Experimental neurology
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Experimental neurology · Jun 2013
Impaired recruitment of seizure-generated neurons into functional memory networks of the adult dentate gyrus following long-term amygdala kindling.
Epileptic seizures increase the birth of new neurons in the adult hippocampus. Although the consequences of aberrant neurogenesis on behavior are not fully understood, one hypothesis is that seizure-generated neurons might form faulty circuits that disrupt hippocampal functions, such as learning and memory. In the present study, we employed long-term amygdala kindling (i.e., rats receive 99-electrical stimulations) to examine the effect of repeated seizures on hippocampal neurogenesis and behavior. ⋯ Moreover, long-term kindling also prevented the activation of 4-week old newborn cells in response to fear memory retrieval. These results indicate that the presence of seizure activity during cell maturation impedes the ability of new neurons to integrate properly into circuits important in memory formation. Together, our findings suggest that aberrant seizure-induced neurogenesis might contribute to the development of learning impairments in chronic epilepsy and raise the possibility that targeting the reduced activation of adult born neurons could represent a beneficial strategy to reverse cognitive deficits in some epileptic patients.
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Experimental neurology · May 2013
ReviewCircadian dysfunction may be a key component of the non-motor symptoms of Parkinson's disease: insights from a transgenic mouse model.
Sleep disorders are nearly ubiquitous among patients with Parkinson's disease (PD), and they manifest early in the disease process. While there are a number of possible mechanisms underlying these sleep disturbances, a primary dysfunction of the circadian system should be considered as a contributing factor. Our laboratory's behavioral phenotyping of a well-validated transgenic mouse model of PD reveals that the electrical activity of neurons within the master pacemaker of the circadian system, the suprachiasmatic nuclei (SCN), is already disrupted at the onset of motor symptoms, although the core features of the intrinsic molecular oscillations in the SCN remain functional. ⋯ This raises the possibility that the sleep and circadian dysfunction experienced by PD patients may not merely be a subsidiary of the motor symptoms, but an integral part of the disease. Furthermore, we speculate that circadian dysfunction can even accelerate the pathology underlying PD. If these hypotheses are correct, more aggressive treatment of the circadian misalignment and sleep disruptions in PD patients early in the pathogenesis of the disease may be powerful positive modulators of disease progression and patient quality of life.
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Daily rhythms in neural activity underlie circadian rhythms in sleep-wake and other daily behaviors. The cells within the mammalian suprachiasmatic nucleus (SCN) are intrinsically capable of 24-h timekeeping. ⋯ Recent studies have identified a small number of neuropeptides critical for this ability to synchronize and sustain coordinated daily rhythms. This review highlights the roles of specific intracellular and intercellular signals within the SCN that underlie circadian synchrony.
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Experimental neurology · Mar 2013
Changes in nociceptive sensitivity and object recognition in experimental autoimmune encephalomyelitis (EAE).
Multiple sclerosis is associated with a high incidence of depression, cognitive impairments and neuropathic pain. Previously, we demonstrated that tactile allodynia is present at disease onset in an animal model of MS, experimental autoimmune encephalomyelitis (EAE). We have now monitored changes in object recognition in mice with EAE to determine if altered nociceptive sensitivity is also associated with behavioral signs indicative of cognitive impairment in this model. ⋯ To determine if changes in the levels of EAAT-2 were responsible for the observed changes in nociceptive sensitivity and cognitive deficits, we treated EAE mice with the β-lactam antibiotic ceftriaxone, an agent known to increase glutamate transporter levels in vivo. Ceftriaxone prevented tactile hypersensitivity and normalized performance in the NOR assay in EAE mice. These findings highlight the important interrelationship between pain and cognitive function in the disease and suggest that targeting spinally mediated pain hypersensitivity is a novel therapeutic avenue to treat impairments in other higher order cortical processes.
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Experimental neurology · Mar 2013
Fingolimod reduces cerebral lymphocyte infiltration in experimental models of rodent intracerebral hemorrhage.
T-lymphocytes promote cerebral inflammation, thus aggravating neuronal injury after stroke. Fingolimod, a sphingosine 1-phosphate receptor analog, prevents the egress of lymphocytes from primary and secondary lymphoid organs. Based on these findings, we hypothesized fingolimod treatment would reduce the number of T-lymphocytes migrating into the brain, thereby ameliorating cerebral inflammation following experimental intracerebral hemorrhage (ICH). ⋯ Long-term neurocognitive performance and histopathological analysis were evaluated in Sprague-Dawley rats between 8 and 10 weeks post-cICH (n=28). Treated rats showed reduced spatial and motor learning deficits, along with significantly reduced brain atrophy and neuronal cell loss within the basal ganglia (p<0.05 compared to vehicle). We conclude that fingolimod treatment ameliorated cerebral inflammation, at least to some extent, by reducing the availability and subsequent brain infiltration of T-lymphocytes, which improved the short and long-term sequelae after experimental ICH in rodents.