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The role of brain‐derived neurotrophic factor in learned fear processing: an awake rat fMRI study
Author(s) -
Harris A. P.,
Lennen R. J.,
Brydges N. M.,
Jansen M. A.,
Pernet C. R.,
Whalley H. C.,
Marshall I.,
Baker S.,
Basso A. M.,
Day M.,
Holmes M. C.,
Hall J.
Publication year - 2016
Publication title -
genes, brain and behavior
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.315
H-Index - 91
eISSN - 1601-183X
pISSN - 1601-1848
DOI - 10.1111/gbb.12277
Subject(s) - psychology , brain derived neurotrophic factor , amygdala , functional magnetic resonance imaging , neuroscience , neurotrophic factors , peripheral , medicine , receptor
Brain‐derived neurotrophic factor ( BDNF ) signaling is implicated in the etiology of many psychiatric disorders associated with altered emotional processing. Altered peripheral (plasma) BDNF levels have been proposed as a biomarker for neuropsychiatric disease risk in humans. However, the relationship between peripheral and central BDNF levels and emotional brain activation is unknown. We used heterozygous BDNF knockdown rats ( BDNF +/− ) to examine the effects of genetic variation in the BDNF gene on peripheral and central BDNF levels and emotional brain activation as assessed by awake functional magnetic resonance imaging ( fMRI ). BDNF +/− and control rats were trained to associate a flashing light (conditioned stimulus; CS ) with foot‐shock, and brain activation in response to the CS was measured 24 h later in awake rats using fMRI . Central and peripheral BDNF levels were decreased in BDNF +/− rats compared with control rats. Activation of fear circuitry (amygdala, periaqueductal gray, granular insular) was seen in control animals; however, activation of this circuitry was absent in BDNF +/− animals. Behavioral experiments confirmed impaired conditioned fear responses in BDNF +/− rats, despite intact innate fear responses. These data confirm a positive correlation [ r  = 0.86, 95% confidence interval (0.55, 0.96); P  = 0.0004] between peripheral and central BDNF levels and indicate a functional relationship between BDNF levels and emotional brain activation as assessed by fMRI . The results demonstrate the use of rodent fMRI as a sensitive tool for measuring brain function in preclinical translational studies using genetically modified rats and support the use of peripheral BDNF as a biomarker of central affective processing.

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