Neuroscience
-
Neurons in the lateral habenula (LHb) are activated by reward omission and inhibited by reward delivery-reward processing functions opposite those of midbrain dopaminergic neurons. To further explore this, we examined the role of the LHb in associating a conditioned stimulus (CS) with the absence of an unconditioned stimulus (US) in an appetitive Pavlovian-conditioning paradigm. Rats underwent training in which a CS (light) was either paired (100% CS-US contingency) or unpaired (0% CS-US contiguity and negative contingency) with an US (food). ⋯ The number of c-Fos-positive signals in LHb neurons projecting to dopaminergic midbrain neurons was higher in the unpaired group than in the paired group. Excitotoxic LHb lesions did not affect the acquisition of conditioned behaviors in the association of a CS with the presence or absence of an US. Significant increases in the numbers of c-Fos-positive neurons in the unpaired group suggest that LHb neurons engage in the process that associates a CS with the absence of an US.
-
Cofilin, a cytoskeletal actin severing protein, is essential for the initiation phase of apoptosis. The formation of cofilin rods (containing 1:1 cofilin:actin) has been studied in cultured mammalian neurons under conditions of excessive glutamate, ATP depletion (ATP-D) or oxidative stress. These conditions simulate the pathologies occurring during ischemic stroke. ⋯ To further corroborate the role of activated cofilin in ischemic stroke, inhibition of cofilin by LIM kinase (Limk1) over-expression was performed. Lmik1 reduced cofilin rod formation and MAP2 degradation, and consequently, attenuated cofilin mediated-apoptosis 24 h after tMCAO. From this evidence we conclude that cofilin plays a role in the onset of ischemic-induced apoptosis and may be efficacious in future studies as a drug target for ischemic stroke.
-
Motor imagery (MI) ability is highly subjective, as indicated by the individual scores of the MIQ-3 questionnaire, and poor imagers compensate for the difficulty in performing MI with larger cerebral activations, as demonstrated by MI studies involving hands/limbs. In order to identify general, task-independent MI ability correlates, 16 volunteers were stratified with MIQ-3. The scores in the kinaesthetic (K) and 1st-person visual (V) perspectives were associated with EEG patterns obtained during K-MI and V-MI of the same complex MIQ-3 movements during these MI tasks (Spearman's correlation, significance at <0.05, SnPM corrected). ⋯ The results thus suggest different computational mechanisms for MI-V and MI-K. The association between low alpha/beta desynchronization and V-MIQ scores and between theta changes and K-MIQ scores suggest a cognitive effort with greater cerebral activation in participants with lower V-MI ability. The association between information flow to prefrontal hub and K-MI ability suggest the need for a continuous update of information to support MI-related executive functions in subjects with poor K-MI ability.
-
Freezing of gait (FoG) is a brief, episodic absence or marked reduction of forward progression of the feet, despite the intention to walk, that is common in people with Parkinson's disease (PD). We hypothesized that not only motor, but higher level cognitive and attention areas may be impaired in freezers. In this study, we aimed to characterize differences in cortical and subcortical functional connectivity specific to FoG. ⋯ Associations between functional connectivity and objective measures of FoG were determined via predictive modeling using hold-out cross validation. We found that connectivity between the left globus pallidus (GP) and left somatosensory cortex and between two brain areas in the default and insular/vestibular networks exhibited significant differences specific to FoG and were also strong and significant predictors of FoG severity. Our findings suggest that the interplay among motor, default and vestibular areas of the left cortex are critical in the pathology of FoG.
-
Clinical and animal studies show maternal alcohol consumption during pregnancy causes in offspring persistent alterations in neuroimmune and neurochemical systems known to increase alcohol drinking and related behaviors. Studies in lateral hypothalamus (LH) demonstrate in adolescent offspring that maternal oral administration of ethanol stimulates the neuropeptide, melanin-concentrating hormone (MCH), together with the inflammatory chemokine C-C motif ligand 2 (CCL2) and its receptor CCR2 which are increased in most MCH neurons. These effects, consistently stronger in females than males, are detected in embryos, not only in LH but hypothalamic neuroepithelium (NEP) along the third ventricle where neurons are born and CCL2 is stimulated within radial glia progenitor cells and their laterally projecting processes that facilitate MCH neuronal migration toward LH. ⋯ After ICV injection of CCL2 (0.1 µg/µl) on embryonic day 14 (E14) when neurogenesis peaks, we observed in embryos just before birth (E19) a significant increase in endogenous CCL2 within radial glia cells and their processes in NEP. These auto-regulatory effects, evident only in female embryos, were accompanied by increased density of CCL2 and MCH neurons in LH, more strongly in females than males. These results support involvement of embryonic CCL2/CCR2 neuroimmune system in radial glia progenitor cells in mediating sexually dimorphic effects of maternal challenges such as ethanol on LH MCH neurons that colocalize CCL2 and CCR2.