Dominance Status Modulates Activity in Medial Amygdala Cells with Projections to the Bed Nucleus of the Stria Terminalis

[1]  D. Zuloaga,et al.  Androgen Regulation of Corticotropin Releasing Factor Receptor 1 in the Mouse Brain , 2022, Neuroscience.

[2]  F. Champagne,et al.  Behavioural and physiological plasticity in social hierarchies , 2022, Philosophical Transactions of the Royal Society B.

[3]  G. J. de Vries,et al.  Knockdown of sexually differentiated vasopressin expression in the bed nucleus of the stria terminalis reduces social and sexual behaviour in male, but not female, mice , 2021, Journal of neuroendocrinology.

[4]  Yu-xiang Zhang,et al.  Distinct Roles for Prefrontal Dopamine D1 and D2 Neurons in Social Hierarchy , 2021, The Journal of Neuroscience.

[5]  M. Kaster,et al.  Individual history of winning and hierarchy landscape influence stress susceptibility in mice , 2021, bioRxiv.

[6]  J. Grizzell,et al.  Gonadal steroid hormone receptors in the medial amygdala contribute to experience-dependent changes in stress vulnerability , 2021, Psychoneuroendocrinology.

[7]  Weizhe Hong,et al.  Organization of neural circuits underlying social behavior: A consideration of the medial amygdala , 2021, Current Opinion in Neurobiology.

[8]  H. Albers,et al.  Sex-dependent effects of social status on the regulation of arginine-vasopressin (AVP) V1a, oxytocin (OT), and serotonin (5-HT) 1A receptor binding and aggression in Syrian hamsters (Mesocricetus auratus) , 2020, Hormones and Behavior.

[9]  J. Grizzell,et al.  Activity of a vmPFC-DRN Pathway Corresponds With Resistance to Acute Social Defeat Stress , 2020, Frontiers in Neural Circuits.

[10]  C. Flachskamm,et al.  Social dominance mediates behavioral adaptation to chronic stress in a sex-specific manner , 2020, eLife.

[11]  J. Curley,et al.  Effect of relative social rank within a social hierarchy on neural activation in response to familiar or unfamiliar social signals , 2020, bioRxiv.

[12]  Zheng Li,et al.  Traumatic Stress Induces Prolonged Aggression Increase through Synaptic Potentiation in the Medial Amygdala Circuits , 2020, eNeuro.

[13]  K. Rosvall,et al.  How research on female vertebrates contributes to an expanded challenge hypothesis , 2020, Hormones and Behavior.

[14]  Dayu Lin,et al.  Posterior Amygdala Regulates Sexual and Aggressive Behaviors in Male Mice , 2020, Nature Neuroscience.

[15]  Alexxai V. Kravitz,et al.  Potentiation of Divergent Medial Amygdala Pathways Drives Experience-Dependent Aggression Escalation , 2020, The Journal of Neuroscience.

[16]  J. Grizzell,et al.  Chemogenetic activation of an infralimbic cortex to basolateral amygdala projection promotes resistance to acute social defeat stress , 2020, Scientific Reports.

[17]  B. Trainor,et al.  The challenge hypothesis revisited: Focus on reproductive experience and neural mechanisms , 2019, Hormones and Behavior.

[18]  Weizhe Hong,et al.  Sexually Dimorphic Control of Parenting Behavior by the Medial Amygdala , 2019, Cell.

[19]  L. Zweifel,et al.  Divergent medial amygdala projections regulate approach-avoidance conflict behavior , 2019, Nature Neuroscience.

[20]  J. Grizzell,et al.  Social Dominance Modulates Stress-induced Neural Activity in Medial Prefrontal Cortex Projections to the Basolateral Amygdala , 2018, Neuroscience.

[21]  Stephen Maren,et al.  Bed nucleus of the stria terminalis regulates fear to unpredictable threat signals , 2018, bioRxiv.

[22]  J. Curley,et al.  Immediate early gene activation throughout the brain is associated with dynamic changes in social context , 2018, bioRxiv.

[23]  S. Bhatnagar,et al.  Reduced Orexin System Function Contributes to Resilience to Repeated Social Stress , 2018, eNeuro.

[24]  B. Trainor,et al.  Oxytocin Receptors in the Anteromedial Bed Nucleus of the Stria Terminalis Promote Stress-Induced Social Avoidance in Female California Mice , 2018, Biological Psychiatry.

[25]  C. Ferris,et al.  Sex Differences in the Regulation of Offensive Aggression and Dominance by Arginine-Vasopressin , 2017, Front. Endocrinol..

[26]  J. Grizzell,et al.  Dominance status alters restraint-induced neural activity in brain regions controlling stress vulnerability , 2017, Physiology & Behavior.

[27]  R. Spencer,et al.  Analysis of c-Fos induction in response to social interaction in male and female Fisher 344 rats , 2017, Brain Research.

[28]  Lu Zhang,et al.  History of winning remodels thalamo-PFC circuit to reinforce social dominance , 2017, Science.

[29]  K. Huhman,et al.  An acute social defeat stressor in early puberty increases susceptibility to social defeat in adulthood , 2017, Hormones and Behavior.

[30]  Eli D. Strauss,et al.  Aggression and dominance: an interdisciplinary overview , 2016, Current Opinion in Behavioral Sciences.

[31]  R. Pique-Regi,et al.  Social status alters immune regulation and response to infection in macaques , 2016, Science.

[32]  H. Albers,et al.  Serotonin and arginine–vasopressin mediate sex differences in the regulation of dominance and aggression by the social brain , 2016, Proceedings of the National Academy of Sciences.

[33]  B. Trainor,et al.  Inhibition of vasopressin V1a receptors in the medioventral bed nucleus of the stria terminalis has sex- and context-specific anxiogenic effects , 2016, Neuropharmacology.

[34]  F. Hsieh,et al.  Decoupling social status and status certainty effects on health in macaques: a network approach , 2016, PeerJ.

[35]  Jian Qiu,et al.  AgRP Neural Circuits Mediate Adaptive Behaviors in the Starved State , 2016, Nature Neuroscience.

[36]  Thomas J. Davidson,et al.  Hypothalamic control of male aggression-seeking behavior , 2016, Nature Neuroscience.

[37]  P. Fuller,et al.  Medial amygdalar aromatase neurons regulate aggression in both sexes. , 2015, Cell reports.

[38]  S. Bhatnagar,et al.  Resilience to the effects of social stress: Evidence from clinical and preclinical studies on the role of coping strategies , 2014, Neurobiology of Stress.

[39]  David J. Anderson,et al.  Antagonistic Control of Social versus Repetitive Self-Grooming Behaviors by Separable Amygdala Neuronal Subsets , 2014, Cell.

[40]  Danielle M. Gerhard,et al.  Maintenance of dominance status is necessary for resistance to social defeat stress in Syrian hamsters , 2014, Behavioural Brain Research.

[41]  P. Sah,et al.  Functional Properties and Projections of Neurons in the Medial Amygdala , 2014, The Journal of Neuroscience.

[42]  Xiling Bian Physiological and morphological characterization of GABAergic neurons in the medial amygdala , 2013, Brain Research.

[43]  Cecília Pardo-Bellver,et al.  Differential efferent projections of the anterior, posteroventral, and posterodorsal subdivisions of the medial amygdala in mice , 2012, Front. Neuroanat..

[44]  D. Curry,et al.  Social status alters defeat-induced neural activation in Syrian hamsters , 2012, Neuroscience.

[45]  H. Albers The regulation of social recognition, social communication and aggression: Vasopressin in the social behavior neural network , 2012, Hormones and Behavior.

[46]  Hailan Hu,et al.  Medial Prefrontal Cortex Bidirectional Control of Social Hierarchy by Synaptic Efficacy in , 2011 .

[47]  A. Petrulis,et al.  Chemosensory and hormone information are relayed directly between the medial amygdala, posterior bed nucleus of the stria terminalis, and medial preoptic area in male Syrian hamsters , 2011, Hormones and Behavior.

[48]  David J. Anderson,et al.  Functional identification of an aggression locus in the mouse hypothalamus , 2010, Nature.

[49]  A. Petrulis,et al.  Anatomical connections between the anterior and posterodorsal sub-regions of the medial amygdala: integration of odor and hormone signals , 2010, Neuroscience.

[50]  Zhibin Zhang,et al.  Agonistic encounters and brain activation in dominant and subordinate male greater long-tailed hamsters , 2010, Hormones and Behavior.

[51]  A. Petrulis,et al.  The anterior medial amygdala transmits sexual odor information to the posterior medial amygdala and related forebrain nuclei , 2010, The European journal of neuroscience.

[52]  Matthew J. Fuxjager,et al.  Winning territorial disputes selectively enhances androgen sensitivity in neural pathways related to motivation and social aggression , 2010, Proceedings of the National Academy of Sciences.

[53]  R. Hammer,et al.  Short- and long-term effects of intermittent social defeat stress on brain-derived neurotrophic factor expression in mesocorticolimbic brain regions , 2010, Neuroscience.

[54]  R. Valentino,et al.  Individual differences in reactivity to social stress predict susceptibility and resilience to a depressive phenotype: role of corticotropin-releasing factor. , 2010, Endocrinology.

[55]  R. Dielenberg,et al.  Coping with defeat: acute glucocorticoid and forebrain responses to social defeat vary with defeat episode behaviour , 2009, Neuroscience.

[56]  E. Zorrilla,et al.  Social defeat stress activates medial amygdala cells that express type 2 corticotropin-releasing factor receptor mRNA , 2009, Neuroscience.

[57]  Matthew J. Fuxjager,et al.  The ‘home advantage’ is necessary for a full winner effect and changes in post-encounter testosterone , 2009, Hormones and Behavior.

[58]  M. Solomon,et al.  Sex and estrous cycle differences in the display of conditioned defeat in Syrian hamsters , 2007, Hormones and Behavior.

[59]  H. Albers,et al.  Repeated agonistic encounters in hamsters modulate AVP V1a receptor binding , 2005, Hormones and Behavior.

[60]  K. Huhman,et al.  Corticotropin-releasing factor type II (CRF₂) receptors in the bed nucleus of the stria terminalis modulate conditioned defeat in Syrian hamsters (Mesocricetus auratus). , 2005 .

[61]  David J. Anderson,et al.  Lhx6 Delineates a Pathway Mediating Innate Reproductive Behaviors from the Amygdala to the Hypothalamus , 2005, Neuron.

[62]  Michael Davis,et al.  Involvement of central amygdalar and bed nucleus of the stria terminalis corticotropin-releasing factor in behavioral responses to social defeat. , 2004, Behavioral neuroscience.

[63]  A. Jasnow,et al.  Conditioned defeat in male and female syrian hamsters , 2003, Hormones and Behavior.

[64]  Hong-wei Dong,et al.  Topography of projections from amygdala to bed nuclei of the stria terminalis , 2001, Brain Research Reviews.

[65]  C. Dayas,et al.  Neuroendocrine responses to an emotional stressor: evidence for involvement of the medial but not the central amygdala , 1999, The European journal of neuroscience.

[66]  S. Newman The Medial Extended Amygdala in Male Reproductive Behavior A Node in the Mammalian Social Behavior Network , 1999, Annals of the New York Academy of Sciences.

[67]  Michael Davis,et al.  Double Dissociation between the Involvement of the Bed Nucleus of the Stria Terminalis and the Central Nucleus of the Amygdala in Startle Increases Produced by Conditioned versus Unconditioned Fear , 1997, The Journal of Neuroscience.

[68]  C. Ferris,et al.  Serotonin blocks vasopressin-facilitated offensive aggression: Interactions within the ventrolateral hypothalamus of golden hamsters , 1996, Physiology & Behavior.

[69]  Robert L. Spencer,et al.  Visible burrow system as a model of chronic social stress: Behavioral and neuroendocrine correlates , 1995, Psychoneuroendocrinology.

[70]  S. Newman,et al.  Mating and agonistic behavior produce different patterns of Fos immunolabeling in the male Syrian hamster brain , 1995, Neuroscience.

[71]  Robert M. Sapolsky,et al.  Cortisol concentrations and the social significance of rank instability among wild baboons , 1992, Psychoneuroendocrinology.

[72]  C. Ferris,et al.  Acute and repeated exposure to social conflict in male golden hamsters: Increases in plasma POMC-peptides and cortisol and decreases in plasma testosterone , 1991, Hormones and Behavior.

[73]  D. Blanchard,et al.  Behavioral correlates of chronic dominance-subordination relationships of male rats in a seminatural situation , 1990, Neuroscience & Biobehavioral Reviews.

[74]  R. Sapolsky,et al.  Hypercortisolism among socially subordinate wild baboons originates at the CNS level. , 1989, Archives of general psychiatry.

[75]  L. Takahashi,et al.  Organization and expression of agonistic and socio-sexual behavior in golden hamsters over the estrous cycle and after ovariectomy , 1983, Physiology & Behavior.

[76]  R. Baenninger,et al.  Dominance: Measure first and then define , 1981, Behavioral and Brain Sciences.

[77]  M. Lehman,et al.  Medial nucleus of the amygdala mediates chemosensory control of male hamster sexual behavior. , 1980, Science.

[78]  R. Lisk,et al.  Prelordotic behavior in the hamster: a hormonally modulated transition from aggression to sexual receptivity. , 1979, Journal of comparative and physiological psychology.

[79]  D. Pfaff,et al.  Aggressive behavior in female hamsters: the hormonal basis for fluctuations in female aggressiveness correlated with estrous state. , 1977, Journal of comparative and physiological psychology.

[80]  I. Landau Light-dark rhythms in aggressive behavior of the male golden hamster , 1975, Physiology & Behavior.

[81]  D. Wise Aggression in the female golden hamster: effects of reproductive state and social isolation. , 1974, Hormones and behavior.

[82]  L. C. Drickamer,et al.  Predictors of social dominance in the adult female golden hamster (Mesocricetus auratus). , 1973, Animal behaviour.

[83]  L. C. Drickamer,et al.  Predictors of dominance in the male golden hamster (Mesocricetus auratus). , 1973, Animal behaviour.

[84]  C. J. Lerwill,et al.  The agonistic behaviour of the golden hamster Mesocricetus auratus (waterhouse) , 1971 .

[85]  A. Petrulis Structure and function of the medial amygdala , 2020 .

[86]  Y. Yanagawa,et al.  Cortical-like functional organization of the pheromone-processing circuits in the medial amygdala. , 2008, Journal of neurophysiology.

[87]  K. Huhman,et al.  Is the medial amygdala part of the neural circuit modulating conditioned defeat in Syrian hamsters? , 2008, Learning & memory.

[88]  H. Albers,et al.  6 – Hormonal Basis of Social Conflict and Communication , 2002 .

[89]  L. Swanson,et al.  Organization of projections from the medial nucleus of the amygdala: A PHAL study in the rat , 1995, The Journal of comparative neurology.

[90]  C. Drews THE CONCEPT AND DEFINITION OF DOMINANCE IN ANIMAL BEHAVIOUR , 1993 .

[91]  A. Payne,et al.  Agonistic behaviour between pairs of hamsters of the same and opposite sex in a neutral observation area. , 1970, Behaviour.