Sera from people with HIV and depression induce commensurate metabolic alterations in astrocytes: toward precision diagnoses and therapies

A. Laird, Alexandra Anh Le, J. Kulbe, A. Umlauf, Melody Sagarian, Matthew Spencer, Anish Sathe, D. Grelotti, J. Iudicello, Brook Henry, Ronald J. Ellis, J. Fields
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Abstract

People with HIV (PWH) have high rates of depression and neurocognitive impairment (NCI) despite viral suppression on antiretroviral therapy (ART). Mounting evidence suggests that immunometabolic disruptions may contribute to these conditions in some PWH. We hypothesized that metabolic dysfunction in astrocytes is associated with depressive symptoms and cognitive function in PWH. Human astrocytes were exposed to sera from PWH (n=40) with varying degrees of depressive symptomatology and cognitive function. MitoTrackerTM Deep Red FM (MT) was used to visualize mitochondrial activity and glial fibrillary acidic protein (GFAP) as an indicator of astrocyte reactivity using the high-throughput fluorescent microscopy and image analyses platform, CellInsight CX5 (CX5). The Seahorse platform was used to assess glycolytic and mitochondrial metabolism. More severe depression, as indexed by higher Beck's Depression Inventory (BDI-II) scores, was associated with lower MT signal measures. Better cognitive function, as assessed by neuropsychiatric testing t-scores, was associated with increased MT signal measures. GFAP intensity negatively correlated with several cognitive t-scores. Age positively correlated with (higher) MT signal measures and GFAP intensity. Worse depressive symptoms (higher BDI-II scores) were associated with decreased oxygen consumption rate and spare respiratory capacity, concomitant with increased extracellular acidification rate in astrocytes. These findings show that factors in the sera of PWH alter mitochondrial activity in cultured human astrocytes, suggesting that mechanisms that alter mitochondrial and astrocyte homeostasis can be detected peripherally. Thus, in vitro cultures may provide a model to identify neuropathogenic mechanisms of depression or neurocognitive impairment in PWH and test personalized therapeutics for neurologic and psychiatric disorders.
艾滋病毒感染者和抑郁症患者的血清会诱导星形胶质细胞发生相应的代谢改变:实现精准诊断和治疗
尽管抗逆转录病毒疗法(ART)能抑制病毒,但艾滋病病毒感染者(PWH)的抑郁症和神经认知障碍(NCI)发病率很高。越来越多的证据表明,免疫代谢紊乱可能是导致一些艾滋病病毒感染者出现这些症状的原因。我们假设星形胶质细胞的代谢功能障碍与 PWH 的抑郁症状和认知功能有关。 我们将人类星形胶质细胞暴露于有不同程度抑郁症状和认知功能的 PWH(40 人)的血清中。利用高通量荧光显微镜和图像分析平台 CellInsight CX5 (CX5),使用 MitoTrackerTM Deep Red FM (MT) 观察线粒体活性和作为星形胶质细胞反应性指标的胶质纤维酸性蛋白 (GFAP)。海马平台用于评估糖酵解和线粒体代谢。 贝克抑郁量表(BDI-II)评分越高,抑郁程度越严重,MT信号测量值越低。通过神经精神测试 t 分数评估的较好认知功能与 MT 信号测量值的增加有关。GFAP 强度与几项认知能力 t 分数呈负相关。年龄与(较高的)MT 信号测量值和 GFAP 强度呈正相关。抑郁症状加重(BDI-II 评分升高)与耗氧量和剩余呼吸量减少有关,同时与星形胶质细胞细胞外酸化率升高有关。 这些研究结果表明,PWH 血清中的因子会改变培养的人类星形胶质细胞的线粒体活性,这表明可以从外围检测到改变线粒体和星形胶质细胞平衡的机制。因此,体外培养可为确定 PWH 抑郁症或神经认知障碍的神经致病机制提供模型,并测试神经和精神疾病的个性化疗法。
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