Induced neural progenitor cells and iPS-neurons from major depressive disorder patients show altered bioenergetics and electrophysiological properties

Abstract: BACKGROUND: The molecular pathomechanisms of major depressive disorder (MDD) are still not completely understood. Here, we follow the hypothesis, that mitochondrial dysfunction which is inevitably associated with bioenergetic misbalance is a risk factor that contributes to the susceptibility of an individual to develop MDD. MDD can be regarded as disease of the mind as well as of the body. Thus, we focused on mitochondrial and cellular function in reprogrammed neural cells from MDD patients and healthy control… Show more

“…Psychiatric disorders have also been associated with changes in diverse cellular phenotypes such as cell adherence 23–25 , cellular energetics 26,27 , and neuron electrophysiological response patterns 26,28 . In a limited number of cases, causal links between psychiatric genetic variants and changes in cellular phenotypic variation have been established.…”

Cell adhesion molecules play subclass-specific roles in electrophysiological response and Schizophrenia risk

“…Psychiatric disorders have also been associated with changes in diverse cellular phenotypes such as cell adherence 23–25 , cellular energetics 26,27 , and neuron electrophysiological response patterns 26,28 . In a limited number of cases, causal links between psychiatric genetic variants and changes in cellular phenotypic variation have been established.…”

Cell adhesion molecules play subclass-specific roles in electrophysiological response and Schizophrenia risk