Amygdala responsivity related to memory of emotionally neutral stimuli constitutes a trait factor for depression

Episodic memory impairment is considered to be a core cognitive deficit of Major Depressive Disorder (MDD) and has motivated a line of research investigating the role of the amygdala and the hippocampus in depression. While functional neuroimaging studies have focused on memory for emotional but not for neutral stimuli, in order to probe amygdala function, structural imaging studies have tied episodic memory to hippocampal function. We therefore investigated the neural correlates of episodic memory formation for neutral stimuli in 20 patients with a first depressive episode, 20 patients recovered from a first episode and 20 healthy controls. Because there is evidence that the amygdala exhibits hyperactive responses even to neutral stimuli in depressed subjects, we specifically explored the potential role of the amygdala in forming episodic memories with neutral content. Both patient groups showed stronger subsequent memory effects in the amygdala when compared to controls, in the absence of any differences in hippocampal activity between groups. Patients with a first episode of MDD showed increased activity related to episodic memory formation in a fronto-limbic network. These state-related activations may be related to a compensatory mechanism, which is supported by the absence of any differences in memory performance between groups. These findings represent initial evidence for a neurocognitive trait or vulnerability marker of depression-amygdala involvement in episodic memory formation of neutral stimuli.

[1]  Guillén Fernández,et al.  Stressed Memories: How Acute Stress Affects Memory Formation in Humans , 2009, The Journal of Neuroscience.

[2]  G. Niederehe,et al.  Depression and memory impairment: a meta-analysis of the association, its pattern, and specificity. , 1995, Psychological bulletin.

[3]  Karl J. Friston,et al.  Statistical parametric maps in functional imaging: A general linear approach , 1994 .

[4]  Jason P. Mitchell,et al.  Multiple routes to memory: Distinct medial temporal lobe processes build item and source memories , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[5]  Michael Marriott,et al.  Lower hippocampal volume in patients suffering from depression: a meta-analysis. , 2004, The American journal of psychiatry.

[6]  Ahmad R. Hariri,et al.  Preferential Amygdala Reactivity to the Negative Assessment of Neutral Faces , 2009, Biological Psychiatry.

[7]  R. Cabeza,et al.  Interaction between the Amygdala and the Medial Temporal Lobe Memory System Predicts Better Memory for Emotional Events , 2004, Neuron.

[8]  Neil Burgess,et al.  Intrusive Images in Psychological Disorders , 2010, Psychological review.

[9]  J. G. Snodgrass,et al.  Pragmatics of measuring recognition memory: applications to dementia and amnesia. , 1988, Journal of experimental psychology. General.

[10]  J R Hodges,et al.  Retrosplenial cortex (BA 29/30) hypometabolism in mild cognitive impairment (prodromal Alzheimer's disease) , 2003, The European journal of neuroscience.

[11]  R. Cabeza,et al.  Posterior Midline and Ventral Parietal Activity is Associated with Retrieval Success and Encoding Failure , 2009, Front. Hum. Neurosci..

[12]  Karl J. Friston,et al.  A unified statistical approach for determining significant signals in images of cerebral activation , 1996, Human brain mapping.

[13]  Hackjin Kim,et al.  Functional neuroimaging studies of the amygdala in depression. , 2002, Seminars in clinical neuropsychiatry.

[14]  劉 健勤,et al.  複雑系に見たDefault Mode Network , 2009, ICS 2009.

[15]  R. Buckner Memory and Executive Function in Aging and AD Multiple Factors that Cause Decline and Reserve Factors that Compensate , 2004, Neuron.

[16]  Jean-Luc Anton,et al.  Region of interest analysis using an SPM toolbox , 2010 .

[17]  Eric Vermetten,et al.  Hippocampal volume, memory, and cortisol status in major depressive disorder: effects of treatment , 2004, Biological Psychiatry.

[18]  Simon B. Eickhoff,et al.  A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data , 2005, NeuroImage.

[19]  Glenda M MacQueen,et al.  Course of illness, hippocampal function, and hippocampal volume in major depression , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[20]  M. First,et al.  Structured Clinical Interview for DSM-IV Axis I Disorders , 1997 .

[21]  Olaf B. Paulson,et al.  Regional activation of the human medial temporal lobe during intentional encoding of objects and positions , 2009, NeuroImage.

[22]  Florin Dolcos,et al.  Prefrontal mechanisms for executive control over emotional distraction are altered in major depression , 2008, Psychiatry Research: Neuroimaging.

[23]  Karl J. Friston,et al.  Neuroanatomical correlates of externally and internally generated human emotion. , 1997, The American journal of psychiatry.

[24]  H. Eichenbaum,et al.  The medial temporal lobe and recognition memory. , 2007, Annual review of neuroscience.

[25]  D J Kupfer,et al.  Conceptualization and rationale for consensus definitions of terms in major depressive disorder. Remission, recovery, relapse, and recurrence. , 1991, Archives of general psychiatry.

[26]  John T Wixted,et al.  Activity in the Medial Temporal Lobe Predicts Memory Strength, Whereas Activity in the Prefrontal Cortex Predicts Recollection , 2008, The Journal of Neuroscience.

[27]  D. Sheehan,et al.  The Mini-International Neuropsychiatric Interview (M.I.N.I.): the development and validation of a structured diagnostic psychiatric interview for DSM-IV and ICD-10. , 1998, The Journal of clinical psychiatry.

[28]  J. Teasdale,et al.  Rumination and overgeneral memory in depression: effects of self-focus and analytic thinking. , 2001, Journal of abnormal psychology.

[29]  C. Elger,et al.  Neural Correlates of Successful Declarative Memory Formation and Retrieval: The Anatomical Overlap , 2004, Cortex.

[30]  M. Raichle,et al.  Functional anatomical correlates of antidepressant drug treatment assessed using PET measures of regional glucose metabolism , 2002, European Neuropsychopharmacology.

[31]  P. V. Eijndhoven,et al.  Amygdala Volume Marks the Acute State in the Early Course of Depression , 2009, Biological Psychiatry.

[32]  Karl J. Friston,et al.  Stochastic Designs in Event-Related fMRI , 1999, NeuroImage.

[33]  T. Dalgleish,et al.  Autobiographical Memory Specificity and Emotional Disorder , 2007, Psychological bulletin.

[34]  J. P. Hamilton,et al.  Neural Substrates of Increased Memory Sensitivity for Negative Stimuli in Major Depression , 2008, Biological Psychiatry.

[35]  Karl J. Friston,et al.  Functional Imaging Studies of Neuropsychological Patients: Applications and Limitations , 2002, Neurocase.

[36]  M. Mintun,et al.  The default mode network and self-referential processes in depression , 2009, Proceedings of the National Academy of Sciences.

[37]  J. Sayers The world health report 2001 - Mental health: new understanding, new hope , 2001 .

[38]  J. Lépine,et al.  Mini International Neuropsychiatric Interview , 2013 .

[39]  Marcia K. Johnson,et al.  Source monitoring 15 years later: what have we learned from fMRI about the neural mechanisms of source memory? , 2009, Psychological bulletin.

[40]  W. Drevets Neuroimaging Abnormalities in the Amygdala in Mood Disorders , 2003, Annals of the New York Academy of Sciences.

[41]  Guillén Fernández,et al.  Probing the neural correlates of associative memory formation: A parametrically analyzed event-related functional MRI study , 2007, Brain Research.

[42]  Gregory G. Brown,et al.  Amygdala Reactivity and Mood-Congruent Memory in Individuals at Risk for Depressive Relapse , 2007, Biological Psychiatry.

[43]  Guillén Fernández,et al.  Interaction between the Human Hippocampus and the Caudate Nucleus during Route Recognition , 2004, Neuron.

[44]  C. MacLeod,et al.  Cognitive vulnerability to emotional disorders. , 2005, Annual review of clinical psychology.

[45]  Thanh-Thu T. Tran,et al.  Hippocampal atrophy confounds template-based functional MR imaging measures of hippocampal activation in patients with mild cognitive impairment. , 2006, AJNR. American journal of neuroradiology.

[46]  Erno J. Hermans,et al.  From Specificity to Sensitivity: How Acute Stress Affects Amygdala Processing of Biologically Salient Stimuli , 2009, Biological Psychiatry.

[47]  Eric Vermetten,et al.  Deficits in hippocampal and anterior cingulate functioning during verbal declarative memory encoding in midlife major depression. , 2004, The American journal of psychiatry.

[48]  K. Amunts,et al.  Cytoarchitectonic mapping of the human amygdala, hippocampal region and entorhinal cortex: intersubject variability and probability maps , 2005, Anatomy and Embryology.

[49]  Sabrina M. Tom,et al.  Dissociable correlates of recollection and familiarity within the medial temporal lobes , 2004, Neuropsychologia.

[50]  Wendy Heller,et al.  Prefrontal cortex activity differentiates processes affecting memory in depression , 2004, Biological Psychology.

[51]  J. Buitelaar,et al.  Neural state and trait bases of mood-incongruent memory formation and retrieval in first-episode major depression. , 2010, Journal of psychiatric research.

[52]  M. W. Brown,et al.  Episodic memory, amnesia, and the hippocampal–anterior thalamic axis , 1999, Behavioral and Brain Sciences.