Excitable Adult-Generated GABAergic Neurons Acquire Functional Innervation in the Cortex after Stroke

Summary: Ischemic stroke enhances the proliferation of adult-generated precursor cells that ectopically migrate toward the infarct. Studies have correlated precursor cell proliferation and subsequent adult neurogenesis with enhanced stroke recovery, yet it remains unclear whether stroke can generate new neurons capable of functional integration into the injured cortex. Here, using single and bitransgenic reporter mice, we identify spatial and temporal features of a multilineage cellular response to focal ischemia. We reveal that a small population of stroke-induced immature neurons accumulate within the peri-infarct region of the adult sensorimotor cortex, exhibit voltage-dependent conductances, fire action potentials, express GABAergic markers, and receive sparse GABAergic synaptic inputs. Collectively, these findings reveal that GABAergic neurons arising from the lateral ventricle have the capacity to integrate into the stroke-injured cortex, although their limited number and exiguous synaptic integration may limit their ability to participate in stroke recovery. : In this article, Kannangara and colleagues histologically and electrophysiologically characterized the precursor cell response evoked in the adult cortex after focal ischemia. The authors identify a population of doublecortin-expressing GABAergic immature neurons localized to the injured cortical regions with the capacity to fire action potentials and receive GABAergic input, indicative of functionally integration into the cortical network. Keywords: stroke, neurogenesis, GABA, cortex, ischemia, injury, photothrombosis, stem cells, brain repair, subventricular zon

Cognition, learning behaviour and hippocampal synaptic plasticity are not disrupted in mice over-expressing the cholesterol transporter ABCG1

Background: Cognitive deficits are a hallmark feature of both Down Syndrome (DS) and Alzheimer's Disease (AD). Extra copies of the genes on chromosome 21 may also play an important role in the accelerated onset of AD in DS individuals. Growing evidence suggests an important function for cholesterol in the pathogenesis of AD, particularly in APP metabolism and production of Aβ peptides. The ATP-Binding Cassette-G1 (ABCG1) transporter is located on chromosome 21, and participates in the maintenance of tissue cholesterol homeostasis. Results: To assess the role of ABCG1 in DS-related cognition, we evaluated the cognitive performance of mice selectively over-expressing the ABCG1 gene from its endogenous regulatory signals. Both wild-type and ABCG1 transgenic mice performed equivalently on several behavioral tests, including measures of anxiety, as well as on reference and working memory tasks. No deficits in hippocampal CA1 synaptic plasticity as determined with electrophysiological studies were apparent in mice over-expressing ABCG1. Conclusion: These findings indicate that although ABCG1 may play a role in maintaining cellular or tissue cholesterol homeostasis, it is unlikely that excess ABCG1 expression contributes to the cognitive deficits in DS individuals.Cellular and Physiological Sciences, Department ofPathology and Laboratory Medicine, Department ofOther UBCNon UBCMedicine, Faculty ofReviewedFacult

Role of curcumin and the inhibition of NF-kappaB in the onset of chemotherapy-induced mucosal barrier injury.

Contains fulltext : 59308.pdf (publisher's version ) (Closed access)The inhibition of nuclear factor kappa B (NF-kappaB) by, for instance, curcumin is becoming an important new approach in combination with chemotherapy or irradiation for the treatment of a variety of cancers including haematological malignancies. A dose-limiting side effect of anticancer therapy in the gastrointestinal tract is mucosal barrier injury. It is hypothesised that mucosal barrier injury is initiated and amplified by proinflammatory-and NF-kappaB-regulated mediators. Therefore, the effect of NF-kappaB inhibition was studied in the onset of mucosal barrier injury. In response to cytostatic drug treatment (arabinoside cytosine (Ara-C) and methotrexate (MTX)), NF-kappaB was activated in intestinal epithelial cells (IEC-6) resulting in an NF-kappaB-related induction of tumour necrosis factor alpha and monocyte chemoattractant protein-1. NF-kappaB inhibition increased the susceptibility of IEC-6 cells to Ara-C as well as MTX-induced cell death when obtained by the addition of caffeic acid phenethyl ester (CAPE), but not using curcumin. In an animal model for MTX-induced mucosal barrier injury, the induction of NF-kappaB-related cytokines and chemokines was detected upon treatment with MTX. Despite increased susceptibility shown in vitro, the inhibition of NF-kappaB resulted in a partial amelioration of villous atrophy normally seen in the small intestine upon MTX treatment. These results show that the inhibition of NF-kappaB does not increase intestinal side effects of the anticancer treatment, suggesting a safe use of curcumin and CAPE in combination with anticancer treatment

Mutated ND2 impairs mitochondrial complex I assembly and leads to Leigh syndrome.

We describe a novel mitochondrial ND2 mutation (T4681C) in a patient presenting with Leigh Syndrome. Biochemical analyses revealed a low isolated complex I activity in patient's fibroblasts, blood and skeletal muscle. Mutant transmitochondrial cybrid clones retained the specific complex I defect, demonstrating the mitochondrial genetic origin of the disease. The mutation leads to a L71P substitution at an evolutionary conserved amino acid stretch. By two-dimensional blue native electrophoresis (2D-BN-SDS-PAGE), decreased complex I levels were observed together with an accumulation of specific assembly intermediates, suggesting that the mutation disturbs the complex I assembly pathway