Department of Genetics and Biotechnology, Saint-Petersburg State University, Universitetskaya Emb., 7-9, Saint Petersburg, Russia, 199034.
Open Longevity, 15260 Ventura Blvd, STE 2230, Sherman Oaks, CA, 91403, USA.
Sci Rep. 2023 Oct 17;13(1):17622. doi: 10.1038/s41598-023-44647-w.
Population density is known to affect the health and survival of many species, and is especially important for social animals. In mice, living in crowded conditions results in the disruption of social interactions, chronic stress, and immune and reproductive suppression; however, the underlying mechanisms remain unclear. Here, we investigated the role of chemosignals in the regulation of mouse physiology and behavior in response to social crowding. The pheromone 2,5-dimethylpyrazine (2,5-DMP), which is released by female mice in crowded conditions, induced aversion, glucocorticoid elevation and, when chronic, resulted in reproductive and immune suppression. 2,5-DMP olfaction induced genome destabilization in bone marrow cells in a stress-dependent manner, providing a plausible mechanism for crowding-induced immune dysfunction. Interestingly, the genome-destabilizing effect of 2,5-DMP was comparable to a potent mouse stressor (immobilization), and both stressors led to correlated expression changes in genes regulating cellular stress response. Thus, our findings demonstrate that, in mice, the health effects of crowding may be explained at least in part by chemosignals and also propose a significant role of stress and genome destabilization in the emergence of crowding effects.
种群密度已知会影响许多物种的健康和生存,对社会性动物尤为重要。在拥挤环境中生活的老鼠会导致社交互动中断、慢性应激以及免疫和生殖功能抑制;然而,其潜在机制尚不清楚。在这里,我们研究了化学信号在调节小鼠对社交拥挤的生理和行为反应中的作用。在拥挤环境中释放的费洛蒙 2,5-二甲基吡嗪(2,5-DMP)会引起厌恶、糖皮质激素升高,长期接触还会导致生殖和免疫抑制。2,5-DMP 的嗅觉会以应激依赖的方式引起骨髓细胞的基因组不稳定性,为拥挤引起的免疫功能障碍提供了一个合理的机制。有趣的是,2,5-DMP 的基因组不稳定作用与一种有效的小鼠应激源(固定)相当,这两种应激源都会导致调节细胞应激反应的基因的表达变化相关。因此,我们的研究结果表明,在老鼠中,拥挤对健康的影响至少部分可以用化学信号来解释,并且还表明应激和基因组不稳定性在拥挤效应的出现中起着重要作用。
