老龄和早衰雌性小鼠与成年小鼠进行短期社交后,其多个器官的免疫功能和氧化还原状态得到改善。

Judith Félix, Estefanía Díaz-Del Cerro, Mónica De la Fuente
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引用次数: 0

摘要

衰老与慢性氧化压力有关,氧化压力会导致免疫系统退化,增加发病率和死亡率。积极的社会环境有助于保持健康和减缓衰老。老龄小鼠和成年早衰小鼠(PAM)分别与成年小鼠或特殊的非早衰小鼠(ENPAM)同居两个月后,其腹腔白细胞和器官的免疫功能和氧化应激均有所改善,但成年小鼠和ENPAM的情况有所恶化。将同居时间缩短为 15 分钟/天,持续 2 个月后,老龄小鼠和 PAM 的腹腔白细胞免疫和氧化还原状态得到改善,寿命也更长,而成年小鼠和 ENPAM 则没有出现衰退。然而,这种短期同居的积极影响是否反映在器官的免疫和氧化还原状态上,目前还不得而知。本研究的目的是测试每天 15 分钟、持续 2 个月的同居是否能维持退役种雌性老龄小鼠和 PAM 器官的这些积极作用,并避免对成年小鼠和 ENPAM 产生消极影响。同居后,动物被处死,提取胸腺和脾脏以评估免疫功能。此外,还分析了脾脏、肝脏、心脏、肺脏和肾脏的氧化状态。结果表明,老龄小鼠与 PAM 同居后,免疫力和氧化还原状态都有所改善,而成年小鼠与 ENPAM 同居后,免疫力和氧化还原状态没有恶化。这种同居可以改善健康状况,延缓衰老。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improvement of Immune Function and Redox State in Several Organs of Old and Prematurely Aging Female Mice After a Short Social Interaction With Adults.

Aging is associated with chronic oxidative stress, which contributes to the deterioration of the immune system, increasing morbidity and mortality. A positive social environment permits health maintenance and a slower rate of aging. Improvements in immune function and oxidative stress were shown in peritoneal leukocytes and organs of old mice and adult prematurely aging mice (PAM) after cohabitation with adults or exceptional non-prematurely aging mice (ENPAM), respectively, for 2 months, but adults and ENPAM experienced deterioration. This was solved by shortening the cohabitation time to 15 minutes per day for 2 months, where old mice and PAM maintained immune and redox state improvements in their peritoneal leukocytes, as well as a greater longevity, and adults and ENPAM did not show deterioration. However, it is unknown whether the positive effects of this short cohabitation are reflected in the immunity and redox state of the organs. The aim of the present study was to test whether a cohabitation of 15 minutes per day for 2 months maintains these positive effects in the organs of retired breeder female old mice and PAM and avoids the negative ones in adults and ENPAM. After cohabitation the animals were sacrificed, and the thymus and spleen were extracted to evaluate the immune function. The oxidative state was also analyzed in the spleen, liver, heart, lung, and kidney. The results show that after cohabitation, old mice and PAM improved their immunity and redox state, and adults and ENPAM showed no deterioration. This cohabitation can be suggested to improve health and slow down aging.

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