Your search keyword '"Michael Lazarus"' showing total 141 results

1. Optochemical control of slow-wave sleep in the nucleus accumbens of male mice by a photoactivatable allosteric modulator of adenosine A2A receptors

Author

Koustav Roy, Xuzhao Zhou, Rintaro Otani, Ping-Chuan Yuan, Shuji Ioka, Kaspar E. Vogt, Tamae Kondo, Nouran H. T. Farag, Haruto Ijiri, Zhaofa Wu, Youhei Chitose, Mao Amezawa, David S. Uygun, Yoan Cherasse, Hiroshi Nagase, Yulong Li, Masashi Yanagisawa, Manabu Abe, Radhika Basheer, Yi-Qun Wang, Tsuyoshi Saitoh, and Michael Lazarus

Subjects

Science

Abstract

Abstract Optochemistry, an emerging pharmacologic approach in which light is used to selectively activate or deactivate molecules, has the potential to alleviate symptoms, cure diseases, and improve quality of life while preventing uncontrolled drug effects. The development of in-vivo applications for optochemistry to render brain cells photoresponsive without relying on genetic engineering has been progressing slowly. The nucleus accumbens (NAc) is a region for the regulation of slow-wave sleep (SWS) through the integration of motivational stimuli. Adenosine emerges as a promising candidate molecule for activating indirect pathway neurons of the NAc expressing adenosine A2A receptors (A2ARs) to induce SWS. Here, we developed a brain-permeable positive allosteric modulator of A2ARs (A2AR PAM) that can be rapidly photoactivated with visible light (λ > 400 nm) and used it optoallosterically to induce SWS in the NAc of freely behaving male mice by increasing the activity of extracellular adenosine derived from astrocytic and neuronal activity.

Published

2024

2. Parasubthalamic calretinin neurons modulate wakefulness associated with exploration in male mice

Author

Han Guo, Jian-Bo Jiang, Wei Xu, Mu-Tian Zhang, Hui Chen, Huan-Ying Shi, Lu Wang, Miao He, Michael Lazarus, Shan-Qun Li, Zhi-Li Huang, and Wei-Min Qu

Subjects

Science

Abstract

Abstract The parasubthalamic nucleus (PSTN) is considered to be involved in motivation, feeding and hunting, all of which are highly depending on wakefulness. However, the roles and underlying neural circuits of the PSTN in wakefulness remain unclear. Neurons expressing calretinin (CR) account for the majority of PSTN neurons. In this study in male mice, fiber photometry recordings showed that the activity of PSTNCR neurons increased at the transitions from non-rapid eye movement (non-REM, NREM) sleep to either wakefulness or REM sleep, as well as exploratory behavior. Chemogenetic and optogenetic experiments demonstrated that PSTNCR neurons were necessary for initiating and/or maintaining arousal associated with exploration. Photoactivation of projections of PSTNCR neurons revealed that they regulated exploration-related wakefulness by innervating the ventral tegmental area. Collectively, our findings indicate that PSTNCR circuitry is essential for the induction and maintenance of the awake state associated with exploration.

Published

2023

3. Error-related signaling in nucleus accumbens D2 receptor-expressing neurons guides inhibition-based choice behavior in mice

Author

Tadaaki Nishioka, Suthinee Attachaipanich, Kosuke Hamaguchi, Michael Lazarus, Alban de Kerchove d’Exaerde, Tom Macpherson, and Takatoshi Hikida

Subjects

Science

Abstract

Abstract Learned associations between environmental cues and the outcomes they predict (cue-outcome associations) play a major role in behavioral control, guiding not only which responses we should perform, but also which we should inhibit, in order to achieve a specific goal. The encoding of such cue-outcome associations, as well as the performance of cue-guided choice behavior, is thought to involve dopamine D1 and D2 receptor-expressing medium spiny neurons (D1-/D2-MSNs) of the nucleus accumbens (NAc). Here, using a visual discrimination task in male mice, we assessed the role of NAc D1-/D2-MSNs in cue-guided inhibition of inappropriate responding. Cell-type specific neuronal silencing and in-vivo imaging revealed NAc D2-MSNs to contribute to inhibiting behavioral responses, with activation of NAc D2-MSNs following response errors playing an important role in optimizing future choice behavior. Our findings indicate that error-signaling by NAc D2-MSNs contributes to the ability to use environmental cues to inhibit inappropriate behavior.

Published

2023

4. A cluster of mesopontine GABAergic neurons suppresses REM sleep and curbs cataplexy

Author

Ze-Ka Chen, Hui Dong, Cheng-Wei Liu, Wen-Ying Liu, Ya-Nan Zhao, Wei Xu, Xiao Sun, Yan-Yu Xiong, Yuan-Yuan Liu, Xiang-Shan Yuan, Bing Wang, Michael Lazarus, Yoan Chérasse, Ya-Dong Li, Fang Han, Wei-Min Qu, Feng-Fei Ding, and Zhi-Li Huang

Subjects

Cytology, QH573-671

Abstract

Abstract Physiological rapid eye movement (REM) sleep termination is vital for initiating non-REM (NREM) sleep or arousal, whereas the suppression of excessive REM sleep is promising in treating narcolepsy. However, the neuronal mechanisms controlling REM sleep termination and keeping sleep continuation remain largely unknown. Here, we reveal a key brainstem region of GABAergic neurons in the control of both physiological REM sleep and cataplexy. Using fiber photometry and optic tetrode recording, we characterized the dorsal part of the deep mesencephalic nucleus (dDpMe) GABAergic neurons as REM relatively inactive and two different firing patterns under spontaneous sleep–wake cycles. Next, we investigated the roles of dDpMe GABAergic neuronal circuits in brain state regulation using optogenetics, RNA interference technology, and celltype-specific lesion. Physiologically, dDpMe GABAergic neurons causally suppressed REM sleep and promoted NREM sleep through the sublaterodorsal nucleus and lateral hypothalamus. In-depth studies of neural circuits revealed that sublaterodorsal nucleus glutamatergic neurons were essential for REM sleep termination by dDpMe GABAergic neurons. In addition, dDpMe GABAergic neurons efficiently suppressed cataplexy in a rodent model. Our results demonstrated that dDpMe GABAergic neurons controlled REM sleep termination along with REM/NREM transitions and represented a novel potential target to treat narcolepsy.

Published

2022

5. Lateral habenula glutamatergic neurons projecting to the dorsal raphe nucleus promote aggressive arousal in mice

Author

Aki Takahashi, Romain Durand-de Cuttoli, Meghan E. Flanigan, Emi Hasegawa, Tomomi Tsunematsu, Hossein Aleyasin, Yoan Cherasse, Ken Miya, Takuya Okada, Kazuko Keino-Masu, Koshiro Mitsui, Long Li, Vishwendra Patel, Robert D. Blitzer, Michael Lazarus, Kenji F. Tanaka, Akihiro Yamanaka, Takeshi Sakurai, Sonoko Ogawa, and Scott J. Russo

Subjects

Science

Abstract

The dorsal raphe nucleus (DRN) is known to modulate aggressive behaviour in rodents. Here the authors show that glutamatergic projections from the lateral habenula to DRN modulate aggression between male mice.

Published

2022

6. Positive allosteric adenosine A2A receptor modulation suppresses insomnia associated with mania- and schizophrenia-like behaviors in mice

Author

Yang Lin, Koustav Roy, Shuji Ioka, Rintaro Otani, Mao Amezawa, Yukiko Ishikawa, Yoan Cherasse, Mahesh K. Kaushik, Daniela Klewe-Nebenius, Li Zhou, Masashi Yanagisawa, Yo Oishi, Tsuyoshi Saitoh, and Michael Lazarus

Subjects

sleep disorder, REM sleep, wakefulness, dopamine, neuroleptics, EEG, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Insomnia is associated with psychiatric illnesses such as bipolar disorder or schizophrenia. Treating insomnia improves psychotic symptoms severity, quality of life, and functional outcomes. Patients with psychiatric disorders are often dissatisfied with the available therapeutic options for their insomnia. In contrast, positive allosteric modulation of adenosine A2A receptors (A2ARs) leads to slow-wave sleep without cardiovascular side effects in contrast to A2AR agonists.Methods: We investigated the hypnotic effects of A2AR positive allosteric modulators (PAMs) in mice with mania-like behavior produced by ablating GABAergic neurons in the ventral medial midbrain/pons area and in a mouse model of schizophrenia by knocking out of microtubule-associated protein 6. We also compared the properties of sleep induced by A2AR PAMs in mice with mania-like behavior with those induced by DORA-22, a dual orexin receptor antagonist that improves sleep in pre-clinical models, and the benzodiazepine diazepam.Results: A2AR PAMs suppress insomnia associated with mania- or schizophrenia-like behaviors in mice. A2AR PAM-mediated suppression of insomnia in mice with mania-like behavior was similar to that mediated by DORA-22, and, unlike diazepam, did not result in abnormal sleep.Conclusion: A2AR allosteric modulation may represent a new therapeutic avenue for sleep disruption associated with bipolar disorder or psychosis.

Published

2023

7. Adenosine and P1 receptors: Key targets in the regulation of sleep, torpor, and hibernation

Author

Wei-Xiang Ma, Ping-Chuan Yuan, Hui Zhang, Ling-Xi Kong, Michael Lazarus, Wei-Min Qu, Yi-Qun Wang, and Zhi-Li Huang

Subjects

adenosine, P1 receptors, hibernation, sleep, torpor, Therapeutics. Pharmacology, RM1-950

Abstract

Sleep, torpor, and hibernation are three distinct hypometabolic states. However, they have some similar physiological features, such as decreased core body temperature and slowing heart rate. In addition, the accumulation of adenosine seems to be a common feature before entry into these three states, suggesting that adenosine and its receptors, also known as P1 receptors, may mediate the initiation and maintenance of these states. This review, therefore, summarizes the current research on the roles and possible neurobiological mechanisms of adenosine and P1 receptors in sleep, torpor, and hibernation. Understanding these aspects will give us better prospects in sleep disorders, therapeutic hypothermia, and aerospace medicine.

Published

2023

8. Distribution pattern and molecular signature of cholinergic tuft cells in human gastro-intestinal and pancreatic-biliary tract

Author

Burkhard Schütz, Anna-Lena Ruppert, Oliver Strobel, Michael Lazarus, Yoshihiro Urade, Markus W. Büchler, and Eberhard Weihe

Subjects

Medicine, Science

Abstract

Abstract Despite considerable recent insight into the molecular phenotypes and type 2 innate immune functions of tuft cells in rodents, there is sparse knowledge about the region-specific presence and molecular phenotypes of tuft cells in the human digestive tract. Here, we traced cholinergic tuft cells throughout the human alimentary tract with immunohistochemistry and deciphered their region-specific distribution and biomolecule coexistence patterns. While absent from the human stomach, cholinergic tuft cells localized to villi and crypts in the small and large intestines. In the biliary tract, they were present in the epithelium of extra-hepatic peribiliary glands, but not observed in the epithelia of the gall bladder and the common duct of the biliary tract. In the pancreas, solitary cholinergic tuft cells were frequently observed in the epithelia of small and medium-size intra- and inter-lobular ducts, while they were absent from acinar cells and from the main pancreatic duct. Double immunofluorescence revealed co-expression of choline acetyltransferase with structural (cytokeratin 18, villin, advillin) tuft cell markers and eicosanoid signaling (cyclooxygenase 1, hematopoietic prostaglandin D synthase, 5-lipoxygenase activating protein) biomolecules. Our results indicate that region-specific cholinergic signaling of tuft cells plays a role in mucosal immunity in health and disease, especially in infection and cancer.

Published

2019

9. Medial Parabrachial Nucleus Is Essential in Controlling Wakefulness in Rats

Author

Qi Xu, Dian-Ru Wang, Hui Dong, Li Chen, Jun Lu, Michael Lazarus, Yoan Cherasse, Gui-Hai Chen, Wei-Min Qu, and Zhi-Li Huang

Subjects

chemogenetics, glutamatergic neurons, optogenetics, parabrachial nucleus, rat, wakefulness, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Activation of the parabrachial nucleus (PB) in the brainstem induced wakefulness in rats, suggesting which is an important nucleus that controls arousal. However, the sub-regions of PB in regulating sleep-wake cycle is still unclear. Here, we employ chemogenetics and optogenetics strategies and find that activation of the medial part of PB (MPB), but not the lateral part, induces continuous wakefulness for 10 h without sleep rebound in neither sleep amount nor the power spectra. Optogenetic activation of glutamatergic MPB neurons in sleeping rats immediately wake rats mediated by the basal forebrain (BF) and lateral hypothalamus (LH), but not the ventral medial thalamus. Most importantly, chemogenetic inhibition of PB neurons decreases wakefulness for 10 h. Conclusively, these findings indicate that the glutamatergic MPB neurons are essential in controlling wakefulness, and that MPB-BF and MPB-LH pathways are the major neuronal circuits.

Published

2021

10. Niacin ameliorates ulcerative colitis via prostaglandin D2‐mediated D prostanoid receptor 1 activation

Author

Juanjuan Li, Deping Kong, Qi Wang, Wei Wu, Yanping Tang, Tingting Bai, Liang Guo, Lumin Wei, Qianqian Zhang, Yu Yu, Yuting Qian, Shengkai Zuo, Guizhu Liu, Qian Liu, Sheng Wu, Yi Zang, Qian Zhu, Daile Jia, Yuanyang Wang, Weiyan Yao, Yong Ji, Huiyong Yin, Masataka Nakamura, Michael Lazarus, Richard M Breyer, Lifu Wang, and Ying Yu

Subjects

Medicine (General), R5-920, Genetics, QH426-470

Published

2020

11. Editorial: The Gating and Maintenance of Sleep and Wake: New Circuits and Insights

Author

Michael Lazarus, Yu Hayashi, Sakiko Honjoh, Kaspar E. Vogt, Ada Eban-Rothschild, Qinghua Liu, and Takeshi Sakurai

Subjects

sleep, sleep need, arousal, sleep-wake cycle, wakefulness, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2020

12. Ablation of Ventral Midbrain/Pons GABA Neurons Induces Mania-like Behaviors with Altered Sleep Homeostasis and Dopamine D2R-mediated Sleep Reduction

Author

Takato Honda, Yohko Takata, Yoan Cherasse, Seiya Mizuno, Fumihiro Sugiyama, Satoru Takahashi, Hiromasa Funato, Masashi Yanagisawa, Michael Lazarus, and Yo Oishi

Subjects

Neuroscience, Behavioral Neuroscience, Cellular Neuroscience, Science

Abstract

Summary: Individuals with the neuropsychiatric disorder mania exhibit hyperactivity, elevated mood, and a decreased need for sleep. The brain areas and neuronal populations involved in mania-like behaviors, however, have not been elucidated. In this study, we found that ablating the ventral medial midbrain/pons (VMP) GABAergic neurons induced mania-like behaviors in mice, including hyperactivity, anti-depressive behaviors, reduced anxiety, increased risk-taking behaviors, distractibility, and an extremely shortened sleep time. Strikingly, these mice also showed no rebound sleep after sleep deprivation, suggesting abnormal sleep homeostatic regulation. Dopamine D2 receptor deficiency largely abolished the sleep reduction induced by ablating the VMP GABAergic neurons without affecting the hyperactivity and anti-depressive behaviors. Our data demonstrate that VMP GABAergic neurons are involved in the expression of mania-like behaviors, which can be segregated to the short-sleep and other phenotypes on the basis of the dopamine D2 receptors.

Published

2020

13. Supramammillary nucleus synchronizes with dentate gyrus to regulate spatial memory retrieval through glutamate release

Author

Yadong Li, Hechen Bao, Yanjia Luo, Cherasse Yoan, Heather Anne Sullivan, Luis Quintanilla, Ian Wickersham, Michael Lazarus, Yen-Yu Ian Shih, and Juan Song

Subjects

SuM-DG correlation, memory encoding, memory retrieval, calcium imaging, fiber photometry, SuM glutamate transmission, Medicine, Science, Biology (General), QH301-705.5

Abstract

The supramammillary nucleus (SuM) provides substantial innervation to the dentate gyrus (DG). It remains unknown how the SuM and DG coordinate their activities at the circuit level to regulate spatial memory. Additionally, SuM co-releases GABA and glutamate to the DG, but the relative role of GABA versus glutamate in regulating spatial memory remains unknown. Here we report that SuM-DG Ca2+ activities are highly correlated during spatial memory retrieval as compared to the moderate correlation during memory encoding when mice are performing a location discrimination task. Supporting this evidence, we demonstrate that the activity of SuM neurons or SuM-DG projections is required for spatial memory retrieval. Furthermore, we show that SuM glutamate transmission is necessary for both spatial memory retrieval and highly-correlated SuM-DG activities during spatial memory retrieval. Our studies identify a long-range SuM-DG circuit linking two highly correlated subcortical regions to regulate spatial memory retrieval through SuM glutamate release.

Published

2020

14. Allosteric Modulation of Adenosine A2A Receptors as a New Therapeutic Avenue

Author

Mustafa Korkutata, Lokesh Agrawal, and Michael Lazarus

Subjects

adenosine A2A receptors, allosteric modulator, insomnia, slow-wave sleep, inflammation, cardiovascular function, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The therapeutic potential of targeting adenosine A2A receptors (A2ARs) is immense due to their broad expression in the body and central nervous system. The role of A2ARs in cardiovascular function, inflammation, sleep/wake behaviors, cognition, and other primary nervous system functions has been extensively studied. Numerous A2AR agonist and antagonist molecules are reported, many of which are currently in clinical trials or have already been approved for treatment. Allosteric modulators can selectively elicit a physiologic response only where and when the orthosteric ligand is released, which reduces the risk of an adverse effect resulting from A2AR activation. Thus, these allosteric modulators have a potential therapeutic advantage over classical agonist and antagonist molecules. This review focuses on the recent developments regarding allosteric A2AR modulation, which is a promising area for future pharmaceutical research because the list of existing allosteric A2AR modulators and their physiologic effects is still short.

Published

2022

15. Nucleus accumbens controls wakefulness by a subpopulation of neurons expressing dopamine D1 receptors

Author

Yan-Jia Luo, Ya-Dong Li, Lu Wang, Su-Rong Yang, Xiang-Shan Yuan, Juan Wang, Yoan Cherasse, Michael Lazarus, Jiang-Fan Chen, Wei-Min Qu, and Zhi-Li Huang

Subjects

Science

Abstract

The nucleus accumbens regulates many behaviours that depend on arousal. Here the authors show that dopamine D1 receptor neurons in the nucleus accumbens can directly regulate wakefulness.

Published

2018

16. Ventromedial medulla inhibitory neuron inactivation induces REM sleep without atonia and REM sleep behavior disorder

Author

Sara Valencia Garcia, Frédéric Brischoux, Olivier Clément, Paul-Antoine Libourel, Sébastien Arthaud, Michael Lazarus, Pierre-Hervé Luppi, and Patrice Fort

Subjects

Science

Abstract

Loss of muscle tone is a distinguishing feature of paradoxical or REM sleep (PS) and is disrupted in REM sleep behavior disorder. Here the authors report that GABA/glycine inhibitory neurons in the ventromedial medulla are essential for producing PS muscle atonia without affecting PS quantity.

Published

2018

17. Slow-wave sleep is controlled by a subset of nucleus accumbens core neurons in mice

Author

Yo Oishi, Qi Xu, Lu Wang, Bin-Jia Zhang, Koji Takahashi, Yohko Takata, Yan-Jia Luo, Yoan Cherasse, Serge N. Schiffmann, Alban de Kerchove d’Exaerde, Yoshihiro Urade, Wei-Min Qu, Zhi-Li Huang, and Michael Lazarus

Subjects

Science

Abstract

In addition to circadian and homoeostatic drives, motivational levels influence sleep−wake cycles. Here the authors demonstrate that adenosine receptor-expressing neurons in the nucleus accumbens core that project to the ventral pallidum are inhibited by motivational stimuli and are causally involved in the control of slow-wave sleep.

Published

2017

18. Niacin ameliorates ulcerative colitis via prostaglandin D2‐mediated D prostanoid receptor 1 activation

Author

Juanjuan Li, Deping Kong, Qi Wang, Wei Wu, Yanping Tang, Tingting Bai, Liang Guo, Lumin Wei, Qianqian Zhang, Yu Yu, Yuting Qian, Shengkai Zuo, Guizhu Liu, Qian Liu, Sheng Wu, Yi Zang, Qian Zhu, Daile Jia, Yuanyang Wang, Weiyan Yao, Yong Ji, Huiyong Yin, Masataka Nakamura, Michael Lazarus, Richard M Breyer, Lifu Wang, and Ying Yu

Subjects

DP1 receptor, niacin, prostaglandin, retention enema, ulcerative colitis, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Niacin, as an antidyslipidemic drug, elicits a strong flushing response by release of prostaglandin (PG) D2. However, whether niacin is beneficial for inflammatory bowel disease (IBD) remains unclear. Here, we observed niacin administration‐enhanced PGD2 production in colon tissues in dextran sulfate sodium (DSS)‐challenged mice, and protected mice against DSS or 2,4,6‐trinitrobenzene sulfonic acid (TNBS)‐induced colitis in D prostanoid receptor 1 (DP1)‐dependent manner. Specific ablation of DP1 receptor in vascular endothelial cells, colonic epithelium, and myeloid cells augmented DSS/TNBS‐induced colitis in mice through increasing vascular permeability, promoting apoptosis of epithelial cells, and stimulating pro‐inflammatory cytokine secretion of macrophages, respectively. Niacin treatment improved vascular permeability, reduced apoptotic epithelial cells, promoted epithelial cell update, and suppressed pro‐inflammatory gene expression of macrophages. Moreover, treatment with niacin‐containing retention enema effectively promoted UC clinical remission and mucosal healing in patients with moderately active disease. Therefore, niacin displayed multiple beneficial effects on DSS/TNBS‐induced colitis in mice by activation of PGD2/DP1 axis. The potential efficacy of niacin in management of IBD warrants further investigation.

Published

2017

19. Activation of E-prostanoid 3 receptor in macrophages facilitates cardiac healing after myocardial infarction

Author

Juan Tang, Yujun Shen, Guilin Chen, Qiangyou Wan, Kai Wang, Jian Zhang, Jing Qin, Guizhu Liu, Shengkai Zuo, Bo Tao, Yu Yu, Junwen Wang, Michael Lazarus, and Ying Yu

Subjects

Science

Abstract

Acute myocardial infarction (AMI) triggers sterile inflammatory reaction mediated by prostaglandin E2 (PGE2). Tang et al. show that the PGE2 via its receptor EP3 promotes cardiac healing after AMI by recruiting reparative Ly6Clowmonocytes/macrophages, which is mediated by TGF-β-driven regulation of CX3CR1 expression and VEGF secretion.

Published

2017

20. Gating and the Need for Sleep: Dissociable Effects of Adenosine A1 and A2A Receptors

Author

Michael Lazarus, Yo Oishi, Theresa E. Bjorness, and Robert W. Greene

Subjects

adenosine, slow-wave sleep, A2A receptor, A1 receptor, slow-wave activity, sleep homeostasis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Roughly one-third of the human lifetime is spent in sleep, yet the reason for sleep remains unclear. Understanding the physiologic function of sleep is crucial toward establishing optimal health. Several proposed concepts address different aspects of sleep physiology, including humoral and circuit-based theories of sleep-wake regulation, the homeostatic two-process model of sleep regulation, the theory of sleep as a state of adaptive inactivity, and observations that arousal state and sleep homeostasis can be dissociated in pathologic disorders. Currently, there is no model that places the regulation of arousal and sleep homeostasis in a unified conceptual framework. Adenosine is well known as a somnogenic substance that affects normal sleep-wake patterns through several mechanisms in various brain locations via A1 or A2A receptors (A1Rs or A2ARs). Many cells and processes appear to play a role in modulating the extracellular concentration of adenosine at neuronal A1R or A2AR sites. Emerging evidence suggests that A1Rs and A2ARs have different roles in the regulation of sleep. In this review, we propose a model in which A2ARs allow the brain to sleep, i.e., these receptors provide sleep gating, whereas A1Rs modulate the function of sleep, i.e., these receptors are essential for the expression and resolution of sleep need. In this model, sleep is considered a brain state established in the absence of arousing inputs.

Published

2019

21. Acute Social Defeat Stress Increases Sleep in Mice

Author

Shinya Fujii, Mahesh K. Kaushik, Xuzhao Zhou, Mustafa Korkutata, and Michael Lazarus

Subjects

social defeat stress, slow-wave sleep, homeostatic sleep need, mouse model, slow-wave activity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Social conflict is a major source of stress in humans. Animals also experience social conflicts and cope with them by stress responses that facilitate arousal and activate sympathetic and neuroendocrine systems. The effect of acute social defeat (SoD) stress on the sleep/wake behavior of mice has been reported in several models based on a resident-intruder paradigm. However, the post-SoD stress sleep/wake effects vary between the studies and the contribution of specific effects in response to SoD or non-specific effects of the SoD procedure (e.g., sleep deprivation) is not well established. In this study, we established a mouse model of acute SoD stress based on strong aggressive mouse behavior toward unfamiliar intruders. In our model, we prevented severe attacks of resident mice on submissive intruder mice to minimize behavioral variations during SoD. In response to SoD, slow-wave sleep (SWS) strongly increased during 9 h. Although some sleep changes after SoD stress can be attributed to non-specific effects of the SoD procedure, most of the SWS increase is likely a specific response to SoD. Slow-wave activity was only enhanced for a short period after SoD and dissipated long before the SWS returned to baseline. Moreover, SoD evoked a strong corticosterone response that may indicate a high stress level in the intruder mice after SoD. Our SoD model may be useful for studying the mechanisms and functions of sleep in response to social stress.

Published

2019

22. The rostromedial tegmental nucleus is essential for non-rapid eye movement sleep.

Author

Su-Rong Yang, Zhen-Zhen Hu, Yan-Jia Luo, Ya-Nan Zhao, Huan-Xin Sun, Dou Yin, Chen-Yao Wang, Yu-Dong Yan, Dian-Ru Wang, Xiang-Shan Yuan, Chen-Bo Ye, Wei Guo, Wei-Min Qu, Yoan Cherasse, Michael Lazarus, Yu-Qiang Ding, and Zhi-Li Huang

Subjects

Biology (General), QH301-705.5

Abstract

The rostromedial tegmental nucleus (RMTg), also called the GABAergic tail of the ventral tegmental area, projects to the midbrain dopaminergic system, dorsal raphe nucleus, locus coeruleus, and other regions. Whether the RMTg is involved in sleep-wake regulation is unknown. In the present study, pharmacogenetic activation of rat RMTg neurons promoted non-rapid eye movement (NREM) sleep with increased slow-wave activity (SWA). Conversely, rats after neurotoxic lesions of 8 or 16 days showed decreased NREM sleep with reduced SWA at lights on. The reduced SWA persisted at least 25 days after lesions. Similarly, pharmacological and pharmacogenetic inactivation of rat RMTg neurons decreased NREM sleep. Electrophysiological experiments combined with optogenetics showed a direct inhibitory connection between the terminals of RMTg neurons and midbrain dopaminergic neurons. The bidirectional effects of the RMTg on the sleep-wake cycle were mimicked by the modulation of ventral tegmental area (VTA)/substantia nigra compacta (SNc) dopaminergic neuronal activity using a pharmacogenetic approach. Furthermore, during the 2-hour recovery period following 6-hour sleep deprivation, the amount of NREM sleep in both the lesion and control rats was significantly increased compared with baseline levels; however, only the control rats showed a significant increase in SWA compared with baseline levels. Collectively, our findings reveal an essential role of the RMTg in the promotion of NREM sleep and homeostatic regulation.

Published

2018

23. Striatal adenosine A2A receptor neurons control active-period sleep via parvalbumin neurons in external globus pallidus

Author

Xiang-Shan Yuan, Lu Wang, Hui Dong, Wei-Min Qu, Su-Rong Yang, Yoan Cherasse, Michael Lazarus, Serge N Schiffmann, Alban de Kerchove d'Exaerde, Rui-Xi Li, and Zhi-Li Huang

Subjects

striatum, A2A receptor, sleep, chemogenetics, optogenetics, Medicine, Science, Biology (General), QH301-705.5

Abstract

Dysfunction of the striatum is frequently associated with sleep disturbances. However, its role in sleep-wake regulation has been paid little attention even though the striatum densely expresses adenosine A2A receptors (A2ARs), which are essential for adenosine-induced sleep. Here we showed that chemogenetic activation of A2AR neurons in specific subregions of the striatum induced a remarkable increase in non-rapid eye movement (NREM) sleep. Anatomical mapping and immunoelectron microscopy revealed that striatal A2AR neurons innervated the external globus pallidus (GPe) in a topographically organized manner and preferentially formed inhibitory synapses with GPe parvalbumin (PV) neurons. Moreover, lesions of GPe PV neurons abolished the sleep-promoting effect of striatal A2AR neurons. In addition, chemogenetic inhibition of striatal A2AR neurons led to a significant decrease of NREM sleep at active period, but not inactive period of mice. These findings reveal a prominent contribution of striatal A2AR neuron/GPe PV neuron circuit in sleep control.

Published

2017

24. Chemogenetic inhibition of the medial prefrontal cortex reverses the effects of REM sleep loss on sucrose consumption

Author

Kristopher McEown, Yohko Takata, Yoan Cherasse, Nanae Nagata, Kosuke Aritake, and Michael Lazarus

Subjects

REM sleep, appetite, reward anticipation, paradoxical sleep, prefrontal cortex, Medicine, Science, Biology (General), QH301-705.5

Abstract

Rapid eye movement (REM) sleep loss is associated with increased consumption of weight-promoting foods. The prefrontal cortex (PFC) is thought to mediate reward anticipation. However, the precise role of the PFC in mediating reward responses to highly palatable foods (HPF) after REM sleep deprivation is unclear. We selectively reduced REM sleep in mice over a 25–48 hr period and chemogenetically inhibited the medial PFC (mPFC) by using an altered glutamate-gated and ivermectin-gated chloride channel that facilitated neuronal inhibition through hyperpolarizing infected neurons. HPF consumption was measured while the mPFC was inactivated and REM sleep loss was induced. We found that REM sleep loss increased HPF consumption compared to control animals. However, mPFC inactivation reversed the effect of REM sleep loss on sucrose consumption without affecting fat consumption. Our findings provide, for the first time, a causal link between REM sleep, mPFC function and HPF consumption.

Published

2016

25. Assessing carbon lock-in

Author

Peter Erickson, Sivan Kartha, Michael Lazarus, and Kevin Tempest

Subjects

carbon lock-in, path dependency, scenario analysis, climate policy, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

The term ‘carbon lock-in’ refers to the tendency for certain carbon-intensive technological systems to persist over time, ‘locking out’ lower-carbon alternatives, and owing to a combination of linked technical, economic, and institutional factors. These technologies may be costly to build, but relatively inexpensive to operate and, over time, they reinforce political, market, and social factors that make it difficult to move away from, or ‘unlock’ them. As a result, by investing in assets prone to lock-in, planners and investors restrict future flexibility and increase the costs of achieving agreed climate protection goals. Here, we develop a straight-forward approach to assess the speed, strength, and scale of carbon lock-in for major energy-consuming assets in the power, buildings, industry, and transport sectors. We pilot the approach at the global level, finding that carbon lock-in is greatest, globally, for coal power plants, gas power plants, and oil-based vehicles. The approach can be readily applied at the national or regional scale, and may be of particular relevance to policymakers interested in enhancing flexibility in their jurisdictions for deeper emissions cuts in the future, and therefore in limiting the future costs associated with ‘stranded assets’.

Published

2015

26. Alienation and action in the young Marx, Aristotle, and Arendt

Author

Michael Lazarus

Subjects

General Medicine

Published

2022

27. From shipwreck to commodity exchange: Robinson Crusoe, Hegel and Marx

Author

Michael Lazarus

Subjects

Philosophy, Sociology and Political Science

Abstract

Robinson Crusoe is a mythic character who lives not only in the popular imaginary but through the history of political and social thought. Defoe’s protagonist lives marooned on his island, isolated and apart from society. The narrative is a perfect naturalisation of the ‘bourgeois’ world, dependent on an ontology of the self-sufficient individual. This article analyses this lineage in the social contract theory of Hobbes, Locke and Rousseau. Later, Hegel used the novel to illustrate his dialectic of mastery/servitude. Challenging the atomism of the state of nature, Hegel’s theory of recognition gives an account of positive freedom, where the individual is formed in and through social interdependence. This sociality is continued by Marx, who satirises Defoe's novel in his value-form critique of political economy. The value-form provides insight into Robinson's island labour and Marx's difference with Locke's labour theory of value. For Marx, the myth of ‘natural man’ hides the domination of capitalist development and Robinson Crusoe reflects the internalisation of the abstract rationality of commodity society. However, Marx's immanent critique of the novel points to a radical idea of social life and freedom.

Published

2022

28. Adenosine A2A receptors and sleep

Author

Mustafa Korkutata and Michael Lazarus

Published

2023

29. NREM-REM sleep regulation

Author

Shinnosuke Yasugaki, Yu Hayashi, and Michael Lazarus

Published

2023

30. The Lives of Marx: Hägglund and Marx’s Philosophy after Pippin and Postone

Author

Michael Lazarus

Subjects

History, Psychoanalysis, Sociology and Political Science, Philosophy, Political Science and International Relations, General Economics, Econometrics and Finance, Social Sciences (miscellaneous)

Abstract

To make ‘philosophy worldly’ often requires an act of translation. In This Life, Martin Hägglund argues for the relevance of Marx to our contemporary lives. By way of a lively and sophisticated dialogue between philosophical interlocutors – including Hegel and Marx – Hägglund offers a compelling account of the relation between time, value and freedom. This Life translates current issues in academic philosophy into a popular register that does not reduce the complexity of the issues but shows what is at stake for our own lives. Hägglund provides a synthesis of Robert B. Pippin’s normative reading of Hegel and the value-form critical theory of Moishe Postone’s Marxism. Further, Hägglund’s vision of freedom outflanks the political limitations of Pippin’s Hegel and Postone’s Marx while retaining the power of their analyses. I assess his interpretation of Hegel and critically examine the concept of value operative in This Life, and frame this question in terms of value-form theory.

Published

2021

31. Mesencephalic dopamine neurons are essential for modafinil‐induced arousal

Author

Yan-Fei Yang, Hui Dong, Wei-Min Qu, Yan Shen, Lei Li, Zhi-Li Huang, and Michael Lazarus

Subjects

medicine.medical_specialty, Modafinil, Substantia nigra, Striatum, Nucleus accumbens, Mice, Dopamine, Internal medicine, mental disorders, medicine, Animals, Wakefulness, Dopamine transporter, Pharmacology, biology, Chemistry, Dopaminergic Neurons, Ventral Tegmental Area, Ventral tegmental area, medicine.anatomical_structure, Endocrinology, nervous system, Dopamine receptor, biology.protein, Arousal, medicine.drug

Abstract

Background and purpose Modafinil is a potent eugeroic (wakefulness-promoting) drug that is prescribed to treat narcolepsy and has a low incidence of abuse. Although previous studies have shown that modafinil-induced arousal depends on the dopamine receptors and transporters, the specific part/s of the dopamine transmitter system underlying this mechanism remained unclear. Here, we investigated the role of mesencephalic dopamine neurons in modafinil-evoked arousal. Experimental approach A dopamine indicator (dLight1.1) was employed to detect dopamine changes in the nucleus accumbens (NAc) and dorsal striatum. We specifically lesioned mesencephalic dopamine neurons via diphtheria toxin (DTA) in the dopamine transporter (DAT)-Cre mice. Then, the sleep-wake states were recorded to evaluate the effect of modafinil on arousal. Finally, the extent of DTA-induced lesions was determined by immunohistochemistry. Key results Modafinil promptly increased dopamine levels in the NAc and dorsal striatum in a dose-dependent manner. Lesioning of dopamine neurons in the substantia nigra pars compacta (SNc) or ventral tegmental area (VTA) had no significant effects on physiological sleep-wake cycles. Modafinil at 90 mg·kg-1 increased continuous wakefulness for 355 min in control mice. However, these effects were slightly decreased by 6.7% in the SNc-lesioned mice and were prominently diminished by 32.8% in VTA-lesioned mice. Furthermore, the modafinil-induced arousal was completely blocked in the SNc-VTA-lesioned mice, whereas lesions of the dorsal raphe nucleus had no effect. Conclusion and implications Taken together, our findings indicate that mesencephalic dopamine neurons are essential for modafinil-induced arousal.

Published

2021

32. <scp> PGE 2 ‐EP3 </scp> axis promotes brown adipose tissue formation through stabilization of <scp>WTAP RNA</scp> methyltransferase

Author

Xixi Tao, Ronglu Du, Shumin Guo, Xiangling Feng, Tingting Yu, Qian OuYang, Qiaoli Chen, Xutong Fan, Xueqi Wang, Chen Guo, Xiaozhou Li, Fengxia Xue, Shuai Chen, Minghan Tong, Michael Lazarus, Shengkai Zuo, Ying Yu, and Yujun Shen

Subjects

General Immunology and Microbiology, General Neuroscience, Molecular Biology, General Biochemistry, Genetics and Molecular Biology

Published

2022

33. PGE

Author

Xixi, Tao, Ronglu, Du, Shumin, Guo, Xiangling, Feng, Tingting, Yu, Qian, OuYang, Qiaoli, Chen, Xutong, Fan, Xueqi, Wang, Chen, Guo, Xiaozhou, Li, Fengxia, Xue, Shuai, Chen, Minghan, Tong, Michael, Lazarus, Shengkai, Zuo, Ying, Yu, and Yujun, Shen

Subjects

Mice, Adipocytes, Brown, Adipose Tissue, Brown, Receptors, Prostaglandin E, EP3 Subtype, Animals, Humans, RNA, Cell Cycle Proteins, Thermogenesis, Methyltransferases, RNA Splicing Factors, Articles, Dinoprostone

Abstract

Brown adipose tissue (BAT) functions as a thermogenic organ and is negatively associated with cardiometabolic diseases. N(6)‐methyladenosine (m(6)A) modulation regulates the fate of stem cells. Here, we show that the prostaglandin E(2) (PGE(2))–E‐prostanoid receptor 3 (EP3) axis was activated during mouse interscapular BAT development. Disruption of EP3 impaired the browning process during adipocyte differentiation from pre‐adipocytes. Brown adipocyte‐specific depletion of EP3 compromised interscapular BAT formation and aggravated high‐fat diet‐induced obesity and insulin resistance in vivo. Mechanistically, activation of EP3 stabilized the Zfp410 mRNA via WTAP‐mediated m(6)A modification, while knockdown of Zfp410 abolished the EP3‐induced enhancement of brown adipogenesis. EP3 prevented ubiquitin‐mediated degradation of WTAP by eliminating PKA‐mediated ERK1/2 inhibition during brown adipocyte differentiation. Ablation of WTAP in brown adipocytes abrogated the protective effect of EP3 overexpression in high‐fat diet‐fed mice. Inhibition of EP3 also retarded human embryonic stem cell differentiation into mature brown adipocytes by reducing the WTAP levels. Thus, a conserved PGE(2)‐EP3 axis promotes BAT development by stabilizing WTAP/Zfp410 signaling in a PKA/ERK1/2‐dependent manner.

Published

2022

34. Ventral pallidal GABAergic neurons control wakefulness associated with motivation through the ventral tegmental pathway

Author

Zhi-Li Huang, Wei Xu, Yi-Qun Wang, Ya-Dong Li, Michael Lazarus, Jing Ge, Yan-Jia Luo, Wei-Min Qu, and Yoan Cherasse

Subjects

0301 basic medicine, Basal Forebrain, Lateral hypothalamus, Optogenetics, Biology, Article, Ventral pallidum, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, medicine, Biological neural network, Psychology, Animals, GABAergic Neurons, Wakefulness, Molecular Biology, Motivation, Ventral Tegmental Area, Dopaminergic, Ventral tegmental area, Psychiatry and Mental health, 030104 developmental biology, medicine.anatomical_structure, nervous system, GABAergic, Neuroscience, 030217 neurology & neurosurgery

Abstract

The ventral pallidum (VP) regulates motivation, drug addiction, and several behaviors that rely on heightened arousal. However, the role and underlying neural circuits of the VP in the control of wakefulness remain poorly understood. In the present study, we sought to elucidate the specific role of VP GABAergic neurons in controlling sleep–wake behaviors in mice. Fiber photometry revealed that the population activity of VP GABAergic neurons was increased during physiological transitions from non-rapid eye movement (non-REM, NREM) sleep to either wakefulness or REM sleep. Moreover, chemogenetic and optogenetic manipulations were leveraged to investigate a potential causal role of VP GABAergic neurons in initiating and/or maintaining arousal. In vivo optogenetic stimulation of VP GABAergic neurons innervating the ventral tegmental area (VTA) strongly promoted arousal via disinhibition of VTA dopaminergic neurons. Functional in vitro mapping revealed that VP GABAergic neurons, in principle, inhibited VTA GABAergic neurons but also inhibited VTA dopaminergic neurons. In addition, optogenetic stimulation of terminals of VP GABAergic neurons revealed that they promoted arousal by innervating the lateral hypothalamus, but not the mediodorsal thalamus or lateral habenula. The increased wakefulness chemogenetically evoked by VP GABAergic neuronal activation was completely abolished by pretreatment with dopaminergic D1 and D2/D3 receptor antagonists. Furthermore, activation of VP GABAergic neurons increased exploration time in both the open-field and light–dark box tests but did not modulate depression-like behaviors or food intake. Finally, chemogenetic inhibition of VP GABAergic neurons decreased arousal. Taken together, our findings indicate that VP GABAergic neurons are essential for arousal related to motivation.

Published

2020

35. Curbing fossil fuel supply to achieve climate goals

Author

Michael Lazarus, Cleo Verkuijl, Harro van Asselt, and Georgia Piggot

Subjects

Atmospheric Science, Global and Planetary Change, 2019-20 coronavirus outbreak, 010504 meteorology & atmospheric sciences, Coronavirus disease 2019 (COVID-19), business.industry, Natural resource economics, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Fossil fuel, Global warming, 010501 environmental sciences, Environmental Science (miscellaneous), Management, Monitoring, Policy and Law, 01 natural sciences, Environmental science, business, 0105 earth and related environmental sciences

Abstract

By signing on to keep global warming well below 2°C through the Paris Agreement, governments have implicitly agreed to dramatically reduce the use of fossil fuels, the predominant contributor to cl...

Published

2020

36. The legacy of reification: Gillian Rose and the value-form theory challenge to Georg Lukács

Author

Michael Lazarus

Subjects

Cultural Studies, History, Psychoanalysis, Sociology and Political Science, Philosophy, 05 social sciences, 0507 social and economic geography, Reification (Marxism), 0506 political science, Critical theory, Value-form, Political Science and International Relations, 050602 political science & public administration, 050703 geography

Abstract

This article examines the relationship between Marx’s Capital, Georg Lukács and Critical Theory through the prism of value-form theory. Marx’s theorisation of value understands commodities as expressions of the historical form of social relations defined by capital. Products of human labour become values in capitalist production, defined by the abstract quality of undifferentiated quantities of labour-power, exchangeable through the universal character of the market. The social form of this process, Marx identifies as processing a fetish quality, where humans take on the thing-like character of commodities. The impact of this theorisation on Critical Theory has been considerable, beginning with Lukács’ concept of reification. In Part I, I examine the challenge to Lukács’ interpretation of Marx’s Capital made by Gillian Rose. She draws attention to a misidentification of reification in Marx, suggesting a strong conceptual distinction between commodity-fetishism and reification. In their conceptual flattening, Rose contends that Lukács and Critical Theory generalised Marx’s value-form theory, losing its speculative character. I argue that despite Rose’s suggestion remaining unfulfilled, she helps illuminate important tensions between Marx’s value theory and Critical Theory. This comparison allows in Part II for the beginning level of a speculative approach to Marx’s Capital to be advanced.

Published

2020

37. Sleep architecture of adenosine A2A receptor-deficient mice

Author

Chia-Jung Tsai, Yu Hayashi, Chih-Yao Liu, and Michael Lazarus

Subjects

medicine.medical_specialty, Physiology, business.industry, musculoskeletal, neural, and ocular physiology, Rapid eye movement sleep, Eye movement, Adenosine A2A receptor, Sleep architecture, Adenosine, Sleep in non-human animals, 03 medical and health sciences, 0302 clinical medicine, Neuropsychology and Physiological Psychology, Endocrinology, Neurology, Physiology (medical), Internal medicine, mental disorders, medicine, Wakefulness, Receptor, business, psychological phenomena and processes, 030217 neurology & neurosurgery, medicine.drug

Abstract

Adenosine signaling has profound effects on sleep, many of which depend on the adenosine A2A receptor (A2AR). Here, we compared the sleep architecture of adult male A2AR knockout (A2AR-KO) mice and wild-type littermates. While total time spent in each stage of wakefulness, non-rapid eye movement sleep (NREMS), and rapid eye movement sleep (REMS) was normal in A2AR-KO mice, the episode durations of NREMS and REMS were reduced, suggesting that both stages are more fragmented. In addition, time spent in REMS during the light phase was increased. During NREMS, average delta power was reduced. These results provide insights into how congenital lack of A2ARs affects sleep.

Published

2020

38. DP1 Activation Reverses Age-Related Hypertension Via NEDD4L-Mediated T-Bet Degradation in T Cells

Author

Guizhu Liu, Qiangyou Wan, Fotini Gounari, Ankang Lyu, Deping Kong, Qian Liu, Sheng-Zhong Duan, Richard M. Breyer, Peiyuan Bai, Juanjuan Li, Ying Yu, Michael Lazarus, Bin Zhou, Shengkai Zuo, and Chenchen Wang

Subjects

CD4-Positive T-Lymphocytes, Aging, medicine.medical_specialty, Sp1 Transcription Factor, Nedd4 Ubiquitin Protein Ligases, Lymphocyte, Receptors, Prostaglandin, 030204 cardiovascular system & hematology, Article, Proinflammatory cytokine, Mice, 03 medical and health sciences, 0302 clinical medicine, Superoxides, Physiology (medical), Internal medicine, Age related, medicine, Animals, Humans, Antihypertensive Agents, Aged, 030304 developmental biology, NEDD4L, 0303 health sciences, Prostaglandin D2, business.industry, Ubiquitination, Th1 Cells, Cyclic AMP-Dependent Protein Kinases, Mice, Inbred C57BL, Blood pressure, medicine.anatomical_structure, Endocrinology, Hypertension, Cytokines, T-Box Domain Proteins, Cardiology and Cardiovascular Medicine, business, Signal Transduction

Abstract

Background: Blood pressure often rises with aging, but exact mechanisms are still not completely understood. With aging, the level of proinflammatory cytokines increases in T lymphocytes. Prostaglandin D 2 , a proresolution mediator, suppresses Type 1 T helper (Th1) cytokines through D-prostanoid receptor 1 (DP1). In this study, we aimed to investigate the role of the prostaglandin D 2 /DP1 axis in T cells on age-related hypertension. Methods: To clarify the physiological and pathophysiological roles of DP1 in T cells with aging, peripheral blood samples were collected from young and older male participants, and CD4 + T cells were sorted for gene expression, prostaglandin production, and Western blot assays. Mice blood pressure was quantified by invasive telemetric monitor. Results: The prostaglandin D 2 /DP1 axis was downregulated in CD4 + T cells from older humans and aged mice. DP1 deletion in CD4 + T cells augmented age-related hypertension in aged male mice by enhancing Th1 cytokine secretion, vascular remodeling, CD4 + T cells infiltration, and superoxide production in vasculature and kidneys. Conversely, forced expression of exogenous DP1 in T cells retarded age-associated hypertension in mice by reducing Th1 cytokine secretion. Tumor necrosis factor α neutralization or interferon γ deletion ameliorated the age-related hypertension in DP1 deletion in CD4 + T cells mice. Mechanistically, DP1 inhibited Th1 activity via the PKA (protein kinase A)/p-Sp1 (phosphorylated specificity protein 1)/neural precursor cell expressed developmentally downregulated 4-like (NEDD4L) pathway–mediated T-box-expressed-in-T-cells (T-bet) ubiquitination. T-bet deletion or forced NEDD4L expression in CD4 + T cells attenuated age-related hypertension in CD4 + T cell–specific DP1-deficient mice. DP1 receptor activation by BW245C prevented age-associated blood pressure elevation and reduced vascular/renal superoxide production in male mice. Conclusions: The prostaglandin D 2 /DP1 axis suppresses age-related Th1 activation and subsequent hypertensive response in male mice through increase of NEDD4L–mediated T-bet degradation by ubiquitination. Therefore, the T cell DP1 receptor may be an attractive therapeutic target for age-related hypertension.

Published

2020

39. Why fossil fuel producer subsidies matter

Author

Michael Lazarus, Geoffrey Supran, Peter Newell, Harro van Asselt, Doug Koplow, Naomi Oreskes, and Peter Erickson

Subjects

Multidisciplinary, Climate change mitigation, business.industry, Transparency (market), Natural resource economics, Yield (finance), Greenhouse gas, Fossil fuel, Economics, Coal, Subsidy, business, Energy policy

Abstract

Around the globe, governments have pledged to remove support for coal, oil and gas, noting that such fossil fuel subsidies “undermine efforts to deal with climate change” by keeping greenhouse gas emissions higher than they otherwise would be. Jewell et al. used results of integrated assessment models to infer that eliminating subsidies would yield “limited emission reductions…except in energy-exporting regions”, and described the emission reduction benefits as “small”. This characterization is potentially misleading, and here we use a simple, sector-specific model to show how the emission reductions from producer subsidy reform could be more material than Jewell et al. suggest. Fossil fuel producer subsidies delay a low-carbon transition in ways both material and political, and they deserve greater attention and transparency in global modelling analyses, as well as in policy-making.

Published

2020

40. EP3 enhances adhesion and cytotoxicity of NK cells toward hepatic stellate cells in a murine liver fibrosis model

Author

Xixi Tao, Rui Zhang, Ronglu Du, Tingting Yu, Hui Yang, Jiwen Li, Yuhong Wang, Qian Liu, Shengkai Zuo, Xi Wang, Michael Lazarus, Lu Zhou, Bangmao Wang, Ying Yu, and Yujun Shen

Subjects

Killer Cells, Natural, Liver Cirrhosis, Disease Models, Animal, Mice, Immunology, Hepatic Stellate Cells, Immunology and Allergy, Animals, Humans, lipids (amino acids, peptides, and proteins)

Abstract

Natural killer (NK) cells exhibit antifibrotic properties in liver fibrosis (LF) by suppressing activated hepatic stellate cell (HSC) populations. Prostaglandin E2 (PGE2) plays a dual role in innate and adaptive immunity. Here, we found that E-prostanoid 3 receptor (EP3) was markedly downregulated in NK cells from liver fibrosis mice and patients with liver cirrhosis. NK cell–specific deletion of EP3 aggravated hepatic fibrogenesis in mouse models of LF. Loss of EP3 selectively reduced the cytotoxicity of the CD27+CD11b+ double positive (DP) NK subset against activated HSCs. Mechanistically, deletion of EP3 impaired the adhesion and cytotoxicity of DP NK cells toward HSCs through modulation of Itga4-VCAM1 binding. EP3 upregulated Itga4 expression in NK cells through promoting Spic nuclear translocation via PKC-mediated phosphorylation of Spic at T191. Activation of EP3 by sulprostone alleviated CCL4-induced liver fibrosis in mice. Thus, EP3 is required for adhesion and cytotoxicity of NK cells toward HSCs and may serve as a therapeutic target for the management of LF.

Published

2021

41. Mathematical model of terrorism: case study of Boko Haram

Author

Smah, Michael Lazarus, primary

Published

2022

42. Decision letter: Dysfunctions of the paraventricular hypothalamic nucleus induce hypersomnia in mice

Author

Michael Lazarus

Subjects

medicine.medical_specialty, Endocrinology, business.industry, Internal medicine, medicine, Paraventricular hypothalamic nucleus, business

Published

2021

43. Tapping the potential of NDCs and LT-LEDS to address fossil fuel production

Author

Miquel Muñoz Cabré, Natalie Jones, Georgia Piggot, and Michael Lazarus

Subjects

Waste management, law, business.industry, Fossil fuel, Production (economics), Tapping, Environmental science, business, Light-emitting diode, law.invention

Abstract

The need for a managed transition away from fossil fuel production raises the question of whether and how countries are addressing this need in their national communications to the UN Framework Convention on Climate Change (UNFCCC). A previous 2019 analysis of the first round of nationally determined contributions (NDCs) and long-term, low-emissions development strategies (LT-LEDS) found that few countries discussed how they would address fossil fuel production as part of their climate mitigation activities. Here, we examine new and updated NDCs and LT-LEDS, finding a growing number of NDCs and LT-LEDS that address fossil fuel production as part of mitigation. For the first time, several countries incorporate policies and/ or pathways for a managed decline of fossil fuel production. In contrast, many others foresee continued or expanded fossil fuel production, with no mention of efforts to prepare for a transition. Opportunities remain for countries to make better use of NDCs and LT-LEDS to align fossil fuel production with the Paris Agreement, including by more comprehensively reflecting on the equity implications of their plans, as well as addressing how countries plan to diversify their economies, ensure a just transition for workers, and cooperate internationally on a managed wind-down of fossil fuel supply. As COP26 approaches, this window of opportunity is still open, but it is rapidly closing.

Published

2021

44. High cortical delta power correlates with aggravated allodynia by activating anterior cingulate cortex GABAergic neurons in neuropathic pain mice

Author

Wei Xu, Zhi-Li Huang, Michael Lazarus, Yan-Jia Luo, Wei-Min Qu, Zong-Yuan Hong, Ya-Dong Li, Jing Ge, and Juan Wang

Subjects

Pain Threshold, Reserpine, Scopolamine, Modafinil, Electroencephalography, Gyrus Cinguli, Cholinergic Antagonists, Mice, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, medicine, Animals, Cortical Synchronization, GABAergic Neurons, Anterior cingulate cortex, Cerebral Cortex, Adrenergic Uptake Inhibitors, medicine.diagnostic_test, Electromyography, business.industry, Chronic pain, Wakefulness-Promoting Agents, medicine.disease, Sciatic Nerve, Cortex (botany), Sleep deprivation, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Allodynia, Delta Rhythm, Neurology, Hyperalgesia, Neuropathic pain, Neuralgia, Sleep Deprivation, GABAergic, Neurology (clinical), medicine.symptom, Sleep, business, Proto-Oncogene Proteins c-fos, Neuroscience, 030217 neurology & neurosurgery

Abstract

Patients with chronic pain often report being sensitive to pain at night before falling asleep, a time when the synchronization of cortical activity is initiated. However, how cortical activity relates to pain sensitivity is still unclear. Because sleep is characterized by enhanced cortical delta power, we hypothesized that enhanced cortical delta power may be an indicator of intensified pain. To test this hypothesis, we used pain thresholds tests, EEG/electromyogram recordings, c-Fos staining, and chemogenetic and pharmacological techniques in mice. We found that sleep deprivation or pharmacologic enhancement of EEG delta power by reserpine and scopolamine dramatically decreased mechanical pain thresholds, but not thermal withdrawal latency, in a partial sciatic nerve ligation model of neuropathic pain mice. On the contrary, suppression of EEG delta power using a wake-promoting agent modafinil significantly attenuated mechanical allodynia. Moreover, when EEG delta power was enhanced, c-Fos expression decreased in most regions of the cortex, except the anterior cingulate cortex (ACC), where c-Fos was increased in the somatostatin- and parvalbumin-positive GABAergic neurons. Chemogenetic activation of GABAergic neurons in ACC enhanced EEG delta power and lowered mechanical pain thresholds simultaneously in naive mice. However, chemogenetic inhibition of ACC GABAergic neurons could not block mechanical allodynia. These results provided compelling evidence that elevated EEG delta power is accompanied with aggravated neuropathic pain, whereas decreased delta power attenuated it, suggesting that enhanced delta power can be a specific marker of rising chronic neuropathic pain and that wake-promoting compounds could be used as analgesics in the clinic.

Published

2019

45. Double counting and the Paris Agreement rulebook

Author

Harald Winkler, Michael Lazarus, Lambert Schneider, Derik Broekhoff, Christina Hood, Kelley Kizzier, Maosheng Duan, Andrew W. Howard, Frank Jotzo, and Robert N. Stavins

Subjects

Nuclear physics, Multidisciplinary, Double counting (proof technique), Business

Abstract

Poor emissions accounting could undermine carbon markets

Published

2019

46. Politics in the Conflicts of Modernity: Aristotelian and Marxist

Author

Michael Lazarus

Subjects

Social ontology, Politics, Scholarship, Debt, media_common.quotation_subject, Modernity, Marxist philosophy, Sociology, Epistemology, media_common, Social theory

Abstract

Alasdair MacIntyre's latest book, Ethics in the Conflicts of Modernity, confirms his interest in Marxism as a form of critique. MacIntyre's debt to Marx has been central to recent scholarship, stre...

Published

2019

47. Extracellular adenosine and slow-wave sleep are increased after ablation of nucleus accumbens core astrocytes and neurons in mice

Author

Mustafa Korkutata, Michael Lazarus, Yoan Cherasse, Chia-Ying Lee, Xuzhao Zhou, Yo Oishi, and Shinya Fujii

Subjects

Ablation Techniques, 0301 basic medicine, Microdialysis, Adenosine, Receptor, Adenosine A2A, Adenosine A2A receptor, Mice, Transgenic, Nucleus accumbens, Sleep, Slow-Wave, Nucleus Accumbens, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Extracellular, medicine, Animals, Slow-wave sleep, Mice, Knockout, Neurons, Glial fibrillary acidic protein, biology, Microglia, Chemistry, Extracellular Fluid, Cell Biology, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Astrocytes, biology.protein, psychological phenomena and processes, 030217 neurology & neurosurgery, medicine.drug

Abstract

Sleep and wakefulness are controlled by a wide range of neuronal populations in the mammalian brain. Activation of adenosine A2A receptor (A2AR)-expressing neurons in the nucleus accumbens (NAc) core promotes slow-wave sleep (SWS). The neuronal mechanism by which activation of NAc A2AR neurons induces SWS, however, is unknown. We hypothesized that the ability of NAc activation to induce sleep is mediated by the classic somnogen adenosine, which can be formed by various processes in all types of cells. Here, to investigate whether astrocytes are involved in the ability of the NAc to regulate SWS, we ablated glial fibrillary acidic protein (GFAP)-positive cells in the NAc core of mice by virus-mediated expression of diphtheria toxin (DT) receptors and intraperitoneal administration of DT. Analysis of electroencephalogram and electromyogram recordings of DT-treated wild-type mice revealed that SWS was remarkably increased at 1 week after DT treatment, whereas sleep-wake behavior was unchanged in DT-treated A2AR knockout mice. Cell ablation was associated with an increased number of GFAP-positive cells and activation of microglia in the NAc. In-vivo microdialysis revealed significantly increased levels of extracellular adenosine in the NAc at 1 week after DT treatment. Our findings suggest that elevated adenosine levels in the NAc core promote SWS by acting on A2ARs and provide the first evidence that adenosine is an endogenous candidate for activating NAc A2AR neurons that have the ability to induce SWS.

Published

2019

48. Enhancing endogenous adenosine A2A receptor signaling induces slow-wave sleep without affecting body temperature and cardiovascular function

Author

Tsuyoshi Saitoh, Mustafa Korkutata, Shuji Ioka, Fumihiro Sugiyama, Jiang-Fan Chen, Yoan Cherasse, Nobuyuki Murakoshi, Shinya Fujii, Hidetoshi Kumagai, Xuzhao Zhou, Feng Duo, Rujie Qin, Hiroshi Nagase, and Michael Lazarus

Subjects

0301 basic medicine, Agonist, medicine.medical_specialty, Allosteric modulator, medicine.drug_class, Population, Adenosine A2A receptor, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, mental disorders, Medicine, education, CGS-21680, Slow-wave sleep, Pharmacology, education.field_of_study, business.industry, Adenosine, 030104 developmental biology, Endocrinology, chemistry, Wakefulness, business, 030217 neurology & neurosurgery, medicine.drug

Abstract

Insomnia is one of the most common sleep problems with an estimated prevalence of 10%-15% in the general population. Although adenosine A2A receptor (A2AR) agonists strongly induce sleep, their cardiovascular effects preclude their use in treating sleep disorders. Enhancing endogenous A2AR signaling, however, may be an alternative strategy for treating insomnia, because adenosine levels in the brain accumulate during wakefulness. In the present study, we found that 3,4-difluoro-2-((2-fluoro-4-iodophenyl)amino)benzoic acid, denoted A2AR positive allosteric modulator (PAM)-1, enhanced adenosine signaling at the A2AR and induced slow wave sleep (SWS) without affecting body temperature in wild-type male mice after intraperitoneal administration, whereas the SWS-inducing effect of this benzoic acid derivative was abolished in A2AR KO mice. In contrast to the A2AR agonist CGS 21680, the A2AR PAM-1 did not affect blood pressure or heart rate. These findings indicate that enhancing A2AR signaling promotes SWS without cardiovascular effects. Therefore, small molecules that allosterically modulate A2ARs could help people with insomnia to fall asleep.

Published

2019

49. Lateral habenula glutamatergic neurons projecting to the dorsal raphe nucleus promote aggressive arousal in mice

Author

Aki Takahashi, Romain Durand-de Cuttoli, Meghan E. Flanigan, Emi Hasegawa, Tomomi Tsunematsu, Hossein Aleyasin, Yoan Cherasse, Ken Miya, Takuya Okada, Kazuko Keino-Masu, Koshiro Mitsui, Long Li, Vishwendra Patel, Robert D. Blitzer, Michael Lazarus, Kenji F. Tanaka, Akihiro Yamanaka, Takeshi Sakurai, Sonoko Ogawa, and Scott J. Russo

Subjects

Aggression, Dorsal Raphe Nucleus, Male, Neurons, Habenula, Mice, Multidisciplinary, Neural Pathways, General Physics and Astronomy, Animals, General Chemistry, Arousal, General Biochemistry, Genetics and Molecular Biology

Abstract

The dorsal raphe nucleus (DRN) is known to control aggressive behavior in mice. Here, we found that glutamatergic projections from the lateral habenula (LHb) to the DRN were activated in male mice that experienced pre-exposure to a rival male mouse (“social instigation”) resulting in heightened intermale aggression. Both chemogenetic and optogenetic suppression of the LHb-DRN projection blocked heightened aggression after social instigation in male mice. In contrast, inhibition of this pathway did not affect basal levels of aggressive behavior, suggesting that the activity of the LHb-DRN projection is not necessary for the expression of species-typical aggressive behavior, but required for the increase of aggressive behavior resulting from social instigation. Anatomical analysis showed that LHb neurons synapse on non-serotonergic DRN neurons that project to the ventral tegmental area (VTA), and optogenetic activation of the DRN-VTA projection increased aggressive behaviors. Our results demonstrate that the LHb glutamatergic inputs to the DRN promote aggressive arousal induced by social instigation, which contributes to aggressive behavior by activating VTA-projecting non-serotonergic DRN neurons as one of its potential targets.

Published

2021

50. Hypothalamic modulation of adult hippocampal neurogenesis in mice confers activity-dependent regulation of memory and anxiety-like behavior

Author

Ya-Dong Li, Yan-Jia Luo, Ze-Ka Chen, Luis Quintanilla, Yoan Cherasse, Libo Zhang, Michael Lazarus, Zhi-Li Huang, and Juan Song

Subjects

Mice, Inbred C57BL, Mice, Memory, General Neuroscience, Neurogenesis, Hypothalamus, Animals, Anxiety, Hippocampus

Abstract

Adult hippocampal neurogenesis plays a critical role in memory and emotion processing, and this process is dynamically regulated by neural circuit activity. However, it remains unknown whether manipulation of neural circuit activity can achieve sufficient neurogenic effects to modulate behavior. Here we report that chronic patterned optogenetic stimulation of supramammillary nucleus (SuM) neurons in the mouse hypothalamus robustly promotes neurogenesis at multiple stages, leading to increased production of neural stem cells and behaviorally relevant adult-born neurons (ABNs) with enhanced maturity. Functionally, selective manipulation of the activity of these SuM-promoted ABNs modulates memory retrieval and anxiety-like behaviors. Furthermore, we show that SuM neurons are highly responsive to environmental novelty (EN) and are required for EN-induced enhancement of neurogenesis. Moreover, SuM is required for ABN activity-dependent behavioral modulation under a novel environment. Our study identifies a key hypothalamic circuit that couples novelty signals to the production and maturation of ABNs, and highlights the activity-dependent contribution of circuit-modified ABNs in behavioral regulation.

Published

2021