Jacobs Emily G, Weiss Blair K, Makris Nikos, Whitfield-Gabrieli Sue, Buka Stephen L, Klibanski Anne, Goldstein Jill M
Division of Women's Health, Department of Medicine and Department of Psychiatry, Brigham and Women's Hospital, Boston, Massachusetts 02120, Harvard Medical School, Boston, Massachusetts 02120, Athinoula A. Martinos Center, Massachusetts General Hospital, Charlestown, Massachusetts 02129,
Department of Psychiatry, Brigham and Women's Hospital, Boston, Massachusetts 02120.
J Neurosci. 2016 Sep 28;36(39):10163-73. doi: 10.1523/JNEUROSCI.0951-16.2016.
Cognitive neuroscience of aging studies traditionally target participants age 65 and older. However, epidemiological surveys show that many women report increased forgetfulness earlier in the aging process, as they transition to menopause. In this population-based fMRI study, we stepped back by over a decade to characterize the changes in memory circuitry that occur in early midlife, as a function of sex and women's reproductive stage. Participants (N = 200; age range, 45-55) performed a verbal encoding task during fMRI scanning. Reproductive histories and serologic evaluations were used to determine menopausal status. Results revealed a pronounced impact of reproductive stage on task-evoked hippocampal responses, despite minimal difference in chronological age. Next, we examined the impact of sex and reproductive stage on functional connectivity across task-related brain regions. Postmenopausal women showed enhanced bilateral hippocampal connectivity relative to premenopausal and perimenopausal women. Across women, lower 17β-estradiol concentrations were related to more pronounced alterations in hippocampal connectivity and poorer performance on a subsequent memory retrieval task, strongly implicating sex steroids in the regulation of this circuitry. Finally, subgroup analyses revealed that high-performing postmenopausal women (relative to low and middle performers) exhibited a pattern of brain activity akin to premenopausal women. Together, these findings underscore the importance of considering reproductive stage, not simply chronological age, to identify neuronal and cognitive changes that unfold in the middle decades of life. In keeping with preclinical studies, these human findings suggest that the decline in ovarian estradiol production during menopause plays a significant role in shaping memory circuitry.
Maintaining intact memory function with age is one of the greatest public health challenges of our time, and women have an increased risk for memory disorders relative to men later in life. We studied adults early in the aging process, as women transition into menopause, to identify neuronal and cognitive changes that unfold in the middle decades of life. Results demonstrate regional and network-level differences in memory encoding-related activity as a function of women's reproductive stage, independent of chronological age. Analyzing data without regard to sex or menopausal status obscured group differences in circuit-level neural strategies associated with successful memory retrieval. These findings suggest that early changes in memory circuitry are evident decades before the age range traditionally targeted by cognitive neuroscience of aging studies.
传统上,衰老的认知神经科学研究以65岁及以上的参与者为对象。然而,流行病学调查显示,许多女性在衰老过程中,随着进入更年期,会更早地出现记忆力减退。在这项基于人群的功能磁共振成像(fMRI)研究中,我们将时间回溯了十多年,以描述在中年早期,作为性别和女性生殖阶段的函数,记忆回路中发生的变化。参与者(N = 200;年龄范围45 - 55岁)在fMRI扫描期间执行言语编码任务。利用生殖史和血清学评估来确定绝经状态。结果显示,尽管实际年龄差异最小,但生殖阶段对任务诱发的海马反应有显著影响。接下来,我们研究了性别和生殖阶段对与任务相关的脑区功能连接的影响。绝经后女性相对于绝经前和围绝经期女性,双侧海马连接增强。在所有女性中,较低的17β - 雌二醇浓度与海马连接更明显的改变以及随后记忆检索任务中较差的表现相关,这强烈表明性类固醇在调节该回路中起作用。最后,亚组分析显示,表现优秀的绝经后女性(相对于表现一般和较差的女性)表现出一种类似于绝经前女性的脑活动模式。总之,这些发现强调了考虑生殖阶段而非仅仅实际年龄的重要性,以识别在中年时期出现的神经元和认知变化。与临床前研究一致,这些人体研究结果表明,绝经期间卵巢雌二醇分泌的下降在塑造记忆回路中起重要作用。
随着年龄增长保持完整的记忆功能是我们这个时代最大的公共卫生挑战之一,并且女性在晚年患记忆障碍的风险相对于男性有所增加。我们研究了处于衰老过程早期的成年人,即女性进入更年期时,以识别在中年时期出现的神经元和认知变化。结果表明,作为女性生殖阶段的函数,在记忆编码相关活动中存在区域和网络水平的差异,与实际年龄无关。不考虑性别或绝经状态进行数据分析会掩盖与成功记忆检索相关的回路水平神经策略中的组间差异。这些发现表明,记忆回路的早期变化在传统上衰老认知神经科学研究目标年龄范围的几十年前就很明显。