Annals of medicine
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Learned safety is established by negatively correlating the occurrence of a neutral stimulus and a noxious stimulus, which renders the previously neutral stimulus a 'safety signal'. While the neurophysiological and molecular mechanisms have been characterized in mice, it is currently not known how the neural substrates involved compare between mice and people. ⋯ We present a translational bridge between mouse and human models of learned safety in which cellular and molecular insights from animal experiments are extended to the human neural circuitry. This study provides an example of how animal experiments can be used to inform and target human studies, which in turn can corroborate results obtained in experimental animals.
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Abstract Suicide is a major public health concern. The etiology and pathogenic mechanisms associated with suicidal behavior are poorly understood. Recent research on the biological perspective of suicide has gained momentum and appears to provide a promising approach for identifying potential risk factors associated with this disorder. ⋯ Recent studies also demonstrate abnormalities in the functioning of BDNF, because its cognate receptors (tropomycin receptor kinase B and pan75 neurotrophin receptor) are abnormally active and/or expressed in the post-mortem brains of suicide subjects. There is further evidence of the role of BDNF in suicide as numerous studies show a strong association of suicidal behavior with BDNF functional polymorphism. Overall, it appears that abnormalities in BDNF signaling may serve as an important biological risk factor in the etiology and pathogenesis of suicide.