CNR, Cell Biology and Neurobiology Institute, Roma, Italy.
PLoS One. 2011 Apr 8;6(4):e18637. doi: 10.1371/journal.pone.0018637.
In man, many different events implying childhood separation from caregivers/unstable parental environment are associated with heightened risk for panic disorder in adulthood. Twin data show that the occurrence of such events in childhood contributes to explaining the covariation between separation anxiety disorder, panic, and the related psychobiological trait of CO(2) hypersensitivity. We hypothesized that early interference with infant-mother interaction could moderate the interspecific trait of response to CO(2) through genetic control of sensitivity to the environment.
Having spent the first 24 hours after birth with their biological mother, outbred NMRI mice were cross-fostered to adoptive mothers for the following 4 post-natal days. They were successively compared to normally-reared individuals for: number of ultrasonic vocalizations during isolation, respiratory physiology responses to normal air (20%O(2)), CO(2)-enriched air (6% CO(2)), hypoxic air (10%O(2)), and avoidance of CO(2)-enriched environments.
Cross-fostered pups showed significantly more ultrasonic vocalizations, more pronounced hyperventilatory responses (larger tidal volume and minute volume increments) to CO(2)-enriched air and heightened aversion towards CO(2)-enriched environments, than normally-reared individuals. Enhanced tidal volume increment response to 6%CO(2) was present at 16-20, and 75-90 postnatal days, implying the trait's stability. Quantitative genetic analyses of unrelated individuals, sibs and half-sibs, showed that the genetic variance for tidal volume increment during 6%CO(2) breathing was significantly higher (Bartlett χ = 8.3, p = 0.004) among the cross-fostered than the normally-reared individuals, yielding heritability of 0.37 and 0.21 respectively. These results support a stress-diathesis model whereby the genetic influences underlying the response to 6%CO(2) increase their contribution in the presence of an environmental adversity. Maternal grooming/licking behaviour, and corticosterone basal levels were similar among cross-fostered and normally-reared individuals.
A mechanism of gene-by-environment interplay connects this form of early perturbation of infant-mother interaction, heightened CO(2) sensitivity and anxiety. Some non-inferential physiological measurements can enhance animal models of human neurodevelopmental anxiety disorders.
在人类中,许多不同的事件暗示着儿童时期与照顾者分离/不稳定的父母环境,这些事件与成年后患恐慌障碍的风险增加有关。双胞胎数据表明,童年时期发生此类事件有助于解释分离焦虑症、恐慌症以及相关的 CO(2)敏感性的心理生物学特征之间的相关性。我们假设,婴儿与母亲互动的早期干扰可以通过对环境敏感性的遗传控制来调节 CO(2)的种间特征。
新生的 NMRI 老鼠在出生后的头 24 小时内与亲生母亲待在一起,然后被寄养给养母 4 天。它们与正常饲养的老鼠进行了以下比较:隔离时的超声波发声次数、对正常空气(20%O(2))、富含 CO(2)的空气(6% CO(2))、低氧空气(10%O(2))的呼吸生理反应以及对富含 CO(2)环境的回避反应。
与正常饲养的老鼠相比,寄养的幼鼠表现出明显更多的超声波发声、对富含 CO(2)的空气的过度通气反应(潮气量和分钟通气量增加更大)以及对 CO(2)环境的厌恶程度更高。在 16-20 和 75-90 日龄时,6%CO(2)呼吸时潮气量增量的反应增强,表明该特征的稳定性。对无关个体、同窝兄弟姐妹和半同胞的定量遗传分析表明,在富含 CO(2)的空气中进行 6%CO(2)呼吸时潮气量增量的遗传方差在寄养的老鼠中显著高于正常饲养的老鼠(巴特利特 χ = 8.3,p = 0.004),分别产生 0.37 和 0.21 的遗传率。这些结果支持应激素质模型,即对 6%CO(2)的反应的遗传影响在存在环境逆境时增加其贡献。寄养和正常饲养的老鼠的母鼠梳理/舔舐行为和皮质酮基础水平相似。
一种基因与环境相互作用的机制将这种形式的婴儿与母亲互动的早期干扰、CO(2)敏感性增加和焦虑联系起来。一些非推断性的生理测量可以增强人类神经发育性焦虑障碍的动物模型。
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