Fetal microglia that are particularly sensitive cells to the changes in utero environment might be involved in the sex-biased onset and vulnerability to psychiatric disorders. To address this issue, we administered a 50 µg/kg dexamethasone (DEX) to dams subcutaneously from gestational days 16 to 18 and a series of behavioral assessments were performed in the offspring. Prenatal exposure to dexamethasone (PN-DEX) induced schizophrenia (SCZ)-relevant behaviors in male mice and depressive-like behavior in female mice. SCZ-relevant behavioral patterns occurred in 10-week-old (10 W) male mice but not in 4-week-old (4 W) male mice. Microglia in the medial prefrontal cortex (mPFC) and the striatum (STR) of 10 W males prenatally treated with dexamethasone (10 W PN-DEX-M) showed hyper-ramified morphology and dramatically reduced spine density in mPFC. Immunofluorescence studies indicated that microglia in the mPFC of the 10 W PN-DEX-M group interacted with pre-synaptic Bassoon and post-synaptic density 95 (PSD95) puncta. PN-DEX-M also showed significantly changed dopamine system proteins. However, a testosterone surge during adolescence was not a trigger on SCZ-relevant behavior occurrence in 10 W PN-DEX-M. Furthermore, females prenatally treated with dexamethasone (PN-DEX-F) displayed depressive-like behavior, in addition to HPA-axis activation and inflammatory microglial phenotypes in their hippocampus (HPC). We propose that altered microglial function, such as increased synaptic pruning, may be involved in the occurrence of SCZ-relevant behavior in PN-DEX-M and sex-biased abnormal behavior in the PN-DEX model.
Few studies report the microglia involvement in the pathogenesis of panic disorder (PD), although the crucial role of microglia in other neuropsychiatric diseases is being emphasized. In addition, there is no report to characterize the phenotypic and functional levels of PD patient-derived microglia to find their clinical relevance. Herein, we used a model to induce patient-derived microglia-like cells (iMGs) to clarify the molecular characteristics and function of PD-iMGs. We established iMGs from 17 PD patients and 16 healthy controls (non-psychiatric controls, HC). PD-iMGs showed increased T-cell death-associated gene-8 expression per the proposal of a previous in vivo study. In addition, we found that patient-derived iMGs showed reduced phagocytosis and increased TREM2 expression. We analyzed the phenotype of the PD-iMGs by RNA sequencing. The PD-iMGs clustered together distinct from HC-iMGs. Gene set enrichment analysis revealed the involvement of cholesterol biosynthesis and steroid metabolism in PD-iMGs. Regarding the cholesterol synthesis pathway, we discovered ACAT2 and DHCR7 as the most impacted genes related to a character of PD-iMGs compared to HC-iMGs. The ACAT2, a major cholesterol esterifier, was increased in PD-iMGs. Nevertheless, PD-iMGs did not show lipid droplet accumulation. Interestingly, ACAT2 expression was inversely correlated with the severity of depression and anxiety sensitivity to publicly observable anxiety reactions. We propose that microglia of PD patients have unique characteristics with dysregulation of cholesterol biosynthesis pathway and impaired phagocytosis, reflecting clinical phenotype.
Although uoxetine (FLX) is a commonly used drug in psychiatric disorders, such as major depressive disorder (MDD), anxiety disorder, panic disorder, and obsessive-compulsive disorder (OCD), the mechanism by which FLX exerts its therapeutic effect is not completely understood. In this study, we aimed to determine the possible mechanism by which FLX focuses on microglial phagocytosis. FLX reduced phagocytic function in BV2 cells and increased REV-ERBα among circadian genes without affecting other microglia-related genes, such as in ammation and phagocytosis. Although FLX did not change BMAL1 protein levels, it restricted the nucleocytoplasmic transport (NCT) of BMAL1, leading to its cytosolic accumulation. REV-ERBα antagonist SR8278 rescued the decreased phagocytic and restricted NCT of BMAL1. We also found that REV-ERBα mediates the effect of FLX via the inhibition of phospho-ERK (pERK). The ERK inhibitor FR180204 was su cient to reduce phagocytic function in BV2 cells and restrict the NCT of BMAL1. These results were recapitulated in the primary microglia. In conclusion, we propose that FLX decreases phagocytic function and restricts BMAL1 NCT via REV-ERB. In addition, ERK inhibition mimics the effects of FLX on microglia.
Although fluoxetine (FLX) is a commonly used drug in psychiatric disorders, such as major depressive disorder (MDD), anxiety disorder, panic disorder, and obsessive-compulsive disorder (OCD), the mechanism by which FLX exerts its therapeutic effect is not completely understood. In this study, we aimed to determine the possible mechanism by which FLX focuses on microglial phagocytosis. FLX reduced phagocytic function in BV2 cells and increased REV-ERBα among circadian genes without affecting other microglia-related genes, such as inflammation and phagocytosis. Although FLX did not change BMAL1 protein levels, it restricted the nucleocytoplasmic transport (NCT) of BMAL1, leading to its cytosolic accumulation. REV-ERBα antagonist SR8278 rescued the decreased phagocytic and restricted NCT of BMAL1. We also found that REV-ERBα mediates the effect of FLX via the inhibition of phospho-ERK (pERK). The ERK inhibitor FR180204 was sufficient to reduce phagocytic function in BV2 cells and restrict the NCT of BMAL1. These results were recapitulated in the primary microglia. In conclusion, we propose that FLX decreases phagocytic function and restricts BMAL1 NCT via REV-ERB. In addition, ERK inhibition mimics the effects of FLX on microglia.
Background: Fetal microglia are particularly sensitive cells to the changes in utero environment and show sex-biased differences in shape and function. Maternal stress hormone induction can affect fetal microglial functions including alterations in synaptic pruning and cytokine secretion. It may contribute to psychiatric outcomes in offspring such as schizophrenia and depression. Methods: We administered a 50 µg/kg dexamethasone (DEX) to dams subcutaneously from gestational days 16 to 18. To characterize behaviors of maternal DEX exposed offspring, we assessed depressive-like and schizophrenia-relevant behaviors among 5 week old (adolescence), 10 week old (adult), and orchiectomized group respectively. Using quantitative real-time polymerase chain reaction, western blotting, and rapid Golgi staining, microglial morphology and synaptic pruning were assessed. Results: Prenatal exposure to dexamethasone (PN-DEX) induced SCZ-relevant behavior in male mice and depressive-like behavior in female mice. SCZ-relevant behavioral patterns were induced in 10 week old (10 W) male mice but not in 5 week old (5 W) male mice. Microglia in the medial prefrontal cortex (mPFC) and the striatum (STR) of 10 W males prenatally treated with dexamethasone (10 W PN-DEX-M) showed hyper-ramified morphology and dramatically reduced spine density in mPFC. Immunofluorescence studies indicated that microglia in the mPFC of the 10 W PN-DEX-M group interacted with pre-synaptic Bassoon and post-synaptic density 95 (PSD95) puncta. PN-DEX-M also showed significantly changed dopamine system proteins. A testosterone surge was not observed in parallel to SCZ-relevant behavior in 10 W PN-DEX-M. Furthermore, females prenatally treated with dexamethasone (PN-DEX-F) displayed depressive-like behavior, in addition to HPA axis activation and inflammatory microglial phenotypes in their hippocampus (HPC).Conclusions: Our study demonstrated that maternal DEX exposure induces sex-biased abnormal behavior as well as SCZ-relevant behavior in male offspring, and depressive-like behaviors in female offspring. We propose that altered microglial function, such as increased synaptic pruning, may be involved in the occurrence of SCZ-relevant behavior in PN-DEX-M and sex-biased abnormal behavior in the PN-DEX model.
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