Your search keyword '"REV-ERBα"' showing total 334 results

1. Nasal solitary chemosensory cells govern daily rhythm in mouse model of allergic rhinitis.

Author

Xu, Haiman, Guo, Lianxia, Hao, Tingying, Guo, Xiaocao, Huang, Meiping, Cen, Haobin, Chen, Min, Weng, Jiaxian, Huang, Meixia, Wu, Zicong, Qin, Zifei, Yang, Jing, and Wu, Baojian

Abstract

While the daily rhythm of allergic rhinitis (AR) has long been recognized, the molecular mechanism underlying this phenomenon remains enigmatic. We aimed to investigate the role of circadian clock in AR development and to clarify the mechanism by which the daily rhythm of AR is generated. AR was induced in mice with ovalbumin. Toluidine blue staining, liquid chromatography–tandem mass spectrometry analysis, real-time quantitative PCR, and immunoblotting were performed with AR and control mice. Ovalbumin-induced AR is diurnally rhythmic and associated with clock gene disruption in nasal mucosa. In particular, Rev-erbα is generally downregulated and its rhythm retained, but with a near-12-hour phase shift. Furthermore, global knockout of core clock gene Bmal1 or Rev-erbα increases the susceptibility of mice to AR and blunts AR rhythmicity. Importantly, nasal solitary chemosensory cells (SCCs) are rhythmically activated, and inhibition of the SCC pathway leads to attenuated AR and a loss of its rhythm. Moreover, rhythmic activation of SCCs is accounted for by diurnal expression of ChAT (an enzyme responsible for the synthesis of acetylcholine) and temporal generation of the neurotransmitter acetylcholine. Mechanistically, Rev-erbα trans-represses Ch at through direct binding to a specific response element, generating a diurnal oscillation in this target gene. SCCs, under the control of Rev-erbα , are a driver of AR rhythmicity; targeting SCCs should be considered as a new avenue for AR management. [ABSTRACT FROM AUTHOR]

Published

2024

2. REV-ERBα Mitigates Astrocyte Activation and Protects Dopaminergic Neurons from Damage.

Author

Wang, Xiaoyu, Zhi, Hui, Zhang, Zongqin, Li, Jingwei, and Guo, Dongkai

Abstract

Parkinson’s disease (PD) is characterized by astrocyte activation and disruptions in circadian rhythm. Within the astrocyte population, two distinct reactive states exist: A1 and A2. A1 astrocytes are associated with neurotoxicity and inflammation, while A2 astrocytes exhibit neuroprotective functions. Our investigation focused on the role of REV-ERBα, a member of the nuclear receptor superfamily and a key regulator of the circadian clock, in astrocyte activation. We observed that REV-ERBα expression in A1 astrocytes was reduced to one-third of its normal level. Notably, activation of REV-ERBα prompted a transformation of astrocytes from A1 to A2. Mechanistically, REV-ERBα inhibition was linked to the classical NF-κB pathway, while it concurrently suppressed the STAT3 pathway. Furthermore, astrocytes with low REV-ERBα expression were associated with dopaminergic neurons apoptosis. Intriguingly, the opposite effect was observed when using a REV-ERBα agonist, which mitigated astrocyte activation and reduced dopaminergic neuron damage by 50%. In summary, our study elucidates the pivotal role of REV-ERBα in modulating astrocyte function and its potential implications in PD pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Circadian clock genes REV-ERBα regulates the secretion of IL-1β in deciduous tooth pulp stem cells by regulating autophagy in the process of physiological root resorption of deciduous teeth.

Author

Di, Tiankai, Guo, Mingzhu, Xu, Jinlong, Feng, Chao, Du, Yang, Wang, Lulu, and Chen, Yujiang

Abstract

Physiological root resorption is a common occurrence during the development of deciduous teeth in children. Previous research has shown that the regulation of the inflammatory microenvironment through autophagy in DDPSCs is a significant factor in this process. However, it remains unclear why there are variations in the autophagic status of DDPSCs at different stages of physiological root resorption. To address this gap in knowledge, this study examines the relationship between the circadian clock of DDPSCs, the autophagic status, and the periodicity of masticatory behavior. Samples were collected from deciduous teeth at various stages of physiological root resorption, and DDPSCs were isolated and cultured for analysis. The results indicate that the circadian rhythm of important autophagy genes, such as Beclin-1 and LC3, and the clock gene REV-ERBα in DDPSCs, disappears under mechanical stress. Additionally, the study found that REV-ERBα can regulate Beclin-1 and LC3. Evidence suggests that mechanical stress is a trigger for the regulation of autophagy via REV-ERBα. Overall, this study highlights the importance of mechanical stress in regulating autophagy of DDPSCs via REV-ERBα, which affects the formation of the inflammatory microenvironment and plays a critical role in physiological root resorption in deciduous teeth. [Display omitted] • Deciduous teeth show autophagy control (Beclin-1, LC3) in DDPSCs for inflammation. • Mechanical stress disrupts DDPSCs' circadian rhythm, affecting autophagy. • Mechanical stress links masticatory behavior to resorption of deciduous teeth. [ABSTRACT FROM AUTHOR]

Published

2024

4. Targeting NR1D1 in organ injury: challenges and prospects

Author

Zi-Yin Zhang-sun, Xue-Zeng Xu, Germaine Escames, Wang-Rui Lei, Lin Zhao, Ya-Zhe Zhou, Ye Tian, Ya-Nan Ren, Darío Acuña-Castroviejo, and Yang Yang

Subjects

NR1D1, REV-ERBα, Circadian rhythms, Liver, Heart, Lung, Medicine (General), R5-920, Military Science

Abstract

Abstract Nuclear receptor subfamily 1, group D, member 1 (NR1D1, also known as REV-ERBα) belongs to the nuclear receptor (NR) family, and is a heme-binding component of the circadian clock that consolidates circadian oscillators. In addition to repressing the transcription of multiple clock genes associated with circadian rhythms, NR1D1 has a wide range of downstream target genes that are intimately involved in many physiopathological processes, including autophagy, immunity, inflammation, metabolism and aging in multiple organs. This review focuses on the pivotal role of NR1D1 as a key transcription factor in the gene regulatory network, with particular emphasis on the milestones of the latest discoveries of NR1D1 ligands. NR1D1 is considered as a promising drug target for treating diverse diseases and may contribute to research on innovative biomarkers and therapeutic targets for organ injury-related diseases. Further research on NR1D1 ligands in prospective human trials may pave the way for their clinical application in many organ injury-related disorders.

Published

2023

5. PTZ-kindled rat model; evaluation of seizure, hippocampal EGR-1, and Rev-erbα gene regulation, behavioral analysis, and antioxidant capacity of Gum Arabic.

Author

Yakmaz, Funda, Bozkurt, Ahmet Sarper, and Görücü Yilmaz, Şenay

Abstract

Background: Epilepsy is a neurological disease characterized by recurrent seizures, hyperexcitable neurons and various behavioral comorbidities. The electrical charge during seizures depletes the antioxidant defense mechanism in the epileptic brain and increases the oxidative burden. Natural antioxidant compounds are potential therapeutics in the treatment of two major pathologies of epilepsy with their anticonvulsant and anxiolytic effects and can modulate these targets. Gum Arabic is one of the natural plant polysaccharides that is non-toxic and biodegradable. Methods and results: A total of 30 Wistar albino male rats (8–12 weeks, 350–500 g), were randomly divided into 5 groups with 6 animals in each group: 1-Control, 2-Sham (Phosphate buffer saline (PBS)), 3-PTZ, 4-Gum Arabic, 5-PTZ + Gum Arabic. PTZ was administered i.p at 35 mg/kg/day for 11 days. After 48 h, the injection was completed with 75 mg/kg PTZ. Locomotor activity, immobilization, rearing, grooming, eating, and drinking behaviors were recorded with the LABORAS behavior system for 30 min after kindling. Animals were treated with Gum Arabic (2 mg/kg/day, oral gavage) for 10 days. At the end of the period, animal behavior was recorded again. Then the hippocampus tissues were removed. Oxidative parameters (TAS and TOS), early growth response 1 (EGR1) and nuclear receptor subfamily 1 group D member 1 (Rev-erbα) gene expressions and behaviors were analyzed. Conclusion: Gum Arabic increased TAS levels (P = 0.000), decreased TOS levels (P = 0.000), and thus exhibited antioxidant properties by reducing oxidative stress burden. EGR1, which was upregulated in the seizure group, was downregulated after treatment (P = 0.000), and Rev-erbα was downregulated in seizure and upregulated after treatment (P = 0.000). Gum arabic may be an antiepileptic and anxiolytic therapeutic in improving epileptic seizures by reducing oxidative stress burden through EGR1 and Rev-erbα.0 [ABSTRACT FROM AUTHOR]

Published

2024

6. The Molecular Circadian Clock Is a Target of Anti-cancer Translation Inhibitors.

Author

Berthier, Alexandre, Gheeraert, Céline, Johanns, Manuel, Vinod, Manjula, Staels, Bart, Eeckhoute, Jérôme, and Lefebvre, Philippe

Subjects

*CIRCADIAN rhythms, *MOLECULAR clock, *PROTEIN synthesis, *TRANSCRIPTION factors, *VIRUS diseases, *RIBOSOMAL DNA, *PUROMYCIN

Abstract

Circadian-paced biological processes are key to physiology and required for metabolic, immunologic, and cardiovascular homeostasis. Core circadian clock components are transcription factors whose half-life is precisely regulated, thereby controlling the intrinsic cellular circadian clock. Genetic disruption of molecular clock components generally leads to marked pathological events phenotypically affecting behavior and multiple aspects of physiology. Using a transcriptional signature similarity approach, we identified anti-cancer protein synthesis inhibitors as potent modulators of the cardiomyocyte molecular clock. Eukaryotic protein translation inhibitors, ranging from translation initiation (rocaglates, 4-EGI1, etc.) to ribosomal elongation inhibitors (homoharringtonine, puromycin, etc.), were found to potently ablate protein abundance of REV-ERBα, a repressive nuclear receptor and component of the molecular clock. These inhibitory effects were observed both in vitro and in vivo and could be extended to PER2, another component of the molecular clock. Taken together, our observations suggest that the activity spectrum of protein synthesis inhibitors, whose clinical use is contemplated not only in cancers but also in viral infections, must be extended to circadian rhythm disruption, with potential beneficial or iatrogenic effects upon acute or prolonged administration. [ABSTRACT FROM AUTHOR]

Published

2024

7. Targeting NR1D1 in organ injury: challenges and prospects.

Author

Zhang-sun, Zi-Yin, Xu, Xue-Zeng, Escames, Germaine, Lei, Wang-Rui, Zhao, Lin, Zhou, Ya-Zhe, Tian, Ye, Ren, Ya-Nan, Acuña-Castroviejo, Darío, and Yang, Yang

Subjects

GENE regulatory networks, MOLECULAR clock, CLOCK genes, CIRCADIAN rhythms, DRUG target

Abstract

Nuclear receptor subfamily 1, group D, member 1 (NR1D1, also known as REV-ERBα) belongs to the nuclear receptor (NR) family, and is a heme-binding component of the circadian clock that consolidates circadian oscillators. In addition to repressing the transcription of multiple clock genes associated with circadian rhythms, NR1D1 has a wide range of downstream target genes that are intimately involved in many physiopathological processes, including autophagy, immunity, inflammation, metabolism and aging in multiple organs. This review focuses on the pivotal role of NR1D1 as a key transcription factor in the gene regulatory network, with particular emphasis on the milestones of the latest discoveries of NR1D1 ligands. NR1D1 is considered as a promising drug target for treating diverse diseases and may contribute to research on innovative biomarkers and therapeutic targets for organ injury-related diseases. Further research on NR1D1 ligands in prospective human trials may pave the way for their clinical application in many organ injury-related disorders. [ABSTRACT FROM AUTHOR]

Published

2023

8. The cross-talk between leptin and circadian rhythm signaling proteins in physiological processes: a systematic review.

Author

Ansarin, Atefeh, Mahdavi, Aida Malek, Javadivala, Zeinab, Shanehbandi, Dariush, Zarredar, Habib, and Ansarin, Khalil

Abstract

Background: Today, modern lifestyles and disrupted sleep patterns cause circadian clock rhythm impairments that are associated with altered leptin levels, which subsequently affect a wide range of physiological processes and have significant health burdens on societies. Nevertheless, there has been no systematic review of circadian clock genes and proteins, leptin, and related signaling pathways. Methods: Accordingly, we systematically reviewed circadian clock proteins, leptin, and molecular mechanisms between them by searching Pubmed, Scopus, ProQuest, Web of Sciences, and Google Scholar until September 2022. After considering the inclusion and exclusion criteria, 20 animal studies were selected. The risk of bias was assessed in each study. Results: The results clarified the reciprocal interconnected relationship between circadian clock genes and leptin. Circadian clock genes regulate leptin expression and signaling via different mechanisms, such as CLOCK-BMAL1 heterodimers, which increase the expression of PPARs. PPARs induce the expression of C/EBPα, a key factor in upregulating leptin expression. CLOCK-BMAL1 also induces the expression of Per1 and Rev-erb genes. PER1 activates mTORC1 and mTORC1 enhances the expression of C/EBPα. In addition, REV-ERBs activate the leptin signaling pathway. Also, leptin controls the expression of circadian clock genes by triggering the AMPK and ERK/MAPK signaling pathways, which regulate the activity of PPARs. Moreover, the roles of these molecular mechanisms are elucidated in different physiological processes and organs. Conclusions: Crosstalk between circadian clock genes and leptin and their affecting elements should be considered in the selection of new therapeutic targets for related disorders, especially obesity and metabolic impairments. [ABSTRACT FROM AUTHOR]

Published

2023

9. REV-ERBα negatively regulates NLRP6 transcription and reduces the severity of Salmonella infection in mice

Author

Lanqing Sun, Kai Huang, Qifeng Deng, Yuan Zhu, Yu Cao, Kedi Dong, Sidi Yang, Yuanyuan Li, Shuyan Wu, and Rui Huang

Subjects

Salmonella Typhimurium, Circadian clock, NLRP6, REV-ERBα, Intestinal epithelial cell, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Non-typhoidal Salmonella infection is among the most frequent foodborne diseases threatening human health worldwide. The host circadian clock orchestrates daily rhythms to adapt to environmental changes, including coordinating immune function in response to potential infections. However, the molecular mechanisms underlying the interplay between the circadian clock and the immune system in modulating infection processes are incompletely understood. Here, we demonstrate that NLRP6, a novel nucleotide-oligomerization domain (NOD)-like receptor (NLR) family member highly expressed in the intestine, is closely associated with the differential day–night response to Salmonella infection. The core clock component REV-ERBα negatively regulates NLRP6 transcription, leading to the rhythmic expression of NLRP6 and the secretion of IL-18 in intestinal epithelial cells, playing a crucial role in mediating the differential day–night response to Salmonella infection. Activating REV-ERBα with agonist SR9009 in wild-type mice attenuated the severity of infection by decreasing the NLRP6 level in intestinal epithelial cells. Our findings provide new insights into the association between the host circadian clock and the immune response to enteric infections by revealing the regulation of Salmonella infection via the inhibitory effect of REV-ERBα on NLRP6 transcription. Targeting REV-ERBα to modulate NLRP6 activation may be a potential therapeutic strategy for bacterial infections.

Published

2024

10. Targeting Rev-Erbα to protect against ischemia-reperfusion-induced acute lung injury in rats

Author

Shi-Jye Chu, Wen-I Liao, Hsin-Ping Pao, Shu-Yu Wu, and Shih-En Tang

Subjects

Acute lung injury, Ischemia-reperfusion, Circadian clocks, Rev-Erbα, SR9009, SR8278, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background The dysregulation of local circadian clock has been implicated in the pathogenesis of a broad spectrum of diseases. However, the pathophysiological role of intrinsic circadian clocks Rev-Erbα in ischemia-reperfusion (IR)-induced acute lung injury (ALI) remains unclear. Methods The IR-ALI model was established by subjecting isolated perfused rat lungs to 40 min of ischemia followed by 60 min of reperfusion. Rats were randomly assigned to one of six groups: control, control + SR9009 (Rev-Erbα agonist, 50 mg/kg), IR, and IR + SR9009 at one of three dosages (12.5, 25, 50 mg/kg). Bronchoalveolar lavage fluids (BALF) and lung tissues were obtained and analyzed. In vitro experiments utilized mouse lung epithelial cells (MLE-12) exposed to hypoxia-reoxygenation (HR) and pretreated with SR9009 (10 µM/L) and Rev-Erbα siRNA. Results SR9009 exhibited a dose-dependent reduction in lung edema in IR-ALI. It significantly inhibited the production of TNF-α, IL-6, and CINC-1 in BALF. Moreover, SR9009 treatment restored suppressed IκB-α levels and reduced nuclear NF-κB p65 levels in lung tissues. In addition, a SR9009 mitigated IR-induced apoptosis and mitogen-activated protein kinase (MAPK) activation in injured lung tissue. Finally, treatment with Rev-Erbα antagonist SR8278 abolished the protective action of SR9009. In vitro analyses showed that SR9009 attenuated NF-κB activation and KC/CXCL-1 levels in MLE-12 cells exposed to HR, and these effects were significantly abrogated by Rev-Erbα siRNA. Conclusions The findings suggest that SR9009 exerts protective effects against IR-ALI in a Rev-Erbα-dependent manner. SR9009 may provide a novel adjuvant therapeutic approach for IR-ALI.

Published

2023

11. Inhibiting Rev-erbα-mediated ferroptosis alleviates susceptibility to myocardial ischemia-reperfusion injury in type 2 diabetes.

Author

Huang, Qin, Tian, Hao, Tian, Liqun, Zhao, Xiaoshuai, Li, Lu, Zhang, Yuxi, Qiu, Zhen, Lei, Shaoqing, and Xia, Zhongyuan

Subjects

*MYOCARDIAL injury, *TYPE 2 diabetes, *REPERFUSION injury, *HEART metabolism disorders, *MYOCARDIAL ischemia, *GLYCOLIPIDS

Abstract

The complex progression of type-2 diabetes (T2DM) may result in increased susceptibility to myocardial ischemia-reperfusion (IR) injury. IR injuries in multiple organs involves ferroptosis. Recently, the clock gene Rev-erbα has aroused considerable interest as a novel therapeutic target for metabolic and ischemic heart diseases. Herein, we investigated the roles of Rev-erbα and ferroptosis in myocardial IR injury during T2DM and its potential mechanisms. A T2DM model, myocardial IR and a tissue-specific Rev-erbα−/− mouse in vivo were established, and a high-fat high glucose environment with hypoxia-reoxygenation (HFHG/HR) in H9c2 were also performed. After myocardial IR, glycolipid profiles, creatine kinase-MB, AI, and the expression of Rev-erbα and ferroptosis-related proteins were increased in diabetic rats with impaired cardiac function compared to non-diabetic rats, regardless of the time at which IR was induced. The ferroptosis inhibitor ferrostatin-1 decreased AI in diabetic rats given IR and LPO levels in cells treated with HFHG/HR, as well as the expression of Rev-erbα and ACSL4. The ferroptosis inducer erastin increased AI and LPO levels and ACSL4 expression. Treatment with the circadian regulator nobiletin and genetically targeting Rev-erbα via siRNA or CRISPR/Cas9 technology both protected against severe myocardial injury and decreased Rev-erbα and ACSL4 expression, compared to the respective controls. Taken together, these data suggest that ferroptosis is involved in the susceptibility to myocardial IR injury during T2DM, and that targeting Rev-erbα could alleviate myocardial IR injury by inhibiting ferroptosis. [Display omitted] • The T2DM in rats have a higher susceptibility to myocardial IR, relating to the clock gene Rev-erbα and ferroptosis. • ACSL4 participates in diabetic myocardial IR injury, also characterized by rhythmic expression across the circadian cycle. • Pharmacological or genetic targeting of Rev-erbα attenuated myocardial IR injury during T2DM by inhibiting ferroptosis. [ABSTRACT FROM AUTHOR]

Published

2023

12. Microglia depletion ameliorates neuroinflammation, anxiety-like behavior, and cognitive deficits in a sex-specific manner in Rev-erbα knockout mice.

Author

Chen, Ruizhuo, Routh, Brandy N., Straetker, Jillian E., Gibson, Cecily R., Weitzner, Aidan S., Bell, Kiersten S., Gaudet, Andrew D., and Fonken, Laura K.

Subjects

*KNOCKOUT mice, *NEUROINFLAMMATION, *MICROGLIA, *ANXIETY, *FREE earth oscillations, *HYPERACTIVITY

Abstract

• RKO potentiates neuroinflammation that is exacerbated in females. • Depleting microglia fully rescues RKO-induced neuroinflammation in males. • Depleting microglia partially rescues RKO-induced neuroinflammation in females. • RKO induces hyperlocomotion, mania-like behaviors, and memory impairments. • Microglia depletion improves RKO-induced mood dysregulation. The circadian system is an evolutionarily adaptive system that synchronizes biological and physiological activities within the body to the 24 h oscillations on Earth. At the molecular level, circadian clock proteins are transcriptional factors that regulate the rhythmic expression of genes involved in numerous physiological processes such as sleep, cognition, mood, and immune function. Environmental and genetic disruption of the circadian clock can lead to pathology. For example, global deletion of the circadian clock gene Rev-erbα (RKO) leads to hyperlocomotion, increased anxiety-like behaviors, and cognitive impairments in male mice; however, the mechanisms underlying behavioral changes remain unclear. Here we hypothesized that RKO alters microglia function leading to neuroinflammation and altered mood and cognition, and that microglia depletion can resolve neuroinflammation and restore behavior. We show that microglia depletion (CSF1R inhibitor, PLX5622) in 8-month-old RKO mice ameliorated hyperactivity, memory impairments, and anxiety/risky-like behaviors. RKO mice exhibited striking increases in expression of pro-inflammatory cytokines (e.g., IL-1β and IL-6). Surprisingly, these increases were only fully reversed by microglia depletion in the male but not female RKO hippocampus. In contrast, male RKO mice showed greater alterations in microglial morphology and phagocytic activity than females. In both sexes, microglia depletion reduced microglial branching and decreased CD68 production without altering astrogliosis. Taken together, we show that male and female RKO mice exhibit unique perturbations to the neuroimmune system, but microglia depletion is effective at rescuing aspects of behavioral changes in both sexes. These results demonstrate that microglia are involved in Rev-erbα-mediated changes in behavior and neuroinflammation. [ABSTRACT FROM AUTHOR]

Published

2023

13. Targeting Rev-Erbα to protect against ischemia-reperfusion-induced acute lung injury in rats.

Author

Chu, Shi-Jye, Liao, Wen-I, Pao, Hsin-Ping, Wu, Shu-Yu, and Tang, Shih-En

Subjects

*LUNG injuries, *MITOGEN-activated protein kinases, *REPERFUSION injury, *CHRONOBIOLOGY disorders, *EPITHELIAL cells, *RATS

Abstract

Background: The dysregulation of local circadian clock has been implicated in the pathogenesis of a broad spectrum of diseases. However, the pathophysiological role of intrinsic circadian clocks Rev-Erbα in ischemia-reperfusion (IR)-induced acute lung injury (ALI) remains unclear. Methods: The IR-ALI model was established by subjecting isolated perfused rat lungs to 40 min of ischemia followed by 60 min of reperfusion. Rats were randomly assigned to one of six groups: control, control + SR9009 (Rev-Erbα agonist, 50 mg/kg), IR, and IR + SR9009 at one of three dosages (12.5, 25, 50 mg/kg). Bronchoalveolar lavage fluids (BALF) and lung tissues were obtained and analyzed. In vitro experiments utilized mouse lung epithelial cells (MLE-12) exposed to hypoxia-reoxygenation (HR) and pretreated with SR9009 (10 µM/L) and Rev-Erbα siRNA. Results: SR9009 exhibited a dose-dependent reduction in lung edema in IR-ALI. It significantly inhibited the production of TNF-α, IL-6, and CINC-1 in BALF. Moreover, SR9009 treatment restored suppressed IκB-α levels and reduced nuclear NF-κB p65 levels in lung tissues. In addition, a SR9009 mitigated IR-induced apoptosis and mitogen-activated protein kinase (MAPK) activation in injured lung tissue. Finally, treatment with Rev-Erbα antagonist SR8278 abolished the protective action of SR9009. In vitro analyses showed that SR9009 attenuated NF-κB activation and KC/CXCL-1 levels in MLE-12 cells exposed to HR, and these effects were significantly abrogated by Rev-Erbα siRNA. Conclusions: The findings suggest that SR9009 exerts protective effects against IR-ALI in a Rev-Erbα-dependent manner. SR9009 may provide a novel adjuvant therapeutic approach for IR-ALI. [ABSTRACT FROM AUTHOR]

Published

2023

14. Time-dependent effect of REV-ERBα agonist SR9009 on nonalcoholic steatohepatitis and gut microbiota in mice.

Author

Ni, Yinhua, Nan, Sujie, Zheng, Liujie, Zhang, Liqian, Zhao, Yufeng, and Fu, Zhengwei

Subjects

*NON-alcoholic fatty liver disease, *GUT microbiome, *HIGH cholesterol diet, *FATTY liver, *HEPATITIS, *CIRCADIAN rhythms, *INSULIN

Abstract

The circadian clock is involved in the pathogenesis of nonalcoholic steatohepatitis (NASH), and the target pathways of many NASH candidate drugs are controlled by the circadian clock. However, the application of chronopharmacology in NASH is little considered currently. Here, the time-dependent effect of REV-ERBα agonist SR9009 on diet-induced NASH and microbiota was investigated. C57BL/6J mice were fed a high-cholesterol and high-fat diet (CL) for 12 weeks to induce NASH and then treated with SR9009 either at Zeitgeber time 0 (ZT0) or ZT12 for another 6 weeks. Pharmacological activation of REV-ERBα by SR9009 alleviated hepatic steatosis, insulin resistance, liver inflammation, and fibrosis in CL diet-induced NASH mice. These effects were accompanied by improved gut barrier function and altered microbial composition and function in NASH mice, and the effect tended to be stronger when SR9009 was injected at ZT0. Moreover, SR9009 treatment at different time points resulted in a marked difference in the composition of the microbiota, with a stronger effect on the enrichment of beneficial bacteria and the diminishment of harmful bacteria when SR9009 was administrated at ZT0. Therefore, the time-dependent effect of REV-ERBα agonist on NASH was partly associated with the microbiota, highlighting the potential role of microbiota in the chronopharmacology of NASH and the possibility of discovering new therapeutic strategies for NASH. [ABSTRACT FROM AUTHOR]

Published

2023

15. Circadian Rhythm Regulator REV-ERBα Attenuates Neuroapoptosis in Early Brain Injury After Experimental Subarachnoid Hemorrhage in Rats.

Author

Lu, Zhengyang, Shen, Haitao, Li, Xiang, Li, Haiying, You, Wanchun, Wang, Zhong, and Chen, Gang

Subjects

*SUBARACHNOID hemorrhage, *BRAIN injuries, *CIRCADIAN rhythms, *HYDROCEPHALUS, *GENE expression, *RATS

Abstract

Subarachnoid hemorrhage (SAH) is associated with circadian rhythm abnormalities, in which REV-ERBα plays a major regulatory role. Our ambition was to investigate the capacity of REV-ERBα to inhibit neuronal neuroapoptosis induced by early brain injury (EBI) after SAH. The endovascular perforation model was used to produce experimental SAH in Sprague–Dawley rats. Specific small-interfering RNA was used to downregulate the expression REV-ERBα while SR9009 was used to upregulate the expression before assessments. Short- and long-term neurobehavior assessments, immunofluorescence staining, TUNEL staining, Nissl staining, brain water content, and Western blot were performed. The expression level of endogenous REVERBα tended to increase and then decrease after SAH and peaked at 48 h. REV-ERBα upregulation diminished neuronal apoptosis and enhanced neurological function deficits. Meanwhile, REV-ERBα downregulation aggravated the damage. Furthermore, the levels of downstream proteins of REV-ERBα (i.e., brain and muscle ARNT-like 1 (BMAL1) and circadian locomotor output cycles kaput (CLOCK)) changed accordingly with REV-ERBα regulation. REV-ERBα may attenuate neuronal apoptosis in EBI after SAH through the BMAL1/CLOCK pathway. [ABSTRACT FROM AUTHOR]

Published

2023

16. Circadian gene Rev-erbα influenced by sleep conduces to pregnancy by promoting endometrial decidualization via IL-6-PR-C/EBPβ axis

Author

Liyuan Cui, Feng Xu, Chunfang Xu, Yan Ding, Songcun Wang, and Meirong Du

Subjects

Sleep disturbance, Rev-erbα, Decidualization, Pregnancy, Medicine

Abstract

Abstract Background Sleep disturbance can cause adverse pregnancy outcomes by changing circadian gene expression. The potential mechanisms remain unclear. Decidualization is critical for the establishment and maintenance of normal pregnancy, which can be regulated by circadian genes. Whether Rev-erbα, a critical circadian gene, affects early pregnancy outcome by regulating decidualization needs to be explored. Methods QPCR, western blot and artificial decidualization mouse model were used to confirm the effect of sleep disturbance on Rev-erbα expression and decidualization. The regulatory mechanism of Rev-erbα on decidualization was assessed using QPCR, western blot, RNA-Seq, and Chip-PCR. Finally, sleep disturbance mouse model was used to investigate the effect of therapeutic methods targeting Rev-erbα and interleukin 6 (IL-6) on improving adverse pregnancy outcomes induced by sleep disturbance. Results Dysregulation of circadian rhythm due to sleep disturbance displayed abnormal expression profile of circadian genes in uterine including decreased level of Rev-erbα, accompanied by defective decidualization. Rev-erbα could regulate decidualization by directly repressing IL-6, which reduced the expression of CCAAT/enhancer-binding protein β (C/EBPβ) and its target insulin-like growth factor binding protein 1 (IGFBP1), the marker of decidualization, by inhibiting progesterone receptors (PR) expression. Moreover, deficient decidualization, higher abortion rate and lower implantation number were exhibited in the mouse models with sleep disturbance compared with those in normal mouse. Pharmacological activation of Rev-erbα or neutralization of IL-6 alleviated the adverse effect of sleep disturbance on pregnancy outcomes. Conclusions Taken together, Rev-erbα regulated decidualization via IL-6-PR-C/EBPβ axis and might be a connector between sleep and pregnancy outcome. Therapies targeting Rev-erbα and IL-6 might help improving adverse pregnancy outcomes induced by sleep disturbance.

Published

2022

17. Regulation of BCRP expression and sulfasalazine pharmacokinetics by the nuclear receptor REV-ERBα.

Author

Wu, Chunhong, Xiao, Yifei, Wu, Caimei, Xie, Dihao, Luo, Meixue, Yao, Dingyi, Chen, Min, and Lu, Danyi

Subjects

*GENE expression, *PHARMACOKINETICS, *NUCLEAR receptors (Biochemistry), *SMALL intestine, *TRANSCRIPTION factors, *GENETIC regulation

Abstract

BCRP (breast cancer resistance protein) is a crucial efflux transporter involved in the regulation of the pharmacokinetics and pharmacodynamics of a wide range of drugs. Herein, we aimed to investigate a potential role for the nuclear receptor REV-ERBα in the regulation of BCRP expression and sulfasalazine (a BCRP probe substrate) pharmacokinetics. Regulation of BCRP expression by REV-ERBα was assessed using Rev-erbα-/- mice and AML12 and CT26 cells. Pharmacokinetic analysis was performed with Rev-erbα-/- and wild-type mice after sulfasalazine administration. We found that the expression levels of BCRP mRNA and protein were downregulated in the liver and small intestine of Rev-erbα-dificient mice. In line with this, Rev-erbα ablation increased the systemic exposures of oral sulfasalazine. Positive regulation of BCRP expression and function by REV-ERBα was furtherly confirmed in AML12 and CT26 cells. Moreover, indirect regulation of Bcrp expression by REV-ERBα was potentially mediated by a negative transcription factor DEC2, which is a downstream target of REV-ERBα. In conclusion, REV-ERBα positively regulates BCRP expression in mice, thereby affecting sulfasalazine pharmacokinetics. [ABSTRACT FROM AUTHOR]

Published

2023

18. The circadian clock protein Rev-erbα provides neuroprotection and attenuates neuroinflammation against Parkinson’s disease via the microglial NLRP3 inflammasome

Author

Liang Kou, Xiaosa Chi, Yadi Sun, Chao Han, Fang Wan, Junjie Hu, Sijia Yin, Jiawei Wu, Yunna Li, Qiulu Zhou, Wenkai Zou, Nian Xiong, Jinsha Huang, Yun Xia, and Tao Wang

Subjects

Parkinson’s disease, Circadian rhythm, Rev-erbα, NLRP3, Neuroinflammation, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Circadian disturbance is a common nonmotor complaint in Parkinson’s disease (PD). The molecular basis underlying circadian rhythm in PD is poorly understood. Neuroinflammation has been identified as a key contributor to PD pathology. In this study, we explored the potential link between the core clock molecule Rev-erbα and the microglia-mediated NLR family pyrin domain-containing 3 (NLRP3) inflammasome in PD pathogenesis. Methods We first examined the diurnal Rev-erbα rhythms and diurnal changes in microglia-mediated inflammatory cytokines expression in the SN of MPTP-induced PD mice. Further, we used BV2 cell to investigate the impacts of Rev-erbα on NLRP3 inflammasome and microglial polarization induced by 1-methyl-4-phenylpyridinium (MPP+) and αsyn pre-formed fibril. The role of Rev-erbα in regulating microglial activation via NF-κB and NLRP3 inflammasome pathway was then explored. Effects of SR9009 against NLRP3 inflammasome activation, microgliosis and nigrostriatal dopaminergic degeneration in the SN and striatum of MPTP-induced PD mice were studied in detail. Results BV2 cell-based experiments revealed the role of Rev-erbα in regulating microglial activation and polarization through the NF-κB and NLRP3 inflammasome pathways. Circadian oscillation of the core clock gene Rev-erbα in the substantia nigra (SN) disappeared in MPTP-induced PD mice, as well as diurnal changes in microglial morphology. The expression of inflammatory cytokines in SN of the MPTP-induced mice were significantly elevated. Furthermore, dopaminergic neurons loss in the nigrostriatal system were partially reversed by SR9009, a selective Rev-erbα agonist. In addition, SR9009 effectively reduced the MPTP-induced glial activation, microglial polarization and NLRP3 inflammasome activation in the nigrostriatal system. Conclusions These observations suggest that the circadian clock protein Rev-erbα plays an essential role in attenuating neuroinflammation in PD pathology, and provides a potential therapeutic target for PD treatment.

Published

2022

19. Rev-erbα agonist SR9009 protects against cerebral ischemic injury through mechanisms involving Nrf2 pathway

Author

Mingyue Sheng, Xun Chen, Yan Yu, Qi Wu, Junping Kou, and Gangling Chen

Subjects

cerebral ischemia, SR9009, REV-erbα, Nrf2, circadian rhythm, circadian gene, Therapeutics. Pharmacology, RM1-950

Abstract

Backgrounds: The circadian clock protein Rev-erbα is a crucial regulator of circadian rhythms that affects multiple molecular, cellular, and physiology pathways that control susceptibility, injury, and recovery in the neurological disorders. Emerging evidence suggest that Rev-erbα plays a key role in the inflammation and oxidative stress, two pivotal mechanisms in the pathogenesis, progression, and recovery process of ischemic stroke. However, it remains inconclusive whether Rev-erbα activation is protective against ischemic brain damage. Nuclear factor erythroid 2-related factor 2 (Nrf2) pathway, a master regulator of inflammatory and oxidative responses. Our study aimed to determine whether pharmacological activation of Rev-erbα by SR9009 protects against acute ischemic brain damage partly via Nrf2 pathway.Methods: Adult mice were pretreated with SR9009 or Nrf2 inhibitor all-trans-retinoic acid (ATRA) for 3 days prior to Sham or middle cerebral artery occlusion (MCAO) operation. After ischemia for 1 h and reperfusion for 24 h, the neurological function and cerebral infarction volume were determined, superoxide dismutase (SOD) activity, malondialdehyde (MDA) content and glutathione peroxidase (GSH-PX) activity in serum were detected by kit. The mRNA and/or protein level of tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), inducible nitric oxide synthase (iNOS), Period (Per)1, Brain and muscle arnt-like1 (Bmal1), Circadian locomotor output cycles kaput (Clock), Rev-erbα, Nrf2, heme oxygenase-1 (HO-1) and quinone oxidoreductase 1 (NQO1) in cerebral cortex were detected by q-PCR and Western blot.Results: We confirmed that SR9009 activated Rev-erbα gene in the cerebral cortex under basal condition. At 24 h after reperfusion, SR9009 ameliorated acute neurological deficits, reduced infarct volume. Meanwhile, the inflammatory TNF-α, IL-1β, iNOS and MDA content levels were significant decreased, SOD and GSH-PX activity were obviously increased, which were markedly blunted (or abolished) by ATRA. SR9009 enhanced the induction of Nrf2 and its downstream target genes HO-1 and NQO1 after ischemic insult. In addition, we found that SR9009 restored Rev-erbα, Bmal1, Clock, Per1 genes expression in the cerebral cortex under ischemic condition.Conclusion: Taken together, Rev-erbα activation by SR9009 protects against ischemic stroke damage, at least, partly through Nrf2 pathway.

Published

2023

20. Fluoxetine Decreases Phagocytic Function via REV-ERBα in Microglia.

Author

Jang, Da-Yoon, Yang, Bohyun, You, Min-Jung, Rim, Chan, Kim, Hui-Ju, Sung, Soyoung, and Kwon, Min-Soo

Subjects

*NUCLEOCYTOPLASMIC interactions, *NUCLEAR transport, *MICROGLIA, *FLUOXETINE, *MENTAL depression, *OBSESSIVE-compulsive disorder, *PHAGOCYTOSIS

Abstract

Although fluoxetine (FLX) is a commonly used drug in psychiatric disorders, such as major depressive disorder, anxiety disorder, panic disorder, and obsessive–compulsive disorder, 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 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 activity 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-ERBα. In addition, ERK inhibition mimics the effects of FLX on microglia. [ABSTRACT FROM AUTHOR]

Published

2023

21. Blocking circadian clock factor Rev-erbα inhibits growth plate chondrogenesis via up-regulating MAPK-ERK1/2 pathway.

Author

Qian, Zhuang, Liu, Zhen, Feng, Zhenhua, Cai, Zhenning, Qiu, Yong, and Zhu, Zezhang

Subjects

GROWTH plate, CHONDROGENESIS, BONE growth, CLOCK genes, MOLECULAR clock

Abstract

Emerging evidence indicated circadian clock gene Rev-erbα was involved in cartilage metabolism, however the contribution of Rev-erbα to growth plate chondrogenesis remains unknown. Here, we found that Rev-erbα exhibited the spatiotemporal expression model in growth plate. Moreover, Rev-erbα antagonist SR8278 inhibited longitudinal elongation of metatarsal bone ex vivo. And morphological analysis exhibited SR8278 led to the reduced height of growth plate and hypertrophic zone. Furthermore, blocking Rev-erbα suppressed the proliferation and hypertrophic differentiation of chondrocytes in growth plate. Similarly, knock-down Rev-erbα inhibited the proliferation and differentiation of primary chondrocytes in vitro. The mechanistic study indicated that knock-down Rev-erbα up-regulated MAPK-ERK1/2 pathway in chondrocytes. However, restraint of MAPK-ERK1/2 pathway alleviated partially SR8278-inhibited longitudinal elongation of metatarsal bone and growth plate development. Therefore, our results provide evidence of the vital role of Rev-erbα on growth plate chondrogenesis. [ABSTRACT FROM AUTHOR]

Published

2023

22. Puerariae lobatae radix protects against UVB-induced skin aging via antagonism of REV-ERBα in mice

Author

Luyao Ma, Meiping Huang, Guanghui Sun, Yanke Lin, Danyi Lu, and Baojian Wu

Subjects

Puerariae lobatae radix, skin aging, REV-ERBα, BMAL1, Nrf2, Therapeutics. Pharmacology, RM1-950

Abstract

Puerariae lobatae radix (PLR) is a wildly used herbal medicine. Here we aimed to assess the PLR efficacy against UVB (ultraviolet-B)-induced skin aging and to determine the mechanisms thereof. We found a significant protective effect of PLR (topical application) on UVB-induced skin aging in mice, as evidenced by reduced skin wrinkles, epidermal thickness, and MDA (malondialdehyde) content as well as increased levels of HYP (hydroxyproline) and SOD (superoxide dismutase) in the skin. In the meantime, Mmp-1, p21 and p53 levels were decreased in the skin of PLR-treated mice. Anti-aging effects of PLR were also confirmed in L929 cells. Furthermore, PLR up-regulated skin expression of BMAL1, which is a known regulator of aging by promoting Nrf2 and antioxidant enzymes. Consistently, Nrf2 and several genes (i.e., Prdx6, Sod1, and Sod2) encoding antioxidant enzymes in the skin were increased in PLR-treated mice. Moreover, based on Gal4 chimeric assay, Bmal1 reporter gene and expression assays, we identified PLR as an antagonist of REV-ERBα that can increase Bmal1 expression. Intriguingly, loss of Rev-erbα protected mice against UVB-induced skin aging and abrogated the protective effect of PLR. In conclusion, PLR acts as an antagonist of REV-ERBα and promotes the expression of BMAL1 to protect against skin aging in mice.

Published

2022

23. Circadian gene Rev-erbα influenced by sleep conduces to pregnancy by promoting endometrial decidualization via IL-6-PR-C/EBPβ axis.

Author

Cui, Liyuan, Xu, Feng, Xu, Chunfang, Ding, Yan, Wang, Songcun, and Du, Meirong

Subjects

*INSULIN-like growth factor-binding proteins, *SLEEP interruptions, *NON-REM sleep, *MELANOPSIN, *SLEEP spindles, *PREGNANCY outcomes

Abstract

Background: Sleep disturbance can cause adverse pregnancy outcomes by changing circadian gene expression. The potential mechanisms remain unclear. Decidualization is critical for the establishment and maintenance of normal pregnancy, which can be regulated by circadian genes. Whether Rev-erbα, a critical circadian gene, affects early pregnancy outcome by regulating decidualization needs to be explored. Methods: QPCR, western blot and artificial decidualization mouse model were used to confirm the effect of sleep disturbance on Rev-erbα expression and decidualization. The regulatory mechanism of Rev-erbα on decidualization was assessed using QPCR, western blot, RNA-Seq, and Chip-PCR. Finally, sleep disturbance mouse model was used to investigate the effect of therapeutic methods targeting Rev-erbα and interleukin 6 (IL-6) on improving adverse pregnancy outcomes induced by sleep disturbance. Results: Dysregulation of circadian rhythm due to sleep disturbance displayed abnormal expression profile of circadian genes in uterine including decreased level of Rev-erbα, accompanied by defective decidualization. Rev-erbα could regulate decidualization by directly repressing IL-6, which reduced the expression of CCAAT/enhancer-binding protein β (C/EBPβ) and its target insulin-like growth factor binding protein 1 (IGFBP1), the marker of decidualization, by inhibiting progesterone receptors (PR) expression. Moreover, deficient decidualization, higher abortion rate and lower implantation number were exhibited in the mouse models with sleep disturbance compared with those in normal mouse. Pharmacological activation of Rev-erbα or neutralization of IL-6 alleviated the adverse effect of sleep disturbance on pregnancy outcomes. Conclusions: Taken together, Rev-erbα regulated decidualization via IL-6-PR-C/EBPβ axis and might be a connector between sleep and pregnancy outcome. Therapies targeting Rev-erbα and IL-6 might help improving adverse pregnancy outcomes induced by sleep disturbance. [ABSTRACT FROM AUTHOR]

Published

2022

24. Scutellaria baicalensis Georgi regulates REV-ERBα/BMAL1 to protect against skin aging in mice.

Author

Guanghui Sun, Yongkang Dang, Yanke Lin, Wanying Zeng, Zongjian Wu, Xingwang Zhang, Dong Dong, and Baojian Wu

Subjects

WRINKLES (Skin), SKIN aging, CHINESE skullcap, TOPICAL drug administration, CHINESE medicine, MALONDIALDEHYDE, MICE, SUPEROXIDE dismutase

Abstract

Scutellaria baicalensis Georgi (SBG) is a traditional Chinese medicine widely used to treat disorders such as hypertension, dysentery and hemorrhaging. Here, we aimed to assess the pharmacological effects of SBG on skin aging and to investigate the underlying mechanisms. Mice with skin aging were established by treatment with D-galactose and ultraviolet-B. SBG (topical application) showed a protective effect on skin aging in mice, as evidenced by less formation of skin wrinkles, higher levels of SOD (superoxide dismutase) and HYP (hydroxyproline) as well as a lower level of MDA (malondialdehyde). In the meantime, skin MMP-1 and p53 expression were lower, epidermis was thinner and collagen amount was higher in SBG-treated mice. Anti-skin aging effects of SBG were also confirmed in NIH3T3 and HaCaT cells, as well as in mouse primary dermal fibroblasts and human primary epidermal keratinocytes. Furthermore, we found that loss of Rev-erbα (a known repressor of Bmal1) up-regulated skin BMAL1 (a clock component and a known anti-aging factor) and ameliorated skin aging in mice. Moreover, SBG dose-dependently increased the expression of BMAL1 in the skin of aged mice and in senescent NIT3H3 cells. In addition, based on a combination of Gal4 chimeric, luciferase reporter and expression assays, SBG was identified as an antagonist of REV-ERBα and thus an inducer of BMAL1 expression. In conclusion, SBG antagonizes REV-ERBα to up-regulate BMAL1 and to protect against skin aging in mice. [ABSTRACT FROM AUTHOR]

Published

2022

25. Time of day dependent reduction in stroke infarct volume by the Reverb agonist SR9009 in mice.

Author

Kamat PK, Khan MB, Siddiqui S, Hattaway TG, Anas A, Rudic RD, Baban B, Dhandapani KM, and Hess DC

Abstract

Ischemic stroke leads to disability and death worldwide and evidence suggests that stroke severity is affected by the time dimension of the stroke. Rev-Erbα regulates the core circadian clock through repression of the positive clock element Bmal1. However, it remains unclear if a Rev-Erbα agonist (SR9009) alleviates stroke pathology in mice. We found that stroke reduces the level of Rev-Erbα and elevates neuroinflammation and stroke severity at zeitgeber time (ZT) ZT06. Therefore, we hypothesized that SR9009 treatment may reduce neuroinflammation and stroke severity in a mouse suture occlusion model. At 12 to 14 weeks, C57BL/6 J (Wild Type, n = 5-10 mice/group) mice were randomly assigned to undergo MCAO stroke for 60 min at either zeitgeber time ZT06 (MCAO-ZT06-sleep phase) or ZT18 (MCAO-ZT18-awake phase). Stroked mice were treated with SR9009 (100 mg/kg) or vehicle at 1 h and 24 h after MCAO. After forty-eight hours of stroke, TTC staining, Western blot, and qRT-PCR were performed. We found that SR9009 treatment alleviates neuroinflammation and infarct volume by Rev-Erb remodeling in ZT06 stroke mice but not in ZT18 stroke mice. Additionally, monocytic and neutrophilic NLRP3 as well as brain NLRP3 levels were reduced by SR9009 treatment in ZT06 stroke though no effects were observed at ZT18 stroke. SR9009 also reduced TNFα expression and increased IL-10 expression in blood and brain in ZT06 stroke mice and no differences were observed at ZT18. There were no significant effects of SR9009 on neurological deficit score and sensorimotor function at ZT06 or ZT18 at 48 h. Our study demonstrates that SR9009 treatment reduces stroke volume, circulating immune response, circadian expression, and that the protection was circadian- and treatment time-dependent., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

26. Functional inversion of circadian regulator REV-ERBα leads to tumorigenic gene reprogramming.

Author

Yang Y, Zhang X, Cai D, Zheng X, Zhao X, Zou JX, Zhang J, Borowsky AD, Dall'Era MA, Corey E, Mitsiades N, Kung HJ, Chen X, Li JJ, Downes M, Evans RM, and Chen HW

Subjects

Humans, Animals, Mice, Gene Expression Regulation, Neoplastic, Transcription Factors metabolism, Transcription Factors genetics, Hepatocyte Nuclear Factor 3-alpha metabolism, Hepatocyte Nuclear Factor 3-alpha genetics, Signal Transduction, Cell Line, Tumor, Neoplasms genetics, Neoplasms metabolism, Neoplasms pathology, Cell Cycle Proteins metabolism, Cell Cycle Proteins genetics, Nuclear Receptor Co-Repressor 1 metabolism, Nuclear Receptor Co-Repressor 1 genetics, Bromodomain Containing Proteins, Nuclear Receptor Subfamily 1, Group D, Member 1 metabolism, Nuclear Receptor Subfamily 1, Group D, Member 1 genetics, Circadian Rhythm genetics, Circadian Rhythm physiology, Carcinogenesis genetics

Abstract

Profound functional switch of key regulatory factors may play a major role in homeostasis and disease. Dysregulation of circadian rhythm (CR) is strongly implicated in cancer with mechanisms poorly understood. We report here that the function of REV-ERBα, a major CR regulator of the orphan nuclear receptor subfamily, is dramatically altered in tumors in both its genome binding and functional mode. Loss of CR is linked to a functional inversion of REV-ERBα from a repressor in control of CR and metabolic gene programs in normal tissues to a strong activator in different cancers. Through changing its association from NCoR/HDAC3 corepressor complex to BRD4/p300 coactivators, REV-ERBα directly activates thousands of genes including tumorigenic programs such as MAPK and PI3K-Akt signaling. Functioning as a master transcriptional activator, REV-ERBα partners with pioneer factor FOXA1 and directly stimulates a large number of signaling genes, including multiple growth factors, receptor tyrosine kinases, RASs, AKTs, and MAPKs. Moreover, elevated REV-ERBα reprograms FOXA1 to bind new targets through a BRD4-mediated increase in local chromatin accessibility. Pharmacological targeting with SR8278 diminishes the function of both REV-ERBα and FOXA1 and synergizes with BRD4 inhibitor in effective suppression of tumorigenic programs and tumor growth. Thus, our study revealed a functional inversion by a CR regulator in driving gene reprogramming as an unexpected paradigm of tumorigenesis mechanism and demonstrated a high effectiveness of therapeutic targeting such switch., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

27. Clock Gene Nr1d1 Alleviates Retinal Inflammation Through Repression of Hmga2 in Microglia

Author

Wang Z, Huang Y, Chu F, Ji S, Liao K, Cui Z, Chen J, and Tang S

Subjects

clock genes, rev-erbα, nr1d1, retinal inflammation, hmga2, Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950

Abstract

Zhijie Wang,1,2 Yinhua Huang,1,2 Feixue Chu,3 Shangli Ji,2 Kai Liao,1,2 Zekai Cui,2 Jiansu Chen,1,2,4,5 Shibo Tang1,2,6 1Aier School of Ophthalmology, Central South University, Changsha, People’s Republic of China; 2Aier Eye Institute, Aier Eye Hospital Group, Changsha, People’s Republic of China; 3Department of Ophthalmology, Hangzhou Xihu Zhijiang Eye Hospital, Hangzhou, People’s Republic of China; 4Key Laboratory for Regenerative Medicine, Jinan University, Guangzhou, People’s Republic of China; 5Institute of Ophthalmology, Jinan University, Guangzhou, People’s Republic of China; 6CAS Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences, Shanghai, People’s Republic of ChinaCorrespondence: Shibo Tang; Jiansu Chen Email tangshibo@vip.163.com; chenjiansu2000@163.comPurpose: Retinal inflammation is involved in the pathogenesis of several retinal diseases. As one of the core clock genes, Nr1d1 has been reported to suppress inflammation in many diseases. We investigated whether pharmacological activation of Nr1d1 can inhibit retinal inflammation and delineated the mechanisms of Nr1d1 in alleviating microglia activation.Methods: Lipopolysaccharide (LPS) induced mice models were used to examine the effects of SR9009 (agonist of NR1D1) treatment on inflammatory phenotypes in vivo. Anti-inflammatory effects of Nr1d1 and associated mechanisms were investigated in the BV2 microglia cell line, and in primary retinal microglia in vitro.Results: SR9009 treatment alleviated LPS-induced inflammatory cell infiltration, elevated cytokine levels and morphological changes of the microglia in mice models. In LPS-stimulated BV2 cells and primary retinal microglia, SR9009 suppressed cytokine expressions by inhibiting the NF-κB signaling pathway. Moreover, SR9009 treatment increased the levels of the M2 phenotype marker (CD206) and the proportions of ramified microglia. Suppression of Nr1d1 with siRNA reversed the inhibitory effects of SR9009 on cytokine production in BV2 cells. RNA-seq analysis showed that genes that were upregulated following Nr1d1 knockdown were enriched in inflammatory-associated biological processes. Subsequently, ChIP-seq of NR1D1 in BV2 was performed, and the results were integrated with RNA-seq results using the Binding and Expression Target Analysis (BETA) tool. Luciferase assays, electrophoretic mobility shift assay (EMSA), qPCR and Western blotting assays revealed that NR1D1 binds the promoter of Hmga2 to suppress its transcription. Notably, overexpressed Hmga2 in activated microglia could partly abolish the anti-inflammatory effects of Nr1d1.Conclusion: The clock gene Nr1d1 protects against retinal inflammation and microglia activation in part by suppressing Hmga2 transcription.Keywords: clock genes, Rev-erbα, Nr1d1, retinal inflammation, Hmga2

Published

2021

28. Melatonin inhibits osteoclastogenesis via RANKL/OPG suppression mediated by Rev‐Erbα in osteoblasts.

Author

Tian, Yihao and Ming, Jian

Subjects

TRANCE protein, OSTEOCLASTOGENESIS, ACID phosphatase, MELATONIN, OSTEOBLASTS, DIABETES complications, OSTEOPROTEGERIN

Abstract

Diabetic osteoporosis is secondary osteoporosis and a serious complication of diabetes with a high incidence rate and poor prognosis. The specific mechanism of diabetic osteoporosis is unclear, and prevention and treatment options are limited. Recently, melatonin has been found to prevent and treat diabetic osteoporosis. Herein, we investigated the mechanism whereby melatonin inhibits osteoclastogenesis and identified a new target for osteoporosis treatment. We established an in vitro osteoblast–osteoclast co‐culture system as a diabetic osteoporosis model. Osteoclastogenesis was determined using tartrate‐resistant acid phosphatase staining and cathepsin K expression. Real‐time PCR was used to ascertain expression of microRNA mir‐882, targeting Rev‐Erbα. Western blotting was performed to detect the expression of Rev‐Erbα, receptor activator of NF‐kB ligand (RANKL), and osteoprotegerin (OPG), and ELISA was utilized to analyse the secreted form of RANKL. High glucose promoted osteoclastogenesis and elevated the RANKL/OPG ratio in osteoblasts, while melatonin reversed these effects. High glucose inhibited Rev‐Erbα expression, while melatonin promoted its expression. Conversely, high glucose promoted mir‐882 expression, while melatonin inhibited it. We infer that melatonin inhibits RANKL expression in osteoblasts via the mir‐882/Rev‐Erbα axis, thus inhibiting osteoclastogenesis. Our findings provide insights into diabetic osteoporosis and identify a new therapeutic target for osteoporosis. [ABSTRACT FROM AUTHOR]

Published

2022

29. Circadian nuclear receptor Rev-erbα is expressed by platelets and potentiates platelet activation and thrombus formation.

Author

Shi, Jianfeng, Tong, Renyang, Zhou, Meng, Gao, Yu, Zhao, Yichao, Chen, Yifan, Liu, Wenhua, Li, Gaoxiang, Lu, Dong, Meng, Guofeng, Hu, Liuhua, Yuan, Ancai, Lu, Xiyuan, and Pu, Jun

Subjects

BLOOD platelet activation, BLOOD platelets, BLOOD platelet aggregation, MYOCARDIAL infarction, THROMBOSIS

Abstract

Aims Adverse cardiovascular events have day/night patterns with peaks in the morning, potentially related to endogenous circadian clock control of platelet activation. Circadian nuclear receptor Rev-erbα is an essential and negative component of the circadian clock. To date, the expression profile and biological function of Rev-erbα in platelets have never been reported. Methods and results Here, we report the presence and functions of circadian nuclear receptor Rev-erbα in human and mouse platelets. Both human and mouse platelet Rev-erbα showed a circadian rhythm that positively correlated with platelet aggregation. Global Rev-erbα knockout and platelet-specific Rev-erbα knockout mice exhibited defective in haemostasis as assessed by prolonged tail-bleeding times. Rev-erbα deletion also reduced ferric chloride-induced carotid arterial occlusive thrombosis, prevented collagen/epinephrine-induced pulmonary thromboembolism, and protected against microvascular microthrombi obstruction and infarct expansion in an acute myocardial infarction model. In vitro thrombus formation assessed by CD41-labelled platelet fluorescence intensity was significantly reduced in Rev-erbα knockout mouse blood. Platelets from Rev-erbα knockout mice exhibited impaired agonist-induced aggregation responses, integrin αIIbβ3 activation, and α-granule release. Consistently, pharmacological inhibition of Rev-erbα by specific antagonists decreased platelet activation markers in both mouse and human platelets. Mechanistically, mass spectrometry and co-immunoprecipitation analyses revealed that Rev-erbα potentiated platelet activation via oligophrenin-1-mediated RhoA/ERM (ezrin/radixin/moesin) pathway. Conclusion We provided the first evidence that circadian protein Rev-erbα is functionally expressed in platelets and potentiates platelet activation and thrombus formation. Rev-erbα may serve as a novel therapeutic target for managing thrombosis-based cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2022

30. The circadian clock protein Rev-erbα provides neuroprotection and attenuates neuroinflammation against Parkinson's disease via the microglial NLRP3 inflammasome.

Author

Kou, Liang, Chi, Xiaosa, Sun, Yadi, Han, Chao, Wan, Fang, Hu, Junjie, Yin, Sijia, Wu, Jiawei, Li, Yunna, Zhou, Qiulu, Zou, Wenkai, Xiong, Nian, Huang, Jinsha, Xia, Yun, and Wang, Tao

Subjects

*PARKINSON'S disease, *NLRP3 protein, *INFLAMMASOMES, *MICROGLIA, *NEUROINFLAMMATION

Abstract

Background: Circadian disturbance is a common nonmotor complaint in Parkinson's disease (PD). The molecular basis underlying circadian rhythm in PD is poorly understood. Neuroinflammation has been identified as a key contributor to PD pathology. In this study, we explored the potential link between the core clock molecule Rev-erbα and the microglia-mediated NLR family pyrin domain-containing 3 (NLRP3) inflammasome in PD pathogenesis. Methods: We first examined the diurnal Rev-erbα rhythms and diurnal changes in microglia-mediated inflammatory cytokines expression in the SN of MPTP-induced PD mice. Further, we used BV2 cell to investigate the impacts of Rev-erbα on NLRP3 inflammasome and microglial polarization induced by 1-methyl-4-phenylpyridinium (MPP+) and αsyn pre-formed fibril. The role of Rev-erbα in regulating microglial activation via NF-κB and NLRP3 inflammasome pathway was then explored. Effects of SR9009 against NLRP3 inflammasome activation, microgliosis and nigrostriatal dopaminergic degeneration in the SN and striatum of MPTP-induced PD mice were studied in detail. Results: BV2 cell-based experiments revealed the role of Rev-erbα in regulating microglial activation and polarization through the NF-κB and NLRP3 inflammasome pathways. Circadian oscillation of the core clock gene Rev-erbα in the substantia nigra (SN) disappeared in MPTP-induced PD mice, as well as diurnal changes in microglial morphology. The expression of inflammatory cytokines in SN of the MPTP-induced mice were significantly elevated. Furthermore, dopaminergic neurons loss in the nigrostriatal system were partially reversed by SR9009, a selective Rev-erbα agonist. In addition, SR9009 effectively reduced the MPTP-induced glial activation, microglial polarization and NLRP3 inflammasome activation in the nigrostriatal system. Conclusions: These observations suggest that the circadian clock protein Rev-erbα plays an essential role in attenuating neuroinflammation in PD pathology, and provides a potential therapeutic target for PD treatment. [ABSTRACT FROM AUTHOR]

Published

2022

31. The nuclear receptor REV-ERBα regulates CYP2E1 expression and acetaminophen hepatotoxicity.

Author

Zhang, Li, Zhang, Fugui, Xiao, Yifei, Du, Jianhao, Zhang, Xingwang, Chen, Min, and Wu, Baojian

Subjects

*ACETAMINOPHEN, *CYTOCHROME P-450 CYP2E1, *ACUTE toxicity testing, *HEPATOTOXICOLOGY, *DRUG metabolism, *POISONS

Abstract

CYP2E1 plays an important role in drug metabolism and drug-induced hepatotoxicity. Here, we aimed to investigate a potential role for the nuclear receptor REV-ERBα in regulation of CYP2E1 expression and acetaminophen (APAP)-induced hepatotoxicity, and to determine the underlying mechanisms. Regulatory effects of REV-ERBα on CYP2E1 expression were assessed in vivo (using Rev-erbα-/- mice) and in vitro (using AML12 and HepG2 cells). In vitro microsomal CYP2E1 activity was probed using its specific substrate p-nitrophenol. Pharmacokinetic and acute toxicity studies were performed with Rev-erbα−/− and wild-type mice after APAP administration. We found that Rev-erbα ablation led to decreases in hepatic CYP2E1 expression and activity in mice. In line with this, APAP-induced hepatotoxicity was attenuated in Rev-erbα-deficient mice. The attenuated toxicity was due to down-regulation of APAP metabolism mediated by CYP2E1, which was evidenced by a decrease in formation of the toxic intermediate metabolite NAPQI (i.e. reduced APAP-cysteine and APAP-N-acetylcysteine levels). Furthermore, positive regulation of CYP2E1 expression by REV-ERBα was confirmed in both AML12 and HepG2 cells. Based on luciferase reporter assays, it was found that REV-ERBα regulated Cyp2e1 transcription and expression through repression of DEC2. In conclusion, REV-ERBα positively regulates CYP2E1 expression in mice, thereby affecting APAP metabolism and hepatotoxicity. [ABSTRACT FROM AUTHOR]

Published

2022

32. Pharmacological activation of rev-erbα suppresses LPS-induced macrophage M1 polarization and prevents pregnancy loss

Author

Liyuan Cui, Feng Xu, Songcun Wang, Xinyi Li, Haiyan Lin, Yan Ding, and Meirong Du

Subjects

Rev-erbα, Decidual macrophages, M1/M2 polarization, Pregnancy, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background Circadian rhythm is an important player for reproduction. Rev-erbα, a significant clock gene, is involved in regulating cell differentiation, inflammation and metabolism. Macrophage polarization plays crucial roles in immune tolerance at the maternal-fetus interface, which also modulates the initiation and resolution of inflammation. Alteration of macrophage polarization induces adverse pregnancy outcomes such as infertility, recurrent spontaneous abortion and preterm labor. Results Decidual macrophages from LPS-induced mice abortion model displayed M1-like bias, accompanied by decreased expression of Rev-erbα. SR9009, an agonist of Rev-erbα, may reduce lipopolysaccharide (LPS)-induced M1 polarization of macrophages via activation of PI3K but not NF-κB signaling pathway. Furthermore, SR9009 could reduce M1-like polarization of decidual macrophages induced by LPS and attenuate LPS-induced resorption rates in mice model. Conclusions Both in vivo and in vitro experiments demonstrated that the pharmacological activation of Rev-erbα using SR9009 could attenuate the effect of LPS on macrophage polarization and protect pregnancy. This study may provide a potential therapeutic strategy for miscarriage induced by inflammation.

Published

2021

33. Rev-erbα exacerbates hepatic steatosis in alcoholic liver diseases through regulating autophagy

Author

Qingxue Liu, Lei Xu, Meifei Wu, Yiwen Zhou, Junfa Yang, Cheng Huang, Tao Xu, Jun Li, and Lei Zhang

Subjects

Rev-erbα, AFL, Autophagy, Bmal1, Lysosome, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract Background and aims Alcoholic fatty liver (AFL) is a liver disease caused by long-term excessive drinking and is characterized by hepatic steatosis. Understanding the regulatory mechanism of steatosis is essential for the treatment of AFL. Rev-erbα is a member of the Rev-erbs family of nuclear receptors, playing an important role in regulating lipid metabolism. However, its functional role in AFL and its underlying mechanism remains unclear. Results Rev-erbα was upregulated in the liver of EtOH-fed mice and EtOH-treated L-02 cells. Further, Rev-erbα activation exacerbates steatosis in L-02 cells. Inhibition/downexpression of Rev-erbα improved steatosis. Mechanistically, autophagy activity was inhibited in vivo and vitro. Interestingly, inhibition/downexpression of Rev-erbα enhanced autophagy. Furthermore, silencing of Rev-erbα up-regulated the nuclear expression of Bmal1. Autophagy activity was inhibited and steatosis was deteriorated after EtOH-treated L-02 cells were cotransfected with Rev-erbα shRNA and Bmal1 siRNA. Conclusions Rev-erbα induces liver steatosis, which promotes the progression of AFL. Our study reveals a novel steatosis regulatory mechanism in AFL and suggest that Rev-erbα might be a potential therapeutic target for AFL.

Published

2021

34. NR1D1 downregulation in astrocytes induces a phenotype that is detrimental to cocultured motor neurons.

Author

Killoy, Kelby M., Harlan, Benjamin A., Pehar, Mariana, and Vargas, Marcelo R.

Abstract

Nuclear receptor subfamily 1 group D member 1 (NR1D1, also known as Rev‐erbα) is a nuclear transcription factor that is part of the molecular clock encoding circadian rhythms and may link daily rhythms with metabolism and inflammation. NR1D1, unlike most nuclear receptors, lacks a ligand‐dependent activation function domain 2 and is a constitutive transcriptional repressor. Amyotrophic lateral sclerosis (ALS) is the most common adult‐onset motor neuron disease, caused by the progressive degeneration of motor neurons in the spinal cord, brain stem, and motor cortex. Approximately 10%–20% of familial ALS is caused by a toxic gain‐of‐function induced by mutations of the Cu/Zn superoxide dismutase (SOD1). Dysregulated clock and clock‐controlled gene expression occur in multiple tissues from mutant hSOD1‐linked ALS mouse models. Here we explore NR1D1 dysregulation in the spinal cord of ALS mouse models and its consequences on astrocyte–motor neuron interaction. NR1D1 protein and mRNA expression are significantly downregulated in the spinal cord of symptomatic mice expressing mutant hSOD1, while no changes were observed in age‐matched animals overexpressing wild‐type hSOD1. In addition, NR1D1 downregulation in primary astrocyte cultures induces a pro‐inflammatory phenotype and decreases the survival of cocultured motor neurons. NR1D1 orchestrates the cross talk between physiological pathways identified to be disrupted in ALS (e.g., metabolism, inflammation, redox homeostasis, and circadian rhythms) and we observed that downregulation of NR1D1 alters astrocyte–motor neuron interaction. Our results suggest that NR1D1 could be a potential therapeutic target to prevent astrocyte‐mediated motor neuron toxicity in ALS. [ABSTRACT FROM AUTHOR]

Published

2022

35. Pharmacological Rescue with SR8278, a Circadian Nuclear Receptor REV-ERBα Antagonist as a Therapy for Mood Disorders in Parkinson's Disease.

Author

Kim, Jeongah, Park, Inah, Jang, Sangwon, Choi, Mijung, Kim, Doyeon, Sun, Woong, Choe, Youngshik, Choi, Ji-Woong, Moon, Cheil, Park, Sung Ho, Choe, Han Kyoung, and Kim, Kyungjin

Abstract

Summary: Parkinson's disease is a neurodegenerative disease characterized by progressive dopaminergic neuronal loss. Motor deficits experienced by patients with Parkinson's disease are well documented, but non-motor symptoms, including mood disorders associated with circadian disturbances, are also frequent features. One common phenomenon is "sundowning syndrome," which is characterized by the occurrence of neuropsychiatric symptoms at a specific time (dusk), causing severe quality of life challenges. This study aimed to elucidate the underlying mechanisms of sundowning syndrome in Parkinson's disease and their molecular links with the circadian clock. We demonstrated that 6-hydroxydopamine (6-OHDA)-lesioned mice, as Parkinson's disease mouse model, exhibit increased depression- and anxiety-like behaviors only at dawn (the equivalent of dusk in human). Administration of REV-ERBα antagonist, SR8278, exerted antidepressant and anxiolytic effects in a circadian time-dependent manner in 6-OHDA-lesioned mice and restored the circadian rhythm of mood-related behaviors. 6-OHDA-lesion altered DAergic-specific Rev-erbα and Nurr1 transcription, and atypical binding activities of REV-ERBα and NURR1, which are upstream nuclear receptors for the discrete tyrosine hydroxylase promoter region. SR8278 treatment restored the binding activities of REV-ERBα and NURR1 to the tyrosine hydroxylase promoter and the induction of enrichment of the R/N motif, recognized by REV-ERBα and NURR1, as revealed by ATAC-sequencing; therefore, tyrosine hydroxylase expression was elevated in the ventral tegmental area of 6-OHDA-injected mice, especially at dawn. These results indicate that REV-ERBα is a potential therapeutic target, and its antagonist, SR8278, is a potential drug for mood disorders related to circadian disturbances, namely sundowning syndrome, in Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2022

36. Helicobacter pylori–Induced Rev-erbα Fosters Gastric Bacteria Colonization by Impairing Host Innate and Adaptive DefenseSummary

Author

Fang-Yuan Mao, Yi-Pin Lv, Chuan-Jie Hao, Yong-Sheng Teng, Yu-Gang Liu, Ping Cheng, Shi-Ming Yang, Weisan Chen, Tao Liu, Quan-Ming Zou, Rui Xie, Jing-Yu Xu, and Yuan Zhuang

Subjects

Helicobacter pylori, Rev-erbα, Gastric Epithelial Cells, Host Defense, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Rev-erbα represents a powerful transcriptional repressor involved in immunity. However, the regulation, function, and clinical relevance of Rev-erbα in Helicobacter pylori infection are presently unknown. Methods: Rev-erbα was examined in gastric samples from H pylori-infected patients and mice. Gastric epithelial cells (GECs) were isolated and infected with H pylori for Rev-erbα regulation assays. Gastric tissues from Rev-erbα–/– and wild-type (littermate control) mice or these mice adoptively transferred with CD4+ T cells from IFN-γ–/– and wild-type mice, bone marrow chimera mice and mice with in vivo pharmacological activation or inhibition of Rev-erbα were examined for bacteria colonization. GECs, CD45+CD11c–Ly6G–CD11b+CD68– myeloid cells and CD4+ T cells were isolated, stimulated and/or cultured for Rev-erbα function assays. Results: Rev-erbα was increased in gastric mucosa of H pylori-infected patients and mice. H pylori induced GECs to express Rev-erbα via the phosphorylated cagA that activated ERK signaling pathway to mediate NF-κB directly binding to Rev-erbα promoter, which resulted in increased bacteria colonization within gastric mucosa. Mechanistically, Rev-erbα in GECs not only directly suppressed Reg3b and β-defensin-1 expression, which resulted in impaired bactericidal effects against H pylori of these antibacterial proteins in vitro and in vivo; but also directly inhibited chemokine CCL21 expression, which led to decreased gastric influx of CD45+CD11c–Ly6G–CD11b+CD68– myeloid cells by CCL21-CCR7-dependent migration and, as a direct consequence, reduced bacterial clearing capacity of H pylori-specific Th1 cell response. Conclusions: Overall, this study identifies a model involving Rev-erbα, which collectively ensures gastric bacterial persistence by suppressing host gene expression required for local innate and adaptive defense against H pylori.

Published

2021

37. REV-ERBα regulates age-related and oxidative stress-induced degeneration in retinal pigment epithelium via NRF2

Author

Shuo Huang, Chi-Hsiu Liu, Zhongxiao Wang, Zhongjie Fu, William R. Britton, Alexandra K. Blomfield, Theodore M. Kamenecka, Joshua L. Dunaief, Laura A. Solt, and Jing Chen

Subjects

Retinal pigment epithelium, Aging, Age-related macular degeneration, REV-ERBα, Oxidative damage, NRF2, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Retinal pigment epithelium (RPE) dysfunction and atrophy occur in dry age-related macular degeneration (AMD), often leading to photoreceptor degeneration and vision loss. Accumulated oxidative stress during aging contributes to RPE dysfunction and degeneration. Here we show that the nuclear receptor REV-ERBα, a redox sensitive transcription factor, protects RPE from age-related degeneration and oxidative stress-induced damage. Genetic deficiency of REV-ERBα leads to accumulated oxidative stress, dysfunction and degeneration of RPE, and AMD-like ocular pathologies in aging mice. Loss of REV-ERBα exacerbates chemical-induced RPE damage, and pharmacological activation of REV-ERBα protects RPE from oxidative damage both in vivo and in vitro. REV-ERBα directly regulates transcription of nuclear factor erythroid 2-related factor 2 (NRF2) and its downstream antioxidant enzymes superoxide dismutase 1 (SOD1) and catalase to counter oxidative damage. Moreover, aged mice with RPE specific knockout of REV-ERBα also exhibit accumulated oxidative stress and fundus and RPE pathologies. Together, our results suggest that REV-ERBα is a novel intrinsic protector of the RPE against age-dependent oxidative stress and a new molecular target for developing potential therapies to treat age-related retinal degeneration.

Published

2022

38. RORα and REV-ERBα are Associated With Clinicopathological Parameters and are Independent Biomarkers of Prognosis in Gastric Cancer.

Author

Wang, Xiaoshan, Jia, Ru, Chen, Ke, Wang, Jingjing, Jiang, Kai, and Wang, Zhengguang

Subjects

BREAST cancer prognosis, CANCER prognosis, STOMACH cancer, NUCLEAR receptors (Biochemistry), PROGRESSION-free survival, CLINICAL pathology, BIOMARKERS, CARCINOEMBRYONIC antigen

Abstract

Retinoid-related orphan receptor alpha (RORα) and nuclear receptor subfamily 1 group D member 1 (REV-ERBα) play critical roles in many human cancers. Whether RORα and REV-ERBα expression levels are associated with clinical characteristics are poorly understood, and they may be independent predictors of overall survival (OS) and progression-free survival (PFS) in gastric cancer (GC). This study aimed to investigate the correlation of RORα and REV-ERBα expression levels with clinicopathological parameters, OS, and PFS in GC. Immunohistochemistry and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) were employed to assess the expression levels of RORα and REV-ERBα, which were downregulated in GC tissues compared with normal gastric tissues (P <.001; P <.001) and were associated with several clinicopathological parameters, including histological grade (P =.032; P <.001), preoperative carcinoembryonic antigen (CEA) levels (P =.004; P <.001), and tumor-node-metastasis (TNM) stage (P =.015; P <.001). Additionally, low RORα and REV-ERBα expression levels were associated with poor OS and PFS in GC patients, respectively (P <.001; P =.001). Furthermore, univariate Cox regression model analysis showed that histological grade (P <.001; P <.001), preoperative CEA levels (P <.001; P =.001), TNM stage (P <.001; P <.001), lymph node metastasis (P =.002; P =.002), RORα expression levels (P =.001; P <.001), and REV-ERBα expression levels (P <.001; P =.001) were associated with OS and PFS in GC. Multivariate Cox regression model analysis indicated that RORα expression levels and REV-ERBα expression levels are independent factors of OS and PFS in GC. Besides, RORα and REV-ERBα expression may be positively correlated (χ2 = 6.835; P =.009), and GC patients with both high RORα and REV-ERBα expression levels had the best prognosis. In conclusion, RORα and REV-ERBα may coparticipate in tumor activities and show potential to estimate the prognosis of GC. [ABSTRACT FROM AUTHOR]

Published

2021

39. Decreased expression of Rev-Erbα in the epileptic foci of temporal lobe epilepsy and activation of Rev-Erbα have anti-inflammatory and neuroprotective effects in the pilocarpine model

Author

Jiong Yue, Jiaojiang He, Yujia Wei, Kaifeng Shen, Kefu Wu, Xiaolin Yang, Shiyong Liu, Chunqing Zhang, and Hui Yang

Subjects

Temporal lobe epilepsy, Rev-Erbα, NLRP3 inflammasome, Neuroinflammation, Neuronal apoptosis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background A hallmark of temporal lobe epilepsy (TLE) is brain inflammation accompanied by neuronal demise. Accumulating evidence demonstrates that Rev-Erbα is involved in regulating neuroinflammation and determining the fate of neurons. Therefore, we studied the expression and cellular distribution of Rev-Erbα in the epileptogenic zone of TLE and the effect of treatment with the Rev-Erbα specific agonist SR9009 in the pilocarpine model. Methods The expression pattern of Rev-Erbα was investigated by western blotting, immunohistochemistry, and immunofluorescence labeling in patients with TLE. Next, the effects of SR9009 on neuroinflammation, neuronal apoptosis, and neuronal loss in the mouse hippocampus 7 days after status epilepticus (SE) were assessed by western blotting, immunofluorescence labeling staining, and TUNEL staining. Results The western blotting, immunohistochemistry, and immunofluorescence labeling results revealed that Rev-Erbα was downregulated in the epileptogenic zone of TLE patients and mainly localized in neurons, astrocytes, and presumably microglia. Meanwhile, the expression of Rev-Erbα was decreased in the hippocampus and temporal neocortex of mice treated with pilocarpine in the early post-SE and chronic phases. Interestingly, the expression of Rev-Erbα in the normal hippocampus showed a 24-h rhythm; however, the rhythmicity was disturbed in the early phase after SE, and this disturbance was still present in epileptic animals. Our further findings revealed that treatment with SR9009 inhibited NLRP3 inflammasome activation, inflammatory cytokine (IL-1β, IL-18, IL-6, and TNF-α) production, astrocytosis, microgliosis, and neuronal damage in the hippocampus after SE. Conclusions Taken together, these results suggested that a decrease in Rev-Erbα in the epileptogenic zone may contribute to the process of TLE and that the activation of Rev-Erbα may have anti-inflammatory and neuroprotective effects.

Published

2020

40. Period 2 Regulates CYP2B10 Expression and Activity in Mouse Liver.

Author

Chen, MengLin, Chen, Min, Lu, Danyi, Wang, Yi, Zhang, Li, Wang, Zhigang, and Wu, Baojian

Subjects

MICE, LUCIFERASES, LIVER, WESTERN immunoblotting, CYCLOPHOSPHAMIDE, DRUG metabolism, HEPATOTOXICOLOGY

Abstract

CYP2B10 is responsible for metabolism and detoxification of many clinical drugs. Here, we aimed to investigate a potential role of Period 2 (PER2) in regulating expression of hepatic CYP2B10. Regulatory effects of PER2 on hepatic expression of CYP2B10 and other enzymes were determined using Per2- deficient mice with exons 4-6 deleted (named Per2 Del4-6 mice). In vitro and in vivo metabolic activities of CYP2B10 were probed using cyclophosphamide (CPA) as a specific substrate. Regulatory mechanism was investigated using luciferase reporter assays. Genotyping and Western blotting demonstrated loss of wild-type Per2 transcript and markedly reduced PER2 protein in Per2 Del4-6 mice. Hepatic expression of a plenty of drug-metabolizing genes (including Cyp2a4/2a5 , Cyp2b10, Ugt1a1, Ugt1a9, Ugt2b36, Sult1a1 and Sult1e1) were altered (and majority were down-regulated) in Per2 Del4-6 mice. Of note, Cyp2b10, Ugt1a9 and Sult1a1 were three genes considerably affected with reduced expression. Decreased expression of CYP2B10 was translated to reduced metabolism and altered pharmacokinetics of CPA as well as attenuated CPA hepatotoxicity in Per2 Del4-6 mice. Positive regulation of CYP2B10 by PER2 was further confirmed in both Hepa-1c1c7 and AML-12 cells. Based on luciferase reporter assays, it was shown that PER2 regulated Cyp2b10 transcription in a REV-ERBα-dependent manner. REV-ERBα was negatively regulated by PER2 (increased REV-ERBα expression in Per2 Del4-6 mice) and itself was also a repressor of CYP2B10. In conclusion, PER2 positively regulates CYP2B10 expression and activity in mouse liver through inhibiting its repressor REV-ERBα. [ABSTRACT FROM AUTHOR]

Published

2021

41. Circadian rhythm‐associated Rev‐erbα modulates polarization of decidual macrophage via the PI3K/Akt signaling pathway.

Author

Cui, Liyuan, Jin, Xueling, Xu, Feng, Wang, Songcun, Liu, Lu, Li, Xinyi, Lin, Haiyan, and Du, Meirong

Subjects

*PI3K/AKT pathway, *IMMUNOREGULATION, *MACROPHAGES, *MISCARRIAGE, *PREGNANCY complications

Abstract

Problem: Circadian rhythms are involved not only in the repair and regeneration of the immune system, but may also be associated with regulation of inflammation and immune responses. Rev‐erbα could constitute a link between immunity and circadian rhythms since it is a transcription factor that regulates circadian rhythms and has functions in multiple physiological and pathological processes. Decidual macrophages (dMφs) play crucial roles in immune balance at the maternal‐fetal interface, and abnormal macrophage polarization is related to adverse pregnancy outcomes, such as infertility, recurrent spontaneous abortion, and preterm labor. However, whether Rev‐erbα could modulate the polarization of macrophages is unknown. Methods of study: In this study, we analyzed the phenotype of dMφs and the expression of Rev‐erbα in dMφs from normal pregnancies and miscarriages. The effect of Rev‐erbα on macrophage polarization was evaluated by its knockdown or pharmacological activation. The mechanism by which the Rev‐erbα agonist SR9009 regulates macrophage polarization was also estimated. Results: A type‐1 macrophage (M1)‐like dominance was observed in dMφs from human miscarriages, with a decreased expression of Rev‐erbα compared to that from normal pregnancies. Rev‐erbα knockdown promoted M1 polarization in macrophages differentiated from the THP1 cell line, whereas pharmacological activation of Rev‐erbα by SR9009 induced type‐2 macrophage (M2)‐like polarization in dMφs. Furthermore, we found that SR9009 induced M2 polarization in macrophages differentiated from the U937 cell line via the PI3K/Akt signaling pathway. Conclusion: Rev‐erbα may play an essential role in macrophage polarization. These findings might help elucidate the role of Rev‐erbα in regulating the differentiation and functions of macrophages and suggest a therapeutic target for pregnancy loss and pregnancy complications. [ABSTRACT FROM AUTHOR]

Published

2021

42. Period 2 Regulates CYP2B10 Expression and Activity in Mouse Liver

Author

MengLin Chen, Min Chen, Danyi Lu, Yi Wang, Li Zhang, Zhigang Wang, and Baojian Wu

Subjects

PER2, Cyp2b10, REV-ERBα, cyclophosphamide, drug metabolism, Therapeutics. Pharmacology, RM1-950

Abstract

CYP2B10 is responsible for metabolism and detoxification of many clinical drugs. Here, we aimed to investigate a potential role of Period 2 (PER2) in regulating expression of hepatic CYP2B10. Regulatory effects of PER2 on hepatic expression of CYP2B10 and other enzymes were determined using Per2-deficient mice with exons 4-6 deleted (named Per2Del4-6 mice). In vitro and in vivo metabolic activities of CYP2B10 were probed using cyclophosphamide (CPA) as a specific substrate. Regulatory mechanism was investigated using luciferase reporter assays. Genotyping and Western blotting demonstrated loss of wild-type Per2 transcript and markedly reduced PER2 protein in Per2Del4-6 mice. Hepatic expression of a plenty of drug-metabolizing genes (including Cyp2a4/2a5, Cyp2b10, Ugt1a1, Ugt1a9, Ugt2b36, Sult1a1 and Sult1e1) were altered (and majority were down-regulated) in Per2Del4-6 mice. Of note, Cyp2b10, Ugt1a9 and Sult1a1 were three genes considerably affected with reduced expression. Decreased expression of CYP2B10 was translated to reduced metabolism and altered pharmacokinetics of CPA as well as attenuated CPA hepatotoxicity in Per2Del4-6 mice. Positive regulation of CYP2B10 by PER2 was further confirmed in both Hepa-1c1c7 and AML-12 cells. Based on luciferase reporter assays, it was shown that PER2 regulated Cyp2b10 transcription in a REV-ERBα-dependent manner. REV-ERBα was negatively regulated by PER2 (increased REV-ERBα expression in Per2Del4-6 mice) and itself was also a repressor of CYP2B10. In conclusion, PER2 positively regulates CYP2B10 expression and activity in mouse liver through inhibiting its repressor REV-ERBα.

Published

2021

43. Dietary Conjugated Linoleic Acid Modulates the Hepatic Circadian Clock Program via PPARα/REV-ERBα-Mediated Chromatin Modification in Mice

Author

Hao-Yu Liu, Haotian Gu, Yanwei Li, Ping Hu, Yatian Yang, Kaiqi Li, Hao Li, Kexin Zhang, Bo Zhou, Huaxing Wu, Wenbin Bao, and Demin Cai

Subjects

circadian clock, metabolic physiology, nuclear receptor, PPARα, REV-ERBα, Nutrition. Foods and food supply, TX341-641

Abstract

Scope: Disruptions of circadian rhythm cause metabolic disorders and are closely related to dietary factors. In this study, we investigated the interplays between the dietary conjugated linoleic acid (CLA)-induced hepatic steatosis and the circadian clock regulation, in association with lipid homeostasis.Methods and Results: Exposure of mice to 1.5% dietary CLA for 28 days caused insulin resistance, enlarged livers, caused hepatic steatosis, and increased triglyceride levels. Transcriptional profiling showed that hepatic circadian clock genes were significantly downregulated with increased expression of the negative transcription factor, REV-ERBα. We uncovered that the nuclear receptor (NR) PPARα, as a major target of dietary CLA, drives REV-ERBα expression via its binding to key genes of the circadian clock, including Cry1 and Clock, and the recruitment of histone marks and cofactors. The PPARα or REV-ERBα inhibition blocked the physical connection of this NR pair, reduced the cobinding of PPARα and REV-ERBα to the genomic DNA response element, and abolished histone modifications in the CLA-hepatocytes. In addition, we demonstrated that CLA promotes PPARα driving REV-ERBα transcriptional activity by directly binding to the PPAR response element (PPRE) at the Nr1d1 gene.Conclusions: Our results add a layer to the understanding of the peripheral clock feedback loop, which involves the PPARα-REV-ERBα, and provide guidance for nutrients optimization in circadian physiology.

Published

2021

44. Adipocyte NR1D1 dictates adipose tissue expansion during obesity

Author

Ann Louise Hunter, Charlotte E Pelekanou, Nichola J Barron, Rebecca C Northeast, Magdalena Grudzien, Antony D Adamson, Polly Downton, Thomas Cornfield, Peter S Cunningham, Jean-Noel Billaud, Leanne Hodson, Andrew SI Loudon, Richard D Unwin, Mudassar Iqbal, David W Ray, and David A Bechtold

Subjects

circadian clock, energy metabolism, obesity, adipose, Rev-erb-alpha, Rev-erbα, Medicine, Science, Biology (General), QH301-705.5

Abstract

The circadian clock component NR1D1 (REVERBα) is considered a dominant regulator of lipid metabolism, with global Nr1d1 deletion driving dysregulation of white adipose tissue (WAT) lipogenesis and obesity. However, a similar phenotype is not observed under adipocyte-selective deletion (Nr1d1Flox2-6:AdipoqCre), and transcriptional profiling demonstrates that, under basal conditions, direct targets of NR1D1 regulation are limited, and include the circadian clock and collagen dynamics. Under high-fat diet (HFD) feeding, Nr1d1Flox2-6:AdipoqCre mice do manifest profound obesity, yet without the accompanying WAT inflammation and fibrosis exhibited by controls. Integration of the WAT NR1D1 cistrome with differential gene expression reveals broad control of metabolic processes by NR1D1 which is unmasked in the obese state. Adipocyte NR1D1 does not drive an anticipatory daily rhythm in WAT lipogenesis, but rather modulates WAT activity in response to alterations in metabolic state. Importantly, NR1D1 action in adipocytes is critical to the development of obesity-related WAT pathology and insulin resistance.

Published

2021

45. Pharmacological activation of rev-erbα suppresses LPS-induced macrophage M1 polarization and prevents pregnancy loss.

Author

Cui, Liyuan, Xu, Feng, Wang, Songcun, Li, Xinyi, Lin, Haiyan, Ding, Yan, and Du, Meirong

Subjects

*MACROPHAGES, *MISCARRIAGE, *ANIMAL disease models, *PREGNANCY, *PREGNANCY outcomes

Abstract

Background: Circadian rhythm is an important player for reproduction. Rev-erbα, a significant clock gene, is involved in regulating cell differentiation, inflammation and metabolism. Macrophage polarization plays crucial roles in immune tolerance at the maternal-fetus interface, which also modulates the initiation and resolution of inflammation. Alteration of macrophage polarization induces adverse pregnancy outcomes such as infertility, recurrent spontaneous abortion and preterm labor. Results: Decidual macrophages from LPS-induced mice abortion model displayed M1-like bias, accompanied by decreased expression of Rev-erbα. SR9009, an agonist of Rev-erbα, may reduce lipopolysaccharide (LPS)-induced M1 polarization of macrophages via activation of PI3K but not NF-κB signaling pathway. Furthermore, SR9009 could reduce M1-like polarization of decidual macrophages induced by LPS and attenuate LPS-induced resorption rates in mice model. Conclusions: Both in vivo and in vitro experiments demonstrated that the pharmacological activation of Rev-erbα using SR9009 could attenuate the effect of LPS on macrophage polarization and protect pregnancy. This study may provide a potential therapeutic strategy for miscarriage induced by inflammation. [ABSTRACT FROM AUTHOR]

Published

2021

46. Rev-erbα exacerbates hepatic steatosis in alcoholic liver diseases through regulating autophagy.

Author

Liu, Qingxue, Xu, Lei, Wu, Meifei, Zhou, Yiwen, Yang, Junfa, Huang, Cheng, Xu, Tao, Li, Jun, and Zhang, Lei

Subjects

*FATTY liver, *ALCOHOLIC liver diseases, *AUTOPHAGY, *NUCLEAR families, *LIPID metabolism, *NUCLEAR receptors (Biochemistry)

Abstract

Background and aims: Alcoholic fatty liver (AFL) is a liver disease caused by long-term excessive drinking and is characterized by hepatic steatosis. Understanding the regulatory mechanism of steatosis is essential for the treatment of AFL. Rev-erbα is a member of the Rev-erbs family of nuclear receptors, playing an important role in regulating lipid metabolism. However, its functional role in AFL and its underlying mechanism remains unclear. Results: Rev-erbα was upregulated in the liver of EtOH-fed mice and EtOH-treated L-02 cells. Further, Rev-erbα activation exacerbates steatosis in L-02 cells. Inhibition/downexpression of Rev-erbα improved steatosis. Mechanistically, autophagy activity was inhibited in vivo and vitro. Interestingly, inhibition/downexpression of Rev-erbα enhanced autophagy. Furthermore, silencing of Rev-erbα up-regulated the nuclear expression of Bmal1. Autophagy activity was inhibited and steatosis was deteriorated after EtOH-treated L-02 cells were cotransfected with Rev-erbα shRNA and Bmal1 siRNA. Conclusions: Rev-erbα induces liver steatosis, which promotes the progression of AFL. Our study reveals a novel steatosis regulatory mechanism in AFL and suggest that Rev-erbα might be a potential therapeutic target for AFL. [ABSTRACT FROM AUTHOR]

Published

2021

47. Genetic or pharmacologic blockade of mPGES-2 attenuates renal lipotoxicity and diabetic kidney disease by targeting Rev-Erbα/FABP5 signaling.

Author

Zhong, Dandan, Chen, Jingshuo, Qiao, Ranran, Song, Chang, Hao, Chang, Zou, Yingying, Bai, Mi, Su, Wen, Yang, Baoxue, Sun, Dong, Jia, Zhanjun, and Sun, Ying

Abstract

Diabetic kidney disease (DKD) is one of the most common complications of diabetes, and no specific drugs are clinically available. We have previously demonstrated that inhibiting microsomal prostaglandin E synthase-2 (mPGES-2) alleviated type 2 diabetes by enhancing β cell function and promoting insulin production. However, the involvement of mPGES-2 in DKD remains unclear. Here, we aimed to analyze the association of enhanced mPGES-2 expression with impaired metabolic homeostasis of renal lipids and subsequent renal damage. Notably, global knockout or pharmacological blockage of mPGES-2 attenuated diabetic podocyte injury and tubulointerstitial fibrosis, thereby ameliorating lipid accumulation and lipotoxicity. These findings were further confirmed in podocyte- or tubule-specific mPGES-2-deficient mice. Mechanistically, mPGES-2 and Rev-Erbα competed for heme binding to regulate fatty acid binding protein 5 expression and lipid metabolism in the diabetic kidney. Our findings suggest a potential strategy for treating DKD via mPGES-2 inhibition. [Display omitted] • mPGES-2 is induced in diabetic kidneys, resulting in impaired lipolysis and renal damage • Blockade of mPGES-2 alleviates lipotoxicity and diabetic kidney disease (DKD) • Podocyte- or tubule-specific Ptges2 KO confirms the cell-specific role of mPGES-2 in DKD • mPGES-2 contributes to the pathogenesis of DKD by acting on heme/Rev-Erbα/FABP5 axis Zhong et al. reported that induced mPGES-2 in diabetic kidney correlates with enhanced glomerular podocyte injury and tubulointerstitial fibrosis. mPGES-2 blockage inhibits FABP5 possibly via a heme-associated competition with Rev-Erbα, thereby attenuating lipotoxicity and renal injury, offering a potential target for treating diabetic kidney disease. [ABSTRACT FROM AUTHOR]

Published

2024

48. Rev-erbα Knockout Reduces Ethanol Consumption and Preference in Male and Female Mice

Author

Yasmine Al-Sabagh, Hayley Hope Allyssa Thorpe, Bryan William Jenkins, Shahnaza Hamidullah, Malik Asfandyaar Talhat, Cara Beth Suggett, Cristine Joelle Reitz, Mina Rasouli, Tami Avril Martino, and Jibran Younis Khokhar

Subjects

alcohol, circadian rhythms, REV-ERBα, NR1D1, addiction, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Alcohol use is a contributor in the premature deaths of approximately 3 million people annually. Among the risk factors for alcohol misuse is circadian rhythm disruption; however, this connection remains poorly understood. Inhibition of the circadian nuclear receptor REV-ERBα is known to disrupt molecular feedback loops integral to daily oscillations, and impact diurnal fluctuations in the expression of proteins required for reward-related neurotransmission. However, the role of REV-ERBα in alcohol and substance use-related phenotypes is unknown. Herein, we used a Rev-erbα knockout mouse line and ethanol two-bottle choice preference testing to show that disruption of Rev-erbα reduces ethanol preference in male and female mice. Rev-erbα null mice showed the lowest ethanol preference in a two-bottle choice test across all genotypes, whereas there were no ethanol preference differences between heterozygotes and wildtypes. In a separate experiment, alcohol-consuming wildtype C57Bl/6N mice were administered the REV-ERBα/β inhibitor SR8278 (25 mg/kg or 50 mg/kg) for 7 days and alcohol preference was evaluated daily. No differences in alcohol preference were observed between the treatment and vehicle groups. Our data provides evidence that genetic variation in REV-ERBα may contribute to differences in alcohol drinking.

Published

2022

49. REV-ERBα negatively regulates NLRP6 transcription and reduces the severity of Salmonella infection in mice.

Author

Sun L, Huang K, Deng Q, Zhu Y, Cao Y, Dong K, Yang S, Li Y, Wu S, and Huang R

Abstract

Non-typhoidal Salmonella infection is among the most frequent foodborne diseases threatening human health worldwide. The host circadian clock orchestrates daily rhythms to adapt to environmental changes, including coordinating immune function in response to potential infections. However, the molecular mechanisms underlying the interplay between the circadian clock and the immune system in modulating infection processes are incompletely understood. Here, we demonstrate that NLRP6, a novel nucleotide-oligomerization domain (NOD)-like receptor (NLR) family member highly expressed in the intestine, is closely associated with the differential day-night response to Salmonella infection. The core clock component REV-ERBα negatively regulates NLRP6 transcription, leading to the rhythmic expression of NLRP6 and the secretion of IL-18 in intestinal epithelial cells, playing a crucial role in mediating the differential day-night response to Salmonella infection. Activating REV-ERBα with agonist SR9009 in wild-type mice attenuated the severity of infection by decreasing the NLRP6 level in intestinal epithelial cells. Our findings provide new insights into the association between the host circadian clock and the immune response to enteric infections by revealing the regulation of Salmonella infection via the inhibitory effect of REV-ERBα on NLRP6 transcription. Targeting REV-ERBα to modulate NLRP6 activation may be a potential therapeutic strategy for bacterial infections., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

50. Chronopharmacological targeting of Rev-erbα by puerarin alleviates hyperhomocysteinemia in mice

Author

Min Chen, Cui Zhou, Haiman Xu, Tianpeng Zhang, and Baojian Wu

Subjects

Hyperhomocysteinemia, Puerarin, Rev-erbα, Chronotherapeutics, Circadian clock, Therapeutics. Pharmacology, RM1-950

Abstract

Hyperhomocysteinemia is associated with poor health, including cardiovascular and brain diseases. Puerarin, initially isolated from Puerariae radix, has been shown to possess anti-hyperhomocysteinemia effect. However, the mechanism of puerarin action remains unknown. Here, we uncovered that puerarin targeted the circadian clock protein Rev-erbα to alleviate hyperhomocysteinemia in mice in a circadian time-dependent manner. We first identified puerarin as an antagonist of Rev-erbα based on luciferase reporter, Gal4 co-transfection and target gene expression assays. Consistent with an antagonistic effect, puerarin induced mRNA and protein expressions of Bhmt, Cbs and Cth (three enzymes involved in homocysteine catabolism and known targets of Rev-erbα) in Hepa-1c1c7 cells. These induction effects of puerarin were lost in Rev-erbα-deficient cells. Furthermore, puerarin dose-dependently alleviated methionine-induced hyperhomocysteinemia in mice as evidenced by decreased levels of total homocysteine and triglyceride. This was accompanied by increased expressions of Bhmt, Cbs and Cth in the liver. Moreover, puerarin dosed at ZT10 generated stronger pharmacological effects than drug dosed at ZT22 consistent with diurnally rhythmic expression of Rev-erbα (a high expression at ZT10 and a low expression at ZT22). In conclusion, puerarin targets Rev-erbα to alleviate hyperhomocysteinemia in mice in a circadian time-dependent manner. The finding of a circadian gene as drug target encourages chronotherapeutic practices on puerarin and related medications for optimized efficacy.

Published

2020