These changes were associated with specific deficits in an extrad

These changes were associated with specific deficits in an extradimensional PARP inhibitor attentional

set shifting task that correlated with individual differences in the degree of dendritic atrophy (Liston et al., 2006). In another study, chronic stress caused deficits in spatial working memory that correlated with spine loss on the apical dendrites of prelimbic pyramidal cells (Hains et al., 2009). The apical dendrites of layer II/III pyramidal cells are important recipients of long-range corticocortical projections, so apical dendritic atrophy would be expected to impair functional connectivity across neuroanatomically distributed brain networks (Dehaene et al., 1998). This is exactly what was observed in a related functional neuroimaging study BLZ945 molecular weight (Liston et al., 2009). Here, chronically stressed but otherwise healthy human subjects were tested on an attention shifting task during fMRI scanning. They exhibited deficits in fMRI measures of functional connectivity between dorsolateral prefrontal cortex and a frontoparietal attention network that were correlated with stress levels and attention shifting impairments. Similar effects were also observed in the medial prefrontal cortex in another human neuroimaging study, in which

stressful life events were associated with decreased gray matter volume in the medial prefrontal, anterior cingulate, and subgenual cingulate cortex (Ansell et al., 2012). Thus, chronic stress has been linked to deficits in structural and functional connectivity measures and associated attentional impairments in both rodent models and human neuroimaging studies. These studies also indicate that connectivity in cortical networks is highly plastic and is often capable of recovering after a change in stress exposure. In rats, four weeks after cessation of the stressor, spine densities fully recovered

to unstressed levels (Radley et al., 2005). Similarly, when the same human subjects were re-scanned after a month of rest and reduced stress, both functional connectivity deficits and attention shifting impairments second normalized and were no different from unstressed control subjects (Liston et al., 2009). The reversibility of these stress effects underscores the striking capacity for resilience that is evident in the healthy brain. While the healthy human brain demonstrates a remarkable capacity for adaptation and recovery from stressors in daily life, patients with neuropsychiatric disorders often do not. In a recent clinical neuroimaging study, we found that patients with depression exhibited a similar pattern of functional connectivity deficits between dorsolateral prefrontal cortex and a frontoparietal control network that may contribute to rumination, executive control deficits, and other cognitive symptoms (Liston et al., 2014).

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