Laboratório de Hipertensão, Departamento de Fisiologia e Biofísica, Instituto de Ciências Biológicas, Universidade Federal de Minas Gerais, Brazil.
Neuroscience. 2009 Dec 15;164(3):1360-8. doi: 10.1016/j.neuroscience.2009.09.018. Epub 2009 Sep 15.
Neurons in the dorsomedial hypothalamus (DMH) play a key role in mediating tachycardia elicited by emotional stress. DMH activation by microinjections of the GABA(A) antagonist evokes tachycardia and physiological changes typically seen in experimental stress. DMH inhibition abolishes the tachycardia evoked by stress. Based on anatomic evidences for lateralization in the pathways from DMH, we investigated a possible inter-hemispheric difference in DMH-evoked cardiovascular responses. In anesthetized rats we compared changes in heart rate (HR), renal sympathetic activity (RSNA), mesenteric blood flow (MBF) and tail vascular conductance produced by activation of right (R) and left (L) sides of the DMH. We also evaluated the tachycardia produced by air jet stress after inhibition of R or L DMH. There were always greater increases in RSNA when bicuculline was injected ipsilaterally to the side where these parameters were recorded (average DeltaRSNA: L=+50% and R=+26%; P<0.05). Compared to pre-injection values, right DMH activation caused pronounced decrease (0.87+/-0.1% vs. 0.4+/-0.11%/mm Hg; P<0.05), whereas bicuculline methiodide (BMI) into left DMH produced no significant changes (0.95+/-0.09% vs. 1.04+/-0.25%/mm Hg) in tail vascular conductance. R or L DMH disinhibition produced decreases in MBF, but no differences in the range of these changes were observed. Activation of the right DMH caused greater tachycardia compared to the left DMH activation (average DeltaHR: R=+92 bpm; L=+48 bpm; P<0.05). Tachycardia evoked by air jet stress was smallest after right DMH inhibition (average DeltaHR: R=+57 bpm and L=+134 bpm; P<0.05). These results indicate that the descending cardiovascular pathways from DMH are predominantly lateralized and the right DMH might exert a prominent control on heart rate changes during emotional stress.
背内侧下丘脑(DMH)中的神经元在介导情绪应激引起的心动过速中发挥关键作用。通过微注射 GABA(A) 拮抗剂激活 DMH 会引起心动过速和实验应激中通常观察到的生理变化。DMH 抑制消除了应激引起的心动过速。基于 DMH 通路的侧化解剖证据,我们研究了 DMH 诱发心血管反应中可能存在的半球间差异。在麻醉大鼠中,我们比较了激活右(R)和左(L)侧 DMH 时心率(HR)、肾交感神经活动(RSNA)、肠系膜血流(MBF)和尾血管传导的变化。我们还评估了抑制 R 或 L DMH 后空气喷射应激引起的心动过速。当在记录这些参数的同侧注射荷包牡丹碱时,RSNA 的增加总是更大(平均 DeltaRSNA:L=+50%,R=+26%;P<0.05)。与注射前值相比,右 DMH 激活导致明显减少(0.87+/-0.1%对 0.4+/-0.11%/mmHg;P<0.05),而左 DMH 中的荷包牡丹碱甲碘化物(BMI)没有产生显著变化(0.95+/-0.09%对 1.04+/-0.25%/mmHg)在尾血管传导中。R 或 L DMH 去抑制导致 MBF 减少,但这些变化的范围没有观察到差异。与左 DMH 激活相比,右 DMH 激活引起更大的心动过速(平均 DeltaHR:R=+92 bpm;L=+48 bpm;P<0.05)。空气喷射应激引起的心动过速在右 DMH 抑制后最小(平均 DeltaHR:R=+57 bpm 和 L=+134 bpm;P<0.05)。这些结果表明,来自 DMH 的下行心血管通路主要是侧化的,右 DMH 可能在情绪应激期间对心率变化施加突出的控制。
