Division of Biology and Biological Engineering, California Institute of Technology, Pasadena, CA, USA.
Tianqiao and Chrissy Chen Institute for Neuroscience Caltech, Pasadena, CA, USA.
Nature. 2024 Oct;634(8035):901-909. doi: 10.1038/s41586-024-07916-w. Epub 2024 Aug 14.
Females exhibit complex, dynamic behaviours during mating with variable sexual receptivity depending on hormonal status. However, how their brains encode the dynamics of mating and receptivity remains largely unknown. The ventromedial hypothalamus, ventrolateral subdivision contains oestrogen receptor type 1-positive neurons that control mating receptivity in female mice. Here, unsupervised dynamical system analysis of calcium imaging data from these neurons during mating uncovered a dimension with slow ramping activity, generating a line attractor in neural state space. Neural perturbations in behaving females demonstrated relaxation of population activity back into the attractor. During mating, population activity integrated male cues to ramp up along this attractor, peaking just before ejaculation. Activity in the attractor dimension was positively correlated with the degree of receptivity. Longitudinal imaging revealed that attractor dynamics appear and disappear across the oestrus cycle and are hormone dependent. These observations suggest that a hypothalamic line attractor encodes a persistent, escalating state of female sexual arousal or drive during mating. They also demonstrate that attractors can be reversibly modulated by hormonal status, on a timescale of days.
雌性在交配时表现出复杂、动态的行为,其性接受能力因激素状态而异。然而,它们的大脑如何对交配和接受能力的动态进行编码在很大程度上仍是未知的。在下丘脑中,腹内侧亚区包含雌激素受体 1 阳性神经元,这些神经元控制着雌性小鼠的交配接受能力。在这里,对这些神经元在交配过程中的钙成像数据进行无监督动力学系统分析,揭示了一个具有缓慢斜坡活动的维度,在神经状态空间中产生了一个线性吸引子。对行为雌性动物的神经干扰表明,群体活动会松弛回到吸引子中。在交配过程中,群体活动整合了雄性线索,沿着这个吸引子向上增加,在射精前达到峰值。吸引子维度的活动与接受度呈正相关。纵向成像显示,吸引子动力学在发情周期中出现和消失,并且依赖于激素。这些观察结果表明,下丘脑的线性吸引子编码了雌性在交配过程中持续、不断升级的性唤起或驱动状态。它们还表明,吸引子可以在几天的时间尺度内,根据激素状态可逆地进行调节。
