出生后的饲养环境会改变幼崽对照料者与后代互动的暗示

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hannah E. Lapp, Melissa Salazar, Frances A. Champagne
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引用次数: 0

摘要

母亲早年的行为为婴儿的心理生物学提供了重要的支架,并对神经生物学和行为结果产生终生影响。然而,婴儿并不是被动的接受者。啮齿类动物的证据表明,幼崽会通过听觉、触觉和荷尔蒙线索来寻求母体的关爱,从而积极促进母崽之间的互动。有限的垫料和筑巢材料(LBN)饲养操作会诱发母性照料的变化,这种变化被归因于低资源环境造成的母性压力。本研究的目的是确定 LBN 是否也会改变幼鼠的母性行为线索,并对 LBN 引起影响的机制产生影响。在大鼠出生后第 0-6 天,将母鼠和幼鼠随机分配到 LBN 或对照组饲养条件下,并在第 6-13 天将幼鼠饲养到相同或不同的条件下。通过使用基于机器学习的自动分析进行 24 小时监测,LBN 增加了幼崽的母性定向行为。在 P6 和 P12 期,LBN 改变了几种已知会影响母性行为的幼崽线索,包括降低幼崽的核心体温、减少体重和改变幼崽的发声。P6-13 期暴露于 LBN 的幼崽血清睾酮升高,这与母性舔舐和梳理呈正相关。LBN减少了幼鼠在出勤开始和哺乳开始之间的移动,这与母鼠的哺乳潜伏期呈负相关,并导致LBN母鼠的哺乳潜伏期更长。P0-6 幼鼠暴露于 LBN 也会导致 P7 和 P9 幼鼠出巢时间延长,舔舐和梳理时间缩短,这表明 LBN 对幼鼠的影响是持久的。这些数据表明,LBN 可改变幼鼠的行为和激素信号,从而引起更多的母性关怀,并有助于增强幼鼠的定向行为。这种双向相互作用可能是早期生活环境产生持久影响的一个关键机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Postnatal rearing environment alters pup cues for caregiver-offspring interactions

Maternal behavior experienced in early life provides essential scaffolding to infant psychobiology with life-long effects on neurobiological and behavioral outcomes. However, infants are not passive recipients of caregiving. Evidence in rodents suggests that pups actively contribute to dam-pup interactions by soliciting maternal care with auditory, tactile, and hormonal cues. The limited bedding and nesting material (LBN) rearing manipulation induces changes in maternal care that have been attributed to maternal stress caused by the low-resource environment. The goal of the current study was to determine whether LBN also alters pup cues for maternal behavior, with implications for the mechanism of LBN-induced effects. Rat dams and pups were randomly assigned to LBN or Control rearing conditions on postnatal day (P) 0–6 and pups were fostered to the same or different condition on P6–13. LBN increased pup-directed maternal behaviors measured through 24 h monitoring using machine learning based automated analysis. LBN altered several pup cues known to affect maternal behavior including reducing pup core body temperature, reducing body weight, and altering pup vocalizations on P6 and P12. P6–13 LBN-exposed pups had elevated serum testosterone, which positively correlated with maternal licking and grooming. LBN reduced pup movement between nest attendance onset and the start of nursing, which was negatively related to dam nursing latency and contributed to longer nursing latency in LBN dams. P0–6 pup exposure to LBN also led to longer nest attendance bouts and shorter licking and grooming bouts on P7 and P9, suggesting lasting effects of LBN on pups. These data demonstrate that LBN changes pup behavioral and hormonal signals consistent with eliciting more maternal care, contributing to augmented pup-directed behaviors. This bidirectional interplay may be a critical mechanism involved in the lasting effects of early life environments.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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