Role for the kinase SGK1 in stress, depression, and glucocorticoid effects on hippocampal neurogenesis

Anacker, Christoph; Cattaneo, Annamaria; Musaelyan, Ksenia; Zunszain, Patricia A.; Horowitz, Mark; Molteni, Raffaella; Luoni, Alessia; Calabrese, Francesca; Tansey, Katherine E.; Gennarelli, Massimo; Thuret, Sandrine; Price, John; Uher, Rudolf; Riva, Marco A.; Pariante, Carmine M.

doi:10.1073/pnas.1300886110

Cited by 285 publications

(256 citation statements)

References 36 publications

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“…Previous work has demonstrated that even after a prolonged period of severe stress -6 hrs of restraint water submersion -a similar two-fold increase in Sgk1 mRNA levels could be detected (Murata et al, 2005), suggesting that a sufficiently strong stressor can cause rapid and persistent activation of Sgk1 in the hippocampus. Our finding that stress-induced Sgk1 induction is independent of corticosterone and Crhr1 is in contrast with in vitro studies that report increased Sgk1 expression by corticosterone in cultured hippocampal progenitor cells (Anacker et al, 2013), as well as by Crh via Crhr1 signaling (Sheng et al, 2008). In vivo studies, however, have confirmed our observation that Sgk1 was not increased in the hippocampus after chronic nor acute high-dose corticosterone injections in rats and mice (Gray et al, 2013;Neeltje G van Gemert et al, 2006).…”

Section: Discussionsupporting

confidence: 67%

Hippocampal gene expression induced by cold swim stress depends on sex and handling

Bohacek

Manuella

Roszkowski

et al. 2015

Psychoneuroendocrinology

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Summary: Stress-related disorders such as PTSD and depression are more prevalent in women than men. One reason for such discordance may be that brain regions involved in stress responses are more sensitive to stress in females. Here, we compared the effects of acute stress on gene transcription in the hippocampus of female and male mice, and also examined the involvement of two key stress-related hormones, corticosterone and corticotropin releasing hormone (Crh). Using quantitative reverse transcription polymerase chain reaction (RT-qPCR), we measured gene expression of Fos, Per1 and Sgk1 45 min after exposure to brief cold swim stress. Stress induced a stronger increase in Fos and Per1 expression in females than males. The handling control procedure increased Fos in both sexes, but occluded the effects of stress in males. Further, handling increased Per1 only in males. Sgk1 was insensitive to handling, and increased in response to stress similarly in males and females. The transcriptional changes observed after swim stress were not mimicked by corticosterone injections, and the stress-induced increase in Fos, Per1 and Sgk1 could neither be prevented by pharmacologically blocking glucocorticoid receptor (GR) nor by blocking Crh receptor 1 (Crhr1) before stress exposure. Finally, we demonstrate that the effects are stressor-specific, as the expression of target genes could not be increased by brief restraint stress in either sex. In summary, we find strong effects of acute swim stress on hippocampal gene expression, complex interactions between handling and sex, and a remarkably unique response pattern for each gene. Overall, females respond to a cold swim challenge with stronger hippocampal gene transcription than males, independent of two classic mediators of the stress response, corticosterone and Crh. These findings may have important implications for understanding the higher vulnerability of women to certain stress-related neuropsychiatric diseases. In summary, we find strong effects of acute swim stress on hippocampal gene expression, complex interactions between handling and sex, and a remarkably unique response pattern for each gene. Overall, females respond to a cold swim challenge with stronger hippocampal gene transcription than males, independent of two classic mediators of the stress response, corticosterone and Crh. These findings may have important implications for understanding the higher vulnerability of women to certain stress-related neuropsychiatric diseases.

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Section: Discussionsupporting

confidence: 67%

Hippocampal gene expression induced by cold swim stress depends on sex and handling

Bohacek

Manuella

Roszkowski

et al. 2015

Psychoneuroendocrinology

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“…We demonstrate that FKBP51 SUMOylation affects the expression of GILZ and SGK1, which are SUMOylation of FKBP51 regulates GR signaling M Antunica-Noguerol et al upregulated by GCs in the hippocampus. 33,34 In line with these results, our data show that GCs also induce the expression of SGK1 and GILZ in HT22 hippocampal neuronal cells. Moreover, we show that only SUMOylation-competent FKBP51 is involved in their regulation.…”

Section: Discussionsupporting

confidence: 88%

“…37 In particular, SGK1 was demonstrated to mediate the inhibitory effect of GCs on neuronal differentiation in human hippocampal progenitor cells. 33 In this respect, our data show that Dex inhibition of neurite outgrowth is regulated by FKBP51 in a SUMOylation-dependent manner. We show that expression of FKBP51 prevents both GR-mediated downregulation of neurite outgrowth together with the upregulation of SGK1; further and most importantly, that these two effects are dependent on SUMO conjugation to FKBP51.…”

Section: Discussionmentioning

confidence: 65%

The activity of the glucocorticoid receptor is regulated by SUMO conjugation to FKBP51

et al. 2016

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FK506-binding protein 51 (FKBP51) regulates the activity of the glucocorticoid receptor (GR), and is therefore a key mediator of the biological actions of glucocorticoids. However, the understanding of the molecular mechanisms that govern its activity remains limited. Here, we uncover a novel regulatory switch for GR activity by the post-translational modification of FKBP51 with small ubiquitin-like modifier (SUMO). The major SUMO-attachment site, lysine 422, is required for FKBP51-mediated inhibition of GR activity in hippocampal neuronal cells. Importantly, impairment of SUMO conjugation to FKBP51 impacts on GR-dependent neuronal signaling and differentiation. We demonstrate that SUMO conjugation to FKBP51 is enhanced by the E3 ligase PIAS4 and by environmental stresses such as heat shock, which impact on GR-dependent transcription. SUMO conjugation to FKBP51 regulates GR hormone-binding affinity and nuclear translocation by promoting FKBP51 interaction within the GR complex. SUMOylation-deficient FKBP51 fails to interact with Hsp90 and GR thus facilitating the recruitment of the closely related protein, FKBP52, which enhances GR transcriptional activity. Moreover, we show that the modification of FKBP51 with SUMO modulates its binding to Hsp90. Our data establish SUMO conjugation as a novel regulatory mechanism in the Hsp90 cochaperone activity of FKBP51 with a functional impact on GR signaling in a neuronal context.

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“…Our observation that transient pharmacologic inhibition of GJIC is also sufficient to reduce NPSC proliferation (17) was recently confirmed in cultured embryonic stem cell-derived neural progenitors and in embryonic neural progenitors isolated from the cerebral cortex (34). Recent studies in human hippocampal neural progenitor cells indicate that the antiproliferative properties of GCs are dependent upon at least one genomic GR target gene, Sgk-1 (19). Consistent with these findings, Sgk-1 is also required for the antiproliferative effect of GCs in our NPSC cultures, since treatment with an SGK-1 inhibitor (GSK650394) blunts the growth-inhibitory affect of Dex ( Fig.…”

Section: Resultsmentioning

confidence: 59%

“…Here we show that loss of the Dex-mediated antiproliferative response in NPSCs derived from Cav-1 knockout (KO) mice is associated with the alterations in Dex-induced expression of an established negative regulator of the cell cycle in NPSCs, the serum-and GC-induced kinase 1 gene, Sgk-1 (19). We also revealed more global effects of Cav-1 deletion on the GR transcriptome and uncovered a mechanism for Cav-1-mediated cross talk between rapid and genomic GR signaling that impacts site-specific GR phosphorylation and chromatin recruitment of GR.…”

mentioning

confidence: 98%

Caveolin-1 Regulates Genomic Action of the Glucocorticoid Receptor in Neural Stem Cells

Peffer

Chandran

Luthra

et al. 2014

Molecular and Cellular Biology

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While glucocorticoids (GCs) are used clinically to treat many conditions, their neonatal and prenatal usage is increasingly controversial due to reports of delayed adverse outcomes, especially their effects on brain development. Such alterations may reflect the impact of GCs on neural progenitor/stem cell (NPSC) function. We previously demonstrated that the lipid raft protein caveolin-1 (Cav-1) was required for rapid GC signaling in embryonic mouse NPSCs operating through plasma membranebound glucocorticoid receptors (GRs). We show here that genomic GR signaling in NPSCs requires Cav-1. Loss of Cav-1 impacts the transcriptional response of many GR target genes (e.g., the serum-and glucocorticoid-regulated kinase 1 gene) that are likely to mediate the antiproliferative effects of GCs. Microarray analysis of wild-type C57 or Cav-1-deficient NPSCs identified approximately 100 genes that are differentially regulated by GC treatment. These changes in hormone responsiveness in Cav-1 knockout NPSCs are associated with the loss of GC-regulated phosphorylation of GR at serine 211 but not at serine 226. Chromatin recruitment of total GR to regulatory regions of target genes such as Fkbp-5, RhoJ, and Sgk-1, as well as p211-GR recruitment to Sgk-1, are compromised in Cav-1 knockout NPSCs. Cav-1 is therefore a multifunctional regulator of GR in NPSCs influencing both rapid and genomic action of the receptor to impact cell proliferation.

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Role for the kinase SGK1 in stress, depression, and glucocorticoid effects on hippocampal neurogenesis

Cited by 285 publications

References 36 publications

Hippocampal gene expression induced by cold swim stress depends on sex and handling

Hippocampal gene expression induced by cold swim stress depends on sex and handling

The activity of the glucocorticoid receptor is regulated by SUMO conjugation to FKBP51

Caveolin-1 Regulates Genomic Action of the Glucocorticoid Receptor in Neural Stem Cells

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