Your search keyword '"Kronman H"' showing total 3 results

1. Estrogen receptor α drives pro-resilient transcription in mouse models of depression.

Author

Lorsch ZS, Loh YE, Purushothaman I, Walker DM, Parise EM, Salery M, Cahill ME, Hodes GE, Pfau ML, Kronman H, Hamilton PJ, Issler O, Labonté B, Symonds AE, Zucker M, Zhang TY, Meaney MJ, Russo SJ, Shen L, Bagot RC, and Nestler EJ

Subjects

Animals, Estrogen Receptor alpha genetics, Female, Gene Expression Profiling, Male, Mice, Mice, Inbred C57BL, Models, Animal, Sex Factors, Transcriptome genetics, Adaptation, Psychological physiology, Behavior, Animal physiology, Depression physiopathology, Estrogen Receptor alpha metabolism, Nucleus Accumbens metabolism, Stress, Psychological physiopathology

Abstract

Most people exposed to stress do not develop depression. Animal models have shown that stress resilience is an active state that requires broad transcriptional adaptations, but how this homeostatic process is regulated remains poorly understood. In this study, we analyze upstream regulators of genes differentially expressed after chronic social defeat stress. We identify estrogen receptor α (ERα) as the top regulator of pro-resilient transcriptional changes in the nucleus accumbens (NAc), a key brain reward region implicated in depression. In accordance with these findings, nuclear ERα protein levels are altered by stress in male and female mice. Further, overexpression of ERα in the NAc promotes stress resilience in both sexes. Subsequent RNA-sequencing reveals that ERα overexpression in NAc reproduces the transcriptional signature of resilience in male, but not female, mice. These results indicate that NAc ERα is an important regulator of pro-resilient transcriptional changes, but with sex-specific downstream targets.

Published

2018

2. SIRT1 Mediates Depression-Like Behaviors in the Nucleus Accumbens.

Author

Kim HD, Hesterman J, Call T, Magazu S, Keeley E, Armenta K, Kronman H, Neve RL, Nestler EJ, and Ferguson D

Subjects

Animals, Antidepressive Agents pharmacology, Antidepressive Agents therapeutic use, Carbazoles pharmacology, Carbazoles therapeutic use, Depression drug therapy, Depression etiology, Disease Models, Animal, Dopaminergic Neurons drug effects, Dopaminergic Neurons metabolism, Drug Delivery Systems, Exploratory Behavior drug effects, Exploratory Behavior physiology, Food Preferences drug effects, Food Preferences physiology, Gene Expression Regulation drug effects, Male, Maze Learning drug effects, Maze Learning physiology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Nucleus Accumbens cytology, Nucleus Accumbens drug effects, Receptors, Dopamine D1, Receptors, Dopamine D2, Sirtuin 1 antagonists & inhibitors, Sirtuin 1 genetics, Stress, Psychological complications, Stress, Psychological metabolism, Swimming psychology, Depression metabolism, Gene Expression Regulation physiology, Nucleus Accumbens physiology, Sirtuin 1 metabolism

Abstract

Unlabelled: Depression is a recurring and life-threatening illness that affects up to 120 million people worldwide. In the present study, we show that chronic social defeat stress, an ethologically validated model of depression in mice, increases SIRT1 levels in the nucleus accumbens (NAc), a key brain reward region. Increases in SIRT1, a well characterized class III histone deacetylase, after chronic social defeat suggest a role for this enzyme in mediating depression-like behaviors. When resveratrol, a pharmacological activator of SIRT1, was directly infused bilaterally into the NAc, we observed an increase in depression- and anxiety-like behaviors. Conversely, intra-NAc infusions of EX-527, a SIRT1 antagonist, reduced these behaviors; EX-527 also reduced acute stress responses in stress-naive mice. Next, we increased SIRT1 levels directly in NAc by use of viral-mediated gene transfer and observed an increase in depressive- and anxiety-like behaviors when mice were assessed in the open-field, elevated-plus-maze, and forced swim tests. Using a Cre-inducible viral vector system to overexpress SIRT1 selectively in dopamine D1 or D2 subpopulations of medium spiny neurons (MSNs) in the NAc, we found that SIRT1 promotes depressive-like behaviors only when overexpressed in D1 MSNs, with no effect seen in D2 MSNs. Conversely, selective ablation of SIRT1 in the NAc using viral-Cre in floxed Sirt1 mice resulted in decreased depression- and anxiety-like behaviors. Together, these results demonstrate that SIRT1 plays an essential role in the NAc in regulating mood-related behavioral abnormalities and identifies a novel signaling pathway for the development of innovative antidepressants to treat major depressive disorders., Significance Statement: In this study, we demonstrate a pivotal role for SIRT1 in anxiety- and depression-like behaviors in the nucleus accumbens (NAc), a key brain reward region. We show that stress stably induces SIRT1 expression in this brain region and that altering SIRT1 activity using a pharmacological or genetic approach regulates anxiety- and depression-like behaviors. These results suggest that SIRT1 plays an essential role in regulating mood-related behaviors and introduces a novel signaling pathway for the development of innovative antidepressants to treat depression and other stress-related disorders. A recent groundbreaking publication by the CONVERGE Consortium (2015) identified a reproducible association of the SIRT1 locus with major depression in humans. Therefore, our results are timely and have significant translational relevance., (Copyright © 2016 the authors 0270-6474/16/368441-12$15.00/0.)

Published

2016

3. Sex-Specific Role for SLIT1 in Regulating Stress

Author

van der Zee, Y.Y., Lardner, C.K., Parise, E.M., Mews, P., Ramakrishnan, A., Patel, V., Teague, C.D., Salery, M., Walker, D.M., Browne, C.J., Labonte, B., Parise, L.F., Kronman, H., Pena, C.J., Torres-Berrio, A., Duffy, J.E., de Nijs, L., Eijssen, L.M.T., Shen, L., Rutten, B., Issler, O., Nestler, E.J., RS: MHeNs - R3 - Neuroscience, Psychiatrie & Neuropsychologie, and MUMC+: MA Psychiatrie (3)

Subjects

AXON GUIDANCE, EXPRESSION, GENDER-DIFFERENCES, CORTEX, SYNAPTIC PLASTICITY, SLIT, PYRAMIDAL NEURONS, DEPRESSION, DENDRITIC MORPHOLOGY, CYCLIN D1

Abstract

BACKGROUND: Major depressive disorder is a pervasive and debilitating syndrome characterized by mood disturbances, anhedonia, and alterations in cognition. While the prevalence of major depressive disorder is twice as high for women as men, little is known about the molecular mechanisms that drive sex differences in depression susceptibility. METHODS: We discovered that SLIT1, a secreted protein essential for axonal navigation and molecular guidance during development, is downregulated in the adult ventromedial prefrontal cortex (vmPFC) of women with depression compared with healthy control subjects, but not in men with depression. This sex-specific downregulation of Slit1 was also observed in the vmPFC of mice exposed to chronic variable stress. To identify a causal, sex-specific role for SLIT1 in depression-related behavioral abnormalities, we performed knockdown (KD) of Slit1 expression in the vmPFC of male and female mice. RESULTS: When combined with stress exposure, vmPFC Slit1 KD reflected the human condition by inducing a sex specific increase in anxiety-and depression-related behaviors. Furthermore, we found that vmPFC Slit1 KD decreased the dendritic arborization of vmPFC pyramidal neurons and decreased the excitability of the neurons in female mice, effects not observed in males. RNA sequencing analysis of the vmPFC after Slit1 KD in female mice revealed an augmented transcriptional stress signature. CONCLUSIONS: Together, our findings establish a crucial role for SLIT1 in regulating neurophysiological and transcriptional responses to stress within the female vmPFC and provide mechanistic insight into novel signaling pathways and molecular factors influencing sex differences in depression susceptibility.

Published

2022