Your search keyword '"Radulovic, Jelena"' showing total 18 results

1. Immune and neural response to acute social stress in adolescent humans and rodents.

Author

Gabbay, Vilma, Ely, Benjamin A., Vileisis, Julia N., Petrovic, Zorica, Cicvaric, Ana, Asnis, Gregory M., Kim-Schulze, Seunghee, and Radulovic, Jelena

Published

2024

2. Formation of memory assemblies through the DNA-sensing TLR9 pathway.

Author

Jovasevic, Vladimir, Wood, Elizabeth M., Cicvaric, Ana, Zhang, Hui, Petrovic, Zorica, Carboncino, Anna, Parker, Kendra K., Bassett, Thomas E., Moltesen, Maria, Yamawaki, Naoki, Login, Hande, Kalucka, Joanna, Sananbenesi, Farahnaz, Zhang, Xusheng, Fischer, Andre, and Radulovic, Jelena

Abstract

As hippocampal neurons respond to diverse types of information1, a subset assembles into microcircuits representing a memory2. Those neurons typically undergo energy-intensive molecular adaptations, occasionally resulting in transient DNA damage3–5. Here we found discrete clusters of excitatory hippocampal CA1 neurons with persistent double-stranded DNA (dsDNA) breaks, nuclear envelope ruptures and perinuclear release of histone and dsDNA fragments hours after learning. Following these early events, some neurons acquired an inflammatory phenotype involving activation of TLR9 signalling and accumulation of centrosomal DNA damage repair complexes6. Neuron-specific knockdown of Tlr9 impaired memory while blunting contextual fear conditioning-induced changes of gene expression in specific clusters of excitatory CA1 neurons. Notably, TLR9 had an essential role in centrosome function, including DNA damage repair, ciliogenesis and build-up of perineuronal nets. We demonstrate a novel cascade of learning-induced molecular events in discrete neuronal clusters undergoing dsDNA damage and TLR9-mediated repair, resulting in their recruitment to memory circuits. With compromised TLR9 function, this fundamental memory mechanism becomes a gateway to genomic instability and cognitive impairments implicated in accelerated senescence, psychiatric disorders and neurodegenerative disorders. Maintaining the integrity of TLR9 inflammatory signalling thus emerges as a promising preventive strategy for neurocognitive deficits.Learning results in persistent double-stranded DNA breaks, nuclear rupture and release of DNA fragments and histones within hippocampal CA1 neurons that, following TLR9-mediated DNA damage repair, results in their recruitment to memory circuits. [ABSTRACT FROM AUTHOR]

Published

2024

3. Stress-related memories disrupt sociability and associated patterning of hippocampal activity: a role of hilar oxytocin receptor-positive interneurons.

Author

Meyer, Mariah A. A., Anstötz, Max, Ren, Lynn Y., Fiske, Michael P., Guedea, Anita L., Grayson, Viktoriya S., Schroth, Samantha L., Cicvaric, Ana, Nishimori, Katsuhiko, Maccaferri, Gianmaria, and Radulovic, Jelena

Published

2020

4. Excitatory VTA to DH projections provide a valence signal to memory circuits.

Author

Han, Yuan, Zhang, Yi, Kim, Haram, Grayson, Viktoriya S., Jovasevic, Vladimir, Ren, Wenjie, Centeno, Maria V., Guedea, Anita L., Meyer, Mariah A. A., Wu, Yixin, Gutruf, Philipp, Surmeier, Dalton J., Gao, Can, Martina, Marco, Apkarian, Apkar V., Rogers, John A., and Radulovic, Jelena

Subjects

DRUG-seeking behavior, EPISODIC memory, MEMORY, ADAPTABILITY (Personality), INTEGRATING circuits

Abstract

The positive or negative value (valence) of past experiences is normally integrated into neuronal circuits that encode episodic memories and plays an important role in guiding behavior. Here, we show, using mouse behavioral models, that glutamatergic afferents from the ventral tegmental area to the dorsal hippocampus (VTA→DH) signal negative valence to memory circuits, leading to the formation of fear-inducing context memories and to context-specific reinstatement of fear. To a lesser extent, these projections also contributed to opioid-induced place preference, suggesting a role in signaling positive valence as well, and thus a lack of dedicated polarity. Manipulations of VTA terminal activity were more effective in females and paralleled by sex differences in glutamatergic signaling. By prioritizing retrieval of negative and positive over neutral memories, the VTA→DH circuit can facilitate the selection of adaptive behaviors when current and past experiences are valence congruent. The neuronal pathway that signals the positive or negative value of memories is not well understood. Here, the authors report that an excitatory projection from the ventral tegmental area to the dorsal hippocampus carries the valence information, contributing, especially in females, to the recurrence of fear and to drug seeking behavior. [ABSTRACT FROM AUTHOR]

Published

2020

5. N-Methyl D-aspartate receptor subunit signaling in fear extinction.

Author

Radulovic, Jelena, Ren, Lynn Y., and Gao, Can

Subjects

*METHYL aspartate receptors, *FEAR, *EXTINCTION (Psychology), *MEMORY, *ANXIETY disorders, *POST-traumatic stress disorder, *NEUROPLASTICITY, *COGNITION

Abstract

N-Methyl D-aspartate receptors (NMDAR) are central mediators of glutamate actions underlying learning and memory processes including those required for extinction of fear and fear-related behaviors. Consistent with this view, in animal models, antagonists of NMDAR typically impair fear extinction, whereas partial agonists have facilitating effects. Promoting NMDAR function has thus been recognized as a promising strategy towards reduction of fear symptoms in patients suffering from anxiety disorders and post-traumatic disorder (PTSD). Nevertheless, application of these drugs in clinical trials has proved of limited utility. Here we summarize recent advances in our knowledge of NMDAR pharmacology relevant for fear extinction, focusing on molecular, cellular, and circuit aspects of NMDAR function as they relate to fear extinction at the level of behavior and cognition. We also discuss how these advances from animal models might help to understand and overcome the limitations of existing approaches in human anxiety disorders and how novel, more specific, and personalized approaches might help advance future therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2019

6. Using New Approaches in Neurobiology to Rethink Stress-Induced Amnesia.

Author

Radulovic, Jelena

Published

2017

7. Correction to: Sex-specific roles of hippocampal microRNAs in stress vulnerability and resilience.

Author

Krispil-Alon, Maayan, Jovasevic, Vladimir, Radulovic, Jelena, and Richter-Levin, Gal

Published

2023

8. Double Dissociation of the Roles of Metabotropic Glutamate Receptor 5 and Oxytocin Receptor in Discrete Social Behaviors.

Author

Mesic, Ivana, Guzman, Yomayra F, Guedea, Anita L, Jovasevic, Vladimir, Corcoran, Kevin A, Leaderbrand, Katherine, Nishimori, Katsuhiko, Contractor, Anis, and Radulovic, Jelena

Subjects

SOCIAL interaction, GLUTAMATE receptors, NEUROTRANSMITTER receptors, OXYTOCIN receptors, COLLECTIVE memory, IMMUNOSTAINING

Abstract

Social interactions in vertebrates are complex phenomena based on affective and cognitive processes. Multiple brain regions and neurotransmitter systems are involved in the expression of social behaviors, but their individual roles in specific aspects of social interactions are not well understood. Here we investigated how Gq-protein-coupled metabotropic glutamate receptor 5 (mGluR5) and oxytocin receptor (Oxtr) affect social affiliation and social memory. We used conditional genetic approaches in which the genes coding for these receptors were knocked out in the lateral septum by infusion of recombinant adeno-associated viral vectors containing Cre recombinase (AAV-Cre). Social behavior was assessed 2 weeks later using a three-chamber paradigm for sociability and preference for social novelty. Septal deletion of mGluR5 abolished sociability while leaving preference for social novelty intact. In contrast, deletion of Oxtr did not affect sociability but significantly impaired preference for social novelty. Nonsocial behaviors or memories, including novel object recognition or fear conditioning, were not affected by these genetic manipulations. Immunohistochemical analyses of the distribution of mGluR5 and Oxtr revealed non-overlapping localization of these receptors within the lateral septum, suggesting that not only different neurotransmitters but also different neuronal types contribute to sociability versus preference for social novelty. Our findings identify highly specialized roles of lateral septal mGluR5 and Oxtr in the the regulation of discrete social behaviors, and suggest that deficits in social interactions, which accompany many mental illnesses, would benefit from comprehensive treatments targeting different components of social functioning. [ABSTRACT FROM AUTHOR]

Published

2015

9. GABAergic mechanisms regulated by miR-33 encode state-dependent fear.

Author

Jovasevic, Vladimir, Corcoran, Kevin A, Leaderbrand, Katherine, Yamawaki, Naoki, Guedea, Anita L, Chen, Helen J, Shepherd, Gordon M G, and Radulovic, Jelena

Subjects

GABA, NEUROTRANSMITTERS, MEMORY, PATHOLOGICAL psychology, HIPPOCAMPUS (Brain), THERAPEUTICS

Abstract

Fear-inducing memories can be state dependent, meaning that they can best be retrieved if the brain states at encoding and retrieval are similar. Restricted access to such memories can present a risk for psychiatric disorders and hamper their treatment. To better understand the mechanisms underlying state-dependent fear, we used a mouse model of contextual fear conditioning. We found that heightened activity of hippocampal extrasynaptic GABAA receptors, believed to impair fear and memory, actually enabled their state-dependent encoding and retrieval. This effect required protein kinase C-βII and was influenced by miR-33, a microRNA that regulates several GABA-related proteins. In the extended hippocampal circuit, extrasynaptic GABAA receptors promoted subcortical, but impaired cortical, activation during memory encoding of context fear. Moreover, suppression of retrosplenial cortical activity, which normally impairs retrieval, had an enhancing effect on the retrieval of state-dependent fear. These mechanisms can serve as treatment targets for managing access to state-dependent memories of stressful experiences. [ABSTRACT FROM AUTHOR]

Published

2015

10. Accumulation of Cytoplasmic Glucocorticoid Receptor Is Related to Elevation of FKBP5 in Lymphocytes of Depressed Patients.

Author

Lukic, Iva, Mitic, Milos, Soldatovic, Ivan, Jovicic, Milica, Maric, Nadja, Radulovic, Jelena, and Adzic, Miroslav

Abstract

We have previously shown that patients with the major depressive disorder (MDD) exhibited elevated phosphorylation of the lymphocyte glucocorticoid receptor (GR) at serine 226 (S226). Here, we further analyse potential alterations of GR signalization in lymphocytes of MDD patients, i.e. the cytoplasmic/nuclear distribution of GR, levels of FK506-binding protein 5 (FKBP5) and glucocorticoid-induced leucine zipper (GILZ). The FKBP5 acts as an important regulator of GR activation, by decreasing ligand binding and impeding translocation of the receptor to the nucleus, while GILZ mediates glucocorticoid anti-inflammatory effects. Our result showed that the depressed patients had significantly higher GR levels in the cytoplasm compared to controls, which was accompanied by higher FKBP5 levels. Linear regression model demonstrated significantly higher correlation between FKBP5 and cytoplasmic GR than the presence of MDD itself or phosphorylation of nuclear GR at S226. There were no differences in the levels of GILZ isoforms. Therefore, the results suggest that accumulation of the GR in cytoplasm is related to the elevation of FKBP5, adding one more step in understanding altered GR signalling in lymphocytes, and potentially brain tissue, of MDD patients. [ABSTRACT FROM AUTHOR]

Published

2015

11. Role of oxytocin receptors in modulation of fear by social memory.

Author

Guzmán, Yomayra, Tronson, Natalie, Sato, Keisuke, Mesic, Ivana, Guedea, Anita, Nishimori, Katsuhiko, and Radulovic, Jelena

Subjects

PSYCHOPHARMACOLOGICAL research, DRUG receptors, OXYTOCIN receptors, COLLECTIVE memory, FEAR, LABORATORY mice, CLASSICAL conditioning, CONDITIONED response

Abstract

Rationale: Oxytocin receptors (Oxtr) are important mediators of social learning and emotion, with bidirectional effects on fear and anxiety. Contrary to the anxiolytic actions of Oxtr in the amygdala, we recently showed that Oxtr in the lateral septum mediate the enhancement of fear conditioning by social defeat in mice. Objectives: Using positive social interactions, which impair fear conditioning, here we attempted to delineate whether the role of septal Oxtr in fear regulation depends on the valence of the social memory. Methods: Pharmacological and genetic manipulations of lateral septal Oxtr were combined with the social buffering of fear paradigm, in which pre-exposure to nonfearful conspecifics reduces subsequent contextual fear conditioning, as revealed by decreased freezing behavior. Results: Antagonism and down-regulation of Oxtr in the lateral septum abolished, while oxytocin (Oxt) administration before pre-exposure to nonfearful conspecifics facilitated the decrease of freezing behavior. Conclusions: The septal oxytocin system enhances memory of social interactions regardless of their valence, reducing fear after positive and enhancing fear after negative social encounters. These findings explain, at least in part, the seemingly bidirectional role of Oxt in fear regulation. [ABSTRACT FROM AUTHOR]

Published

2014

12. Regulatory Mechanisms of Fear Extinction and Depression-Like Behavior.

Author

Tronson, Natalie C., Schrick, Christina, Fischer, Andre, Sananbenesi, Farahnaz, Pagès, Gilles, Pouysségur, Jacques, and Radulovic, Jelena

Subjects

ANXIETY, MENTAL depression, AFFECTIVE disorders, PSYCHOLOGICAL stress, PROTEIN kinases, DEPRESSED persons, NEUROPSYCHOPHARMACOLOGY

Abstract

Human anxiety is frequently accompanied by depression, and when they co-occur both conditions exhibit greater severity and resistance to treatment. Little is known, however, about the molecular processes linking these emotional and mood disorders. Based on previously reported phosphorylation patterns of extracellular signal-regulated kinase (ERK) in the brain, we hypothesized that ERK's upstream activators intertwine fear and mood regulation through their hippocampal actions. We tested this hypothesis by studying the upstream regulation of ERK signaling in behavioral models of fear and depression. Wild-type and ERK1-deficient mice were used to study the dorsohippocampal actions of the putative ERK activators: mitogen-activated and extracellular signal-regulated kinase (MEK), protein kinase C (PKC), and cAMP-dependent protein kinase (PKA). Mice lacking ERK1 exhibited enhanced fear extinction and reduced depression caused by overactivation of ERK2. Both behaviors were reversed by inhibition of MEK, however the extinction phenotype depended on hippocampal, whereas the depression phenotype predominantly involved extrahippocampal MEK. Unexpectedly, inhibition of PKC accelerated extinction and decreased depression by ERK-independent mechanisms, whereas inhibition of PKA did not produce detectable molecular or behavioral effects in the employed paradigm. These results indicate that, contrary to fear conditioning but similar to mood stabilization, extinction of fear required upregulation of MEK/ERK and downregulation of ERK-independent PKC signaling. The dissociation of these pathways may thus represent a common mechanism for fear and mood regulation, and a potential therapeutic option for comorbid anxiety and depression.Neuropsychopharmacology (2008) 33, 1570–1583; doi:10.1038/sj.npp.1301550; published online 22 August 2007 [ABSTRACT FROM AUTHOR]

Published

2008

13. A hippocampal Cdk5 pathway regulates extinction of contextual fear.

Author

Sananbenesi, Farahnaz, Fischer, Andre, Xinyu Wang, Schrick, Christina, Neve, Rachael, Radulovic, Jelena, and Li-Huei Tsai

Subjects

FEAR, EMOTIONS, PERSONALITY & emotions, CYCLIN-dependent kinases, PROTEIN kinases, CYTOSOL

Abstract

Treatment of emotional disorders involves the promotion of extinction processes, which are defined as the learned reduction of fear. The molecular mechanisms underlying extinction have only begun to be elucidated. By employing genetic and pharmacological approaches in mice, we show here that extinction requires downregulation of Rac-1 and cyclin-dependent kinase 5 (Cdk5), and upregulation of p21 activated kinase-1 (PAK-1) activity. This is physiologically achieved by a Rac-1–dependent relocation of the Cdk5 activator p35 from the membrane to the cytosol and dissociation of p35 from PAK-1. Moreover, our data suggest that Cdk5/p35 activity prevents extinction in part by inhibition of PAK-1 activity in a Rac-1–dependent manner. We propose that extinction of contextual fear is regulated by counteracting components of a molecular pathway involving Rac-1, Cdk5 and PAK-1. Our data suggest that this pathway could provide a suitable target for therapeutic treatment of emotional disorders. [ABSTRACT FROM AUTHOR]

Published

2007

14. Deletion of Crhr2 reveals an anxiolytic role for corticotropin-releasing hormone receptor-2.

Author

Kishimoto, Toshimitsu, Radulovic, Jelena, Radulovic, Marko, Lin, Chijen R., Schrick, Christina, Hooshmand, Farideh, Hermanson, Ola, Rosenfeld, Michael G., and Spiess, Joachim

Subjects

*G proteins, *CORTICOTROPIN releasing hormone, *ANIMAL locomotion

Abstract

Corticotropin-releasing hormone (Crh), a 41-residue polypeptide, activates two G-protein?coupled receptors, Crhr1 (refs 3?5) and Crhr2 (refs 6?9), causing (among other transductional events) phosphorylation of the transcription factor Creb (ref. 10). The physiologic role of these receptors is only partially understood. Here we report that male, but not female, Crhr2-deficient mice exhibit enhanced anxious behaviour in several tests of anxiety in contrast to mice lacking Crhr1 (refs 11,12). The enhanced anxiety of Crhr2-deficient mice is not due to changes in hypothalamic-pituitary-adrenal (HPA) axis activity, but rather reflects impaired responses in specific brain regions involved in emotional and autonomic function, as monitored by a reduction of Creb phosphorylation in male, but not female, Crhr2-/- mice. We propose that Crhr2 predominantly mediates a central anxiolytic response, opposing the general anxiogenic effect of Crh mediated by Crhr1. Neither male nor female Crhr2-deficient mice show alterations of baseline feeding behaviour. Both respond with increased edema formation in response to thermal exposure, however, indicating that in contrast to its central role in anxiety, the peripheral role of Crhr2 in vascular permeability is independent of gender. [ABSTRACT FROM AUTHOR]

Published

2000

15. Fear-enhancing effects of septal oxytocin receptors.

Author

Guzmán, Yomayra F, Tronson, Natalie C, Jovasevic, Vladimir, Sato, Keisuke, Guedea, Anita L, Mizukami, Hiroaki, Nishimori, Katsuhiko, and Radulovic, Jelena

Subjects

SEPTUM (Brain), OXYTOCIN receptors, FEAR, PROTEIN kinases, PROSOCIAL behavior, TRANQUILIZING drugs

Abstract

The nonapeptide oxytocin is considered beneficial to mental health due to its anxiolytic, prosocial and antistress effects, but evidence for anxiogenic actions of oxytocin in humans has recently emerged. Using region-specific manipulations of the mouse oxytocin receptor (Oxtr) gene (Oxtr), we identified the lateral septum as the brain region mediating fear-enhancing effects of Oxtr. These effects emerge after social defeat and require Oxtr specifically coupled to the extracellular signal-regulated protein kinase pathway. [ABSTRACT FROM AUTHOR]

Published

2013

16. Preso1, mGluR5 and the machinery of pain.

Author

Radulovic, Jelena and Tronson, Natalie C

Subjects

*GLUTAMATE receptors, *BEHAVIOR, *PAIN, *SCAFFOLD proteins, *KINASES, *CALCIUM

Abstract

The article offers information that the type I metabotropic glutamate receptors mGluR1 and mGluR5 regulate complex behaviors ranging from pain to emotion. Anchoring specific kinases close to membrane receptors, scaffold proteins incorporate input specificity into a system in which a signaling pathways is required for functional outcomes. By bringing mGluR1/5 and proline-directed kinases together, the scaffold protein Preso1 stabilize the interaction and attenuate calcium influx and reduce pain.

Published

2012

17. Receptors in (e)motion.

Author

Radulovic, Jelena and Tronson, Natalie C

Subjects

*FEAR, *AVERSIVE stimuli, *EMOTIONAL conditioning, *ANXIETY disorders, *APPEAL to fear (Logical fallacy), *PSYCHOLOGY

Abstract

The article discusses the study on alpha-amino-3-hydroxy-5-methyl-4- isoxazole-propionic acid (AMPA) receptor which shows that AMPA-type glutamate receptor (AMPA) trafficking protects the memory modification which causes excessive fear. It says that fears responses are learned when normal situations are paired with aversive events. It adds that human studies suggest that reconsolidation may provoke fear and certain mechanisms may trigger the fear phenomenon in individuals with anxiety disorder.

Published

2011

18. Small-conductance, Ca2+-activated K+ channel SK3 generates age-related memory and LTP deficits.

Author

Blank, Thomas, Nijholt, Ingrid, Min-jeong Kye, Radulovic, Jelena, and Spiess, Joachim

Subjects

AGE factors in cognition, HIPPOCAMPUS (Brain), MEMORY disorders, LABORATORY mice

Abstract

Cognitive deficits are among the most devastating changes associated with the aging process. Age-related decrement in performance on learning tasks is correlated with substantial changes in neuronal signal processing in the hippocampus. Here we show that elevated expression of small-conductance Ca2+-activated K+ channels (SK channels) of the SK3 type in hippocampi of aged mice contributes to reduced long-term potentiation (LTP) and impaired trace fear conditioning, a hippocampus-dependent learning task. [ABSTRACT FROM AUTHOR]

Published

2003