验室大鼠(Rattus norvegicus)的昼夜节律表达很重要,与实验室大鼠相比,在昼行性尼罗河草鼠中,vSPVZ 中 cFos 表达的神经毒性损伤对活动节律的影响,以评估这些细胞是否支持该物种的昼行性。在 12:12 光照:黑暗(LD)周期中饲养的雄性草鼠接受了双侧 vSPVZ 中表达 cFos 的细胞的神经毒素 N-甲基-D-天冬氨酸(NMA)或载体注射;SCN 中的细胞对 NMA 有抗性,NMA 会杀死其他脑区的神经元,但不会破坏通过纤维。vSPVZ 损伤的草鼠在持续黑暗(DD)和随后的 LD 周期中表现出高度不稳定的活动模式。然而,所有 vSPVZ 损伤的动物都可以看到黄昏活动。vSPVZ 损伤减少了该区域的 cFos 表达,但 SCN 中没有。通过相关分析,我们发现 vSPVZ 中 cFos-ir 细胞的数量与动物处于 LD 时初始手术后期间活动节律的几个参数无关。然而,当动物切换到 DD 时,vSPVZ 中表达 cFos 的细胞数量与主观白天的一般活动呈正相关,而当重新引入 LD 周期时,这种模式仍然存在。此外,vSPVZ 中 cFos-ir 细胞的数量与 DD 中的节律性强度和在 DD 中数周后重新适应 LD 周期所需的天数呈负相关。这些数据表明,vSPVZ 发出的信号对于草鼠稳定的昼间活动模式的表达很重要,并且这些信号在昼行性和夜行性哺乳动物中的差异可能导致行为和生理节律的差异。(作者通讯:mschw009@umaryland.edu)。
