James G. McLarnon scite author profile

This study has used immunohistochemical examination of tissue obtained from Alzheimer’s disease (AD) brains and rat hippocampus injected with Aβ1-42 peptide to determine effects of induced inflammatory reactivity on integrity of blood–brain barrier (BBB) and viability of neurons. Tissue from AD, but not non-demented, brains exhibited a diffuse pattern of staining for fibrinogen and immunoglobulin (IgG) indicative of BBB leakiness with considerable fibrinogen immunoreactivity (ir) appearing in association with Aβ deposits. Immunostaining for the endothelial cell specific glycoprotein, von Willebrand factor, showed morphological evidence for altered blood vessels in AD tissue. AD brains also demonstrated extensive areas of fibrinogen ir in association with microglial reactivity. In vivo, intra-hippocampal injection of Aβ1-42 caused time-dependent (1–7 days after injection) increases in double staining of fibrinogen with areas of microgliosis. Two independent pharmacological strategies were employed to examine how Aβ1-42 stimulation (7 days injection) may be linked to neurodegeneration. The defibrinogenating compound, ancrod, reduced inflammatory reactivity, levels of parenchymal fibrinogen and IgG, and was neuroprotective. These results prompted use of Aβ1-42 plus fibrinogen as a novel in vivo inflammatory stimulus and this combination significantly enhanced inflammatory reactivity, vascular perturbations and neuronal damage compared to Aβ1-42 alone. A second approach, using anti-Mac-1 (antibody for antigen CD11b) to block activation of microglia, was highly effective in attenuating effects of Aβ1-42 plus fibrinogen amplification of inflammatory and vascular responses and conferred significant neuroprotection. The overall findings from study of AD tissue and in vivo in Aβ1-42 and Aβ1-42 plus fibrinogen stimulated rat hippocampus suggest microglial responses to promote increased extravasation of blood protein as a critical component in amplifying inflammatory reactivity and causing neuronal damage in inflamed AD brain.

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Metabolic Communication between Astrocytes and Neurons via Bicarbonate-Responsive Soluble Adenylyl Cyclase

Choi

Gordon

Zhou

et al. 2012

Neuron

229

225

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SUMMARY Astrocytes are proposed to participate in brain energy metabolism by supplying substrates to neurons from their glycogen stores and from glycolysis. However, the molecules involved in metabolic sensing and the molecular pathways responsible for metabolic coupling between different cell types in the brain are not fully understood. Here we show that a recently cloned bicarbonate (HCO3−) sensor, soluble adenylyl cyclase (sAC), is highly expressed in astrocytes and becomes activated in response to HCO3− entry via the electrogenic NaHCO3 cotransporter (NBC). Activated sAC increases intracellular cAMP levels, causing glycogen breakdown, enhanced glycolysis, and the release of lactate into the extracellular space, which is subsequently taken up by neurons for use as an energy substrate. This process is recruited over a broad physiological range of [K+]ext and also during aglycemic episodes, helping to maintain synaptic function. These data reveal a molecular pathway in astrocytes that is responsible for brain metabolic coupling to neurons.

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Upregulated Expression of Purinergic P2X₇Receptor in Alzheimer Disease and Amyloid-β Peptide-Treated Microglia and in Peptide-Injected Rat Hippocampus

McLarnon

Ryu

Walker

et al. 2006

J Neuropathol Exp Neurol

236

197

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The expression of the purinergic receptor subtype P2X(7)R, a nonselective cationic channel activated by high levels of adenosine triphosphate (ATP), has been studied in adult microglia obtained from Alzheimer disease (AD) and nondemented (ND) brains, in fetal human microglia exposed to Abeta(1-42) peptide and in vivo in Abeta(1-42)-injected rat hippocampus. Semiquantitative reverse transcriptase-polymerase chain reaction showed enhanced expression (increase of 70%) of P2X(7)R in AD microglia compared with ND cells (analysis of 6 AD and 8 ND cases). Immunohistochemical analysis showed prominent P2X(7)R expression in association with Abeta plaques and localized to HLA-DR-immunoreactive microglia. In cultured fetal human microglia, cells exposed to Abeta(1-42) (5 microM for 18 hours) had significantly elevated levels of P2X(7)R (by 106%) compared with untreated cells. Amplitudes of Ca(2+) responses in these cells, induced by the selective P2X(7)R agonist BzATP, were increased by 145% with Abeta(1-42) pretreatment relative to control (no peptide pretreatment) and were largely blocked if the P2X(7)R inhibitor-oxidized ATP (oxATP) was added with peptide in pretreatment solution. In vivo, double immunostaining analysis showed considerable P2X(7)R colocalized with microglia after injection of Abeta(1-42) (1 nmol) into rat hippocampus. The overall results suggest roles of P2X(7)R in mediating microglial purinergic inflammatory responses in AD brain.

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Modulation of the Purinergic P2X₇Receptor Attenuates Lipopolysaccharide-Mediated Microglial Activation and Neuronal Damage in Inflamed Brain

Choi

Ryu²,

Kim³

et al. 2007

J. Neurosci.

153

119

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We investigated the involvement and roles of the ionotropic purinergic receptor P2X 7 R in microglia in mediating lipopolysaccharide (LPS)-induced inflammatory responses and neuronal damage in rat striatum. A detailed in vivo study showed that LPS injection into striatum markedly increased the expression of P2X 7 R in microglia compared with control (saline)-injected animals. Additionally, LPS injection upregulated a broad spectrum of proinflammatory mediators, including inducible nitric oxide synthase (nitric oxide production marker), 3-nitrotyrosine (peroxynitrite-mediated nitration marker), 4-hydroxynonenal (lipid peroxidation marker), and 8-hydroxy-2Ј-deoxyguanosine (oxidative DNA damage marker), and reduced neuronal viability. The P2X 7 R antagonist oxidized ATP (oxATP) was effective in attenuating expressions of all inflammatory mediators and in addition inhibited LPS-induced activation of the cellular signaling factors p38 mitogen-activated protein kinase and transcriptional factor nuclear factor B.

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Generation and Characterization of Immortalized Human Microglial Cell Lines: Expression of Cytokines and Chemokines

Nagai

Nakagawa

Hatori

et al. 2001

Neurobiology of Disease

138

125

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James G. McLarnon

A leaky blood–brain barrier, fibrinogen infiltration and microglial reactivity in inflamed Alzheimer’s disease brain

Metabolic Communication between Astrocytes and Neurons via Bicarbonate-Responsive Soluble Adenylyl Cyclase

Upregulated Expression of Purinergic P2X₇Receptor in Alzheimer Disease and Amyloid-β Peptide-Treated Microglia and in Peptide-Injected Rat Hippocampus

Modulation of the Purinergic P2X₇Receptor Attenuates Lipopolysaccharide-Mediated Microglial Activation and Neuronal Damage in Inflamed Brain

Generation and Characterization of Immortalized Human Microglial Cell Lines: Expression of Cytokines and Chemokines

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James G. McLarnon

A leaky blood–brain barrier, fibrinogen infiltration and microglial reactivity in inflamed Alzheimer’s disease brain

Metabolic Communication between Astrocytes and Neurons via Bicarbonate-Responsive Soluble Adenylyl Cyclase

Upregulated Expression of Purinergic P2X7Receptor in Alzheimer Disease and Amyloid-β Peptide-Treated Microglia and in Peptide-Injected Rat Hippocampus

Modulation of the Purinergic P2X7Receptor Attenuates Lipopolysaccharide-Mediated Microglial Activation and Neuronal Damage in Inflamed Brain

Generation and Characterization of Immortalized Human Microglial Cell Lines: Expression of Cytokines and Chemokines

Contact Info

Product

Resources

About

Upregulated Expression of Purinergic P2X₇Receptor in Alzheimer Disease and Amyloid-β Peptide-Treated Microglia and in Peptide-Injected Rat Hippocampus

Modulation of the Purinergic P2X₇Receptor Attenuates Lipopolysaccharide-Mediated Microglial Activation and Neuronal Damage in Inflamed Brain