Neurobiology of aging
-
Neurobiology of aging · Aug 2011
The wake-promoting effects of hypocretin-1 are attenuated in old rats.
Disruption of sleep is a frequent complaint among elderly humans and is also evident in aged laboratory rodents. The neurobiological bases of age-related sleep/wake disruption are unknown. Given the critical role of the hypocretins in sleep/wake regulation, we sought to determine whether the wake-promoting effect of hypocretin changes with age in Wistar rats, a strain in which age-related changes in both sleep and hypocretin signaling have been reported. ⋯ An increase of parameters associated with homeostatic sleep recovery after sleep deprivation, including non-rapid eye movement (NR) sleep time, NR delta power, the ratio of NR to rapid eye movement (REM) sleep, and NR consolidation, occurred subsequent to Hcrt-induced waking in young but not old rats. ICV infusions of hypocretin-2 (10 and 30 μg) produced fewer effects in both young and old rats. These data demonstrate that activation of a major sleep/wake regulatory pathway is attenuated in old rats.
-
Neurobiology of aging · Aug 2011
Enhancement of dentate gyrus neurogenesis, dendritic and synaptic plasticity and memory by a neurotrophic peptide.
Pharmacological enhancement of hippocampal neurogenesis is a therapeutic approach for improvement of cognition in learning and memory disorders such as Alzheimer's disease. Here we report the development of an 11-mer peptide that we designed based on a biologically active region of the ciliary neurotrophic factor. This peptide, Peptide 6, induced proliferation and increased survival and maturation of neural progenitor cells into neurons in the dentate gyrus of normal adult C57BL6 mice. ⋯ Thirty-day treatment of the mice with a slow release bolus of the peptide implanted subcutaneously improved reference memory of the mice in Morris water maze. Peptide 6 has a plasma half life of over 6 h, is blood-brain barrier permeable, and acts by competitively inhibiting the leukemia inhibitory factor signaling. The fact that Peptide 6 is both neurogenic and neurotrophic and that this peptide is effective when given peripherally, demonstrates its potential for prevention and treatment of learning and memory disorders.
-
Neurobiology of aging · Apr 2011
Brain atrophy associated with baseline and longitudinal measures of cognition.
The overall goal was to identify patterns of brain atrophy associated with cognitive impairment and future cognitive decline in non-demented elders. Seventy-one participants were studied with structural MRI and neuropsychological testing at baseline and 1-year follow-up. Deformation-based morphometry was used to examine the relationship between regional baseline brain tissue volume with baseline and longitudinal measures of delayed verbal memory, semantic memory, and executive function. ⋯ Smaller left superior temporal cortex at baseline was associated with worse semantic memory at baseline, while smaller left temporal white and gray matter volumes were associated with greater semantic memory decline. Increased CSF and smaller frontal lobe volumes were associated with impaired executive function at baseline and greater longitudinal executive decline. These findings suggest that baseline volumes of prefrontal and temporal regions may underlie continuing cognitive decline due to aging, pathology, or both in non-demented elderly individuals.
-
Neurobiology of aging · Mar 2011
FUS, TARDBP, and SOD1 mutations in a Taiwanese cohort with familial ALS.
The cause of familial amyotrophic lateral sclerosis (FALS) has been attributed to mutations in several genes. The authors analyzed these genes, including SOD1, FUS, VAPB, ANG, TDP-43, FIG4, and CHMP2B, in a cohort of 15 index patients of Han Chinese descent with adult-onset FALS. Seven different mutations in eight patients, including three in SOD1 (G85R, T137R, and G138E), two in exon 15 of FUS (H517D and R521H), and two in exon 6 of TARDBP (M337V and N378D) were identified. ⋯ No mutation was found in VAPB, ANG, FIG4, or CHMP2B genes. Mutations in SOD1, FUS, and TARDBP account for 20%, 13.3%, and 20% of FALS, respectively. This study defined the distribution and frequency of mutations of FALS in a Taiwanese Han Chinese population, which not only broadens the spectrum of the mutations causing FALS, but also further highlights the importance of FUS and TARDBP in the pathogenesis of amyotrophic lateral sclerosis (ALS).
-
Neurobiology of aging · Jul 2010
Injured nerve-derived COX2/PGE2 contributes to the maintenance of neuropathic pain in aged rats.
Neuropathic pain (NeP) is a debilitating disease afflicting mostly the aged population. Inflammatory responses in injured nerves play a pivotal role in the pathogenesis of NeP. Injured nerve derived cyclooxygenase 2/prostaglandin E2 (COX2/PGE2) contributes to the genesis of NeP at the early stage in young rats. ⋯ Perineural injection of a selective COX2 inhibitor NS-398 relieved NeP, reversed PSNL increased expression of EP1, EP4 and TRPV1 and suppressed the levels of pain-related peptide substance P and calcitonin gene-related peptide in DRG neurons. These data suggest that injured nerve-derived PGE2 contributes to the maintenance of NeP at the chronic stage in aged rats. Chronically facilitating the synthesis of pain-related molecules in nociceptive DRG neurons is a novel mechanism underpinning the contribution of PGE2.