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ABSTRACT: BACKGROUND: Alzheimer's disease (AD) is a neurodegenerative dementia characterized by the decline of cognition and the presence of neuropathological changes including neuronal loss, neurofibrillary pathology and extracellular senile plaques. A neuroinflammatory process is also triggered and complement activation has been hypothesized to have a relevant role in this local inflammatory response. C5a, a proinflammatory anaphylatoxin generated after complement activation, exerts its chemotactic and inflammatory functions through the CD88 receptor while the more recently discovered C5L2 receptor has been postulated to have an anti-inflammatory role. Previously, we reported that a CD88 specific antagonist (PMX205) decreased the pathology and improved cognition in transgenic models of AD suggesting that C5a/C5aR interaction has an important role in the progression of the disease. METHODS: The present study characterizes the expression of the two receptors for C5a in human brain with confirmed post mortem diagnosis of vascular dementia (VD) or AD as well as age matched controls by immunohistochemistry and Western blot analysis using several antibodies against different epitopes of the human receptors. RESULTS: The CD88 and C5L2 antibodies revealed increased expression of both receptors in AD samples as compared to age-matched controls or VD brain tissue by Western blot and immunohistochemistry, using multiple antibodies and distinct cohorts of brain tissue. Immunostaining showed that both the C5L2 and CD88 antibodies similarly labeled abundant neurofibrillary tangles, neuropil threads and dystrophic neurites associated with plaques in the hippocampus and frontal cortex of AD cases. In contrast, little or no neuronal staining, tangles or dystrophic neurites associated with plaques were observed in control or VD brains. CD88 and C5L2 receptors are associated with both early (AT8) and mature (PHF1) neurofibrillary tangles and can be found either independently or colocalized with each other. CONCLUSIONS: The observed association of CD88 and C5L2with neurofibrillary pathology suggests a common altered pathway of degradation.
Journal of Neuroinflammation 02/2013; 10(1):25. · 3.83 Impact Factor
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Elliott J Mufson,
Bin He,
Muhammad Nadeem,
Sylvia E Perez, Scott E Counts,
Sue Leurgans,
Jason Fritz,
James Lah,
Stephen D Ginsberg,
Joanne Wuu,
Stephen W Scheff
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ABSTRACT: Hippocampal precursor of nerve growth factor (proNGF)/NGF signaling occurs in conjunction with β-amyloid (Aβ) accumulations in Alzheimer disease (AD). To assess the involvement of this pathway in AD progression, we quantified these proteins and their downstream pathway activators in postmortem tissues from the brains of subjects with no cognitive impairment (NCI), mild cognitive impairment (MCI), and AD using immunoblotting and ELISA. Hippocampal proNGF was significantly greater in AD cases compared with those in NCI and MCI cases. TrkA was significantly reduced in MCI compared with those in NCI and AD, whereas p75 neurotrophin receptor, sortilin, and neurotrophin receptor homolog 2 remained stable. Akt decreased from NCI to MCI to AD, whereas phospho-Akt and phospho-Akt-to-Akt ratio were elevated in AD compared with those in MCI and NCI. No differences were found in phospho-Erk, Erk, or their ratio across groups. Although c-jun kinase (JNK) remained stable across groups, phospho-JNK and the phospho-JNK-to-JNK ratio increased significantly in AD compared with those in NCI and MCI. Expression levels of Aβ1-40, Aβ1-42, and Aβ40/42 ratio were stable. Statistical analysis revealed a strong positive correlation between proNGF and phospho-JNK, although only proNGF was negatively correlated with cognitive function and only TrkA was negatively associated with pathologic criteria. These findings suggest that alterations in the hippocampal NGF signaling pathway in MCI and AD favor proNGF-mediated proapoptotic pathways, and that this is independent of Aβ accumulation during AD progression.
Journal of Neuropathology and Experimental Neurology 11/2012; 71(11):1018-1029. · 4.26 Impact Factor
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ABSTRACT: Alterations in the relative abundance of synaptic proteins may contribute to hippocampal synaptic dysfunction in Alzheimer's disease (AD). The extent to which perturbations in synaptic protein expression occur during the earliest stages of cognitive decline remains unclear. We examined protein levels of presynaptic synaptophysin (SYP) and synaptotagmin (SYT), and postsynaptic drebrin (DRB), a marker for dendritic spine plasticity, in the hippocampus of people with an antemortem clinical diagnosis of no cognitive impairment (NCI), mild cognitive impairment (MCI) or mild/moderate AD. Although normalized SYP and SYT levels were preserved, DRB was reduced by approximately 40% in the hippocampus of MCI and AD compared to NCI subjects. This differential alteration of synaptic markers in MCI suggests a selective impairment in hippocampal postsynaptic dendritic plasticity in prodromal AD that likely heralds the onset of memory impairment in symptomatic disease.
Neurodegenerative Diseases 02/2012; 10(1-4):216-9. · 3.06 Impact Factor
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ABSTRACT: A double blind, placebo-controlled phase II study revealed that the antihistamine, Dimebon® (dimebolin, latrepirdine) improved cognition in Alzheimer disease (AD) patients compared to placebo controls. However, the Phase III CONNECTION trial failed to demonstrate significant differences between dimebon and placebo treatments. Despite the controversial therapeutic outcomes in the treatment of AD, dimebon's mechanism(s) of action within the brain remain unclear. In the present study, we evaluated the effects of dimebon upon β-amyloid (Aβ), tau and astrocytes in the hippocampus of triple transgenic (3xTg-AD) mice, which develop AD-like pathology in an age-dependent manner. At age 6.5 months, prior to the development of Aβ plaques in the hippocampus, male and female 3xTg-AD mice, received a daily intraperitoneal injection of 0.1 % dimebon or saline for 1.5 months. At 8 months, quantitative immunohistochemistry revealed a significant reduction in hippocampal/subicular APP/Aβ in dimebon-treated mice, whereas protein bioassay found no change in full length APP, soluble Aβ(1-40) and Aβ(1-42), Aβ oligomers, BACE1 and GFAP levels between groups. Interestingly, the number of the hippocampal APP/Aβ plaques in female and male dimebon-treated mice was higher compared to gender-matched control mice. Dimebon did not alter hippocampal tau levels. Furthermore, dimebon protects SH-SY5Y neurons against Aβ toxicity and promotes GFAP expression in primary mouse astrocyte cultures. Our findings demonstrate that dimebon in vivo modifies hippocampal APP/Aβ pathology and in vitro protects against Aβ toxicity promoting cell survival and activates astrocytes.
International Journal of Physiology, Pathophysiology and Pharmacology 01/2012; 4(3):115-27.
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ABSTRACT: Cholinergic basal forebrain (CBF) nucleus basalis (NB) neurons display neurofibrillary tangles (NFTs) during Alzheimer's disease (AD) progression, yet the mechanisms underlying this selective vulnerability are currently unclear. Rac1, a member of the Rho family of GTPases, may interact with the proapoptotic pan-neurotrophin receptor p75(NTR) to induce neuronal cytoskeletal abnormalities in AD NB neurons. Herein, we examined the expression of Rac1b, a constitutively active splice variant of Rac1, in NB cholinergic neurons during AD progression. CBF tissues harvested from people who died with a clinical diagnosis of no cognitive impairment (NCI), mild cognitive impairment, or AD were immunolabeled for both p75(NTR) and Rac1b. Rac1b appeared as cytoplasmic diffuse granules, loosely aggregated filaments, or compact spheres in p75(NTR)-positive NB neurons. Although Rac1b colocalized with tau cytoskeletal markers, the percentage of p75(NTR)-immunoreactive neurons expressing Rac1b was significantly increased only in AD compared with both mild cognitive impairment and NCI. Furthermore, single-cell gene expression profiling with custom-designed microarrays showed down-regulation of caveolin 2, GNB4, and lipase A in AD Rac1b-positive/p75(NTR)-labeled NB neurons compared with Rac1b-negative/p75(NTR)-positive perikarya in NCI. These proteins are involved in Rac1 pathway/cell cycle progression and lipid metabolism. These data suggest that Rac1b expression acts as a modulator or transducer of various signaling pathways that lead to NFT formation and membrane dysfunction in a subgroup of CBF NB neurons in AD.
American Journal Of Pathology 12/2011; 180(2):526-40. · 4.89 Impact Factor
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ABSTRACT: Mild cognitive impairment (MCI) is rapidly becoming one of the most common clinical manifestations affecting the elderly. The pathologic and molecular substrate of people diagnosed with MCI is not well established. Since MCI is a human specific disorder and neither the clinical nor the neuropathological course appears to follow a direct linear path, it is imperative to characterize neuropathology changes in the brains of people who came to autopsy with a well-characterized clinical diagnosis of MCI. Herein, we discuss findings derived from clinical pathologic studies of autopsy cases who died with a clinical diagnosis of MCI. The heterogeneity of clinical MCI imparts significant challenges to any review of this subject. The pathologic substrate of MCI is equally complex and must take into account not only conventional plaque and tangle pathology but also a wide range of cellular, biochemical and molecular deficits, many of which relate to cognitive decline as well as compensatory responses to the progressive disease process. The multifaceted nature of the neuronal disconnection syndrome associated with MCI suggests that there is no single event which precipitates this prodromal stage of AD. In fact, it can be argued that neuronal degeneration initiated at different levels of the central nervous system drives cognitive decline as a final common pathway at this stage of the dementing disease process.
Acta Neuropathologica 11/2011; 123(1):13-30. · 9.32 Impact Factor
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ABSTRACT: Endocytic system dysfunction is one of the earliest disturbances that occur in Alzheimer's disease (AD), and may underlie the selective vulnerability of cholinergic basal forebrain (CBF) neurons during the progression of dementia. Herein we report that genes regulating early and late endosomes are selectively upregulated within CBF neurons in mild cognitive impairment (MCI) and AD. Specifically, upregulation of rab4, rab5, rab7, and rab27 was observed in CBF neurons microdissected from postmortem brains of individuals with MCI and AD compared to age-matched control subjects with no cognitive impairment (NCI). Upregulated expression of rab4, rab5, rab7, and rab27 correlated with antemortem measures of cognitive decline in individuals with MCI and AD. qPCR validated upregulation of these select rab GTPases within microdissected samples of the basal forebrain. Moreover, quantitative immunoblot analysis demonstrated upregulation of rab5 protein expression in the basal forebrain of subjects with MCI and AD. The elevation of rab4, rab5, and rab7 expression is consistent with our recent observations in CA1 pyramidal neurons in MCI and AD. These findings provide further support that endosomal pathology accelerates endocytosis and endosome recycling, which may promote aberrant endosomal signaling and neurodegeneration throughout the progression of AD.
Journal of chemical neuroanatomy 06/2011; 42(2):102-10. · 1.75 Impact Factor
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ABSTRACT: The higher incidence rate of Alzheimer's disease (AD) in elderly women indicates that gender plays a role in AD pathogenesis. Evidence from clinical and pharmacologic studies, neuropathological examinations, and models of hormone replacement therapy suggest that cholinergic basal forebrain (CBF) cortical projection neurons within the nucleus basalis (NB), which mediate memory and attention and degenerate in AD, may be preferentially vulnerable in elderly women compared to men. CBF neurons depend on nerve growth factor (NGF) and their cognate receptors (trkA and p75(NTR)) for their survival and maintenance. We recently demonstrated a shift in the balance of NGF and its receptors toward cell death mechanisms during the progression of AD. To address whether gender affects NGF signaling system expression within the CBF, we used single cell RNA amplification and custom microarray technologies to compare gene expression profiles of single cholinergic NB neurons in tissue specimens from male and female members of the Religious Orders Study who died with a clinical diagnosis of no cognitive impairment (NCI), mild cognitive impairment (MCI), or mild/moderate AD. p75(NTR) expression within male cholinergic NB neurons was unchanged across clinical diagnosis, whereas p75(NTR) mRNA levels in female NB neurons exhibited a ∼40% reduction in AD compared to NCI. Male AD subjects displayed a ∼45% reduction in trkA mRNA levels within NB neurons compared to NCI and MCI. In contrast, NB neuronal trkA expression in females was reduced ∼50% in both MCI and AD compared to NCI. Reduced trkA mRNA levels were associated with poorer global cognitive performance and higher Braak scores in the female subjects. In addition, we found a female-selective reduction in GluR2 AMPA glutamate receptor subunit expression in NB neurons in AD. These data suggest that cholinergic NB neurons in females may be at greater risk for degeneration during the progression of AD and support the concept of gender-specific therapeutic interventions during the preclinical stages of the disease.
Journal of chemical neuroanatomy 03/2011; 42(2):111-7. · 1.75 Impact Factor
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Stephen D Ginsberg,
Melissa J Alldred, Scott E Counts,
Anne M Cataldo,
Rachael L Neve,
Ying Jiang,
Joanne Wuu,
Moses V Chao,
Elliott J Mufson,
Ralph A Nixon,
Shaoli Che
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ABSTRACT: Endocytic dysfunction and neurotrophin signaling deficits may underlie the selective vulnerability of hippocampal neurons during the progression of Alzheimer's disease (AD), although there is little direct in vivo and biochemical evidence to support this hypothesis.
Microarray analysis of hippocampal CA1 pyramidal neurons acquired via laser capture microdissection was performed using postmortem brain tissue. Validation was achieved using real-time quantitative polymerase chain reaction and immunoblot analysis. Mechanistic studies were performed using human fibroblasts subjected to overexpression with viral vectors or knockdown via small interference RNA.
Expression levels of genes regulating early endosomes (rab5) and late endosomes (rab7) are selectively upregulated in homogeneous populations of CA1 neurons from individuals with mild cognitive impairment and AD. The levels of these genes are selectively increased as antemortem measures of cognition decline during AD progression. Hippocampal quantitative polymerase chain reaction and immunoblot analyses confirmed increased levels of these transcripts and their respective protein products. Elevation of select rab GTPases regulating endocytosis paralleled the downregulation of genes encoding the neurotrophin receptors TrkB and TrkC. Overexpression of rab5 in cells suppressed TrkB expression, whereas knockdown of TrkB expression did not alter rab5 levels, suggesting that TrkB downregulation is a consequence of endosomal dysfunction associated with elevated rab5 levels in early AD.
These data support the hypothesis that neuronal endosomal dysfunction is associated with preclinical AD. Increased endocytic pathway activity, driven by elevated rab GTPase expression, may result in long-term deficits in hippocampal neurotrophic signaling and represent a key pathogenic mechanism underlying AD progression.
Biological psychiatry 11/2010; 68(10):885-93. · 8.93 Impact Factor
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ABSTRACT: Galanin (GAL) and GAL receptors (GALR) are overexpressed in degenerating brain regions associated with cognitive decline in
Alzheimer’s disease (AD). The functional consequences of GAL plasticity in AD are unclear. GAL inhibits cholinergic transmission
in the hippocampus and impairs spatial memory in rodent models, suggesting that GAL overexpression exacerbates cognitive impairment
in AD. By contrast, gene expression profiling of individual cholinergic basal forebrain (CBF) neurons aspirated from AD tissue
revealed that GAL hyperinnervation positively regulates mRNAs that promote CBF neuronal function and survival. GAL also exerts
neuroprotective effects in rodent models of neurotoxicity. These data support the growing concept that GAL overexpression
preserves CBF neuron function, which may in turn delay the onset of symptoms of AD. Further elucidation of GAL activity in
selectively vulnerable brain regions will help gauge the therapeutic potential of GALR ligands in the treatment of AD.
KeywordsAlzheimer’s disease-Cholinergic basal forebrain-Galanin-Hippocampus-Plasticity
08/2010: pages 143-162;
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ABSTRACT: Degeneration of locus coeruleus (LC) noradrenergic forebrain projection neurons is an early feature of Alzheimer's disease. The physiological consequences of this phenomenon are unclear, but observations correlating LC neuron loss with increased Alzheimer's disease pathology in LC projection sites suggest that noradrenaline (NA) is neuroprotective. To investigate this hypothesis, we determined that NA protected both hNT human neuronal cultures and rat primary hippocampal neurons from amyloid-beta (Abeta(1-42) and Abeta(25-35)) toxicity. The noradrenergic co-transmitter galanin was also effective at preventing Abeta-induced cell death. NA inhibited Abeta(25-35)-mediated increases in intracellular reactive oxygen species, mitochondrial membrane depolarization, and caspase activation in hNT neurons. NA exerted its neuroprotective effects in these cells by stimulating canonical beta(1) and beta(2) adrenergic receptor signaling pathways involving the activation of cAMP response element binding protein and the induction of endogenous nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF). Treatment with functional blocking antibodies for either NGF or BDNF blocked NA's protective actions against Abeta(1-42) and Abeta(25-35) toxicity in primary hippocampal and hNT neurons, respectively. Taken together, these data suggest that the neuroprotective effects of noradrenergic LC afferents result from stimulating neurotrophic NGF and BDNF autocrine or paracrine loops via beta adrenoceptor activation of the cAMP response element binding protein pathway.
Journal of Neurochemistry 05/2010; 113(3):649-60. · 4.06 Impact Factor
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ABSTRACT: The nerve growth factor (NGF) precursor protein proNGF is the predominant NGF moiety found in the human neocortex and exhibits pro-apoptotic properties when bound to the p75(NTR) neurotrophin receptor in the presence of sortilin, a Vps10p domain trafficking protein. Recently studies have shown that proNGF levels increase in the cortex of people who died with early stage Alzheimer's disease (AD) or with mild cognitive impairment (MCI), a putative prodromal AD stage. In contrast, cortical levels of the high-affinity, pro-survival NGF receptor TrkA are reduced in AD despite stable levels of p75(NTR). These data suggest a stoichiometric shift in proNGF and its receptors which favors proNGF binding of p75(NTR). Whether cortical levels of sortilin are altered during the progression of AD remains unknown. Therefore, we measured sortilin protein levels in postmortem superior frontal and superior temporal cortical tissues derived from Religious Orders Study subjects clinically diagnosed antemortem with no cognitive impairment (NCI), MCI or AD. No changes in frontal or temporal cortical sortilin protein levels occurred across the clinical groups. There was no association between sortilin levels and antemortem cognitive test scores. However, there was a positive association between temporal cortex sortilin levels and severity of neuropathology by Braak and NIA-Reagan diagnoses. The stability of cortical sortilin levels in the face of stable p75(NTR), increased proNGF, and reduced TrkA levels may favor pro-apoptotic proNGF:p75(NTR):sortilin trimeric interactions within the cortex during the earliest stages of AD. These findings are relevant to the development of NGF drug therapy for the treatment of dementia.
Neuroscience Letters 03/2010; 471(3):129-33. · 2.11 Impact Factor
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ABSTRACT: The identification of individuals at risk for Alzheimer's disease (AD) is essential for the timely administration of treatment approaches aimed at slowing the onset or progression of the disease. As amnestic forms of mild cognitive impairment (aMCI) may represent preclinical AD, the search for specific diagnostic biomarkers that characterize those with aMCI is a key research objective. Using surface enhanced laser desorption/ionization time-of-flight mass spectrometry (SELDITOF-MS), we screened the cerebrospinal fluid (CSF) of Religious Orders Study participants with a clinical diagnosis of no cognitive impairment (NCI), aMCI, or mild/moderate AD for potential biomarkers. CSF was fractionated on immobilized metal affinity chromatography (IMAC) protein arrays preloaded with either gallium (IMAC-Ga), which binds phosphoproteins, or copper (IMAC-Cu) to isolate copper-binding proteins. SELDI TOF-MS analysis of the IMAC-Ga arrays revealed a phosphopeptide of 2490 Da that was selectively increased ~2-fold in aMCI and AD CSF compared to NCI. SELDI TOF-MS analysis of the IMAC-Cu arrays identified 2 proteins of 11.7 and 13.3 kDa that were both selectively increased ~1.5-1.6-fold in aMCI and AD CSF. Increasing levels of each protein were associated with poorer performance on the Mini Mental State Exam and higher Braak stage. Hence, increased CSF levels of these proteins may be potential biomarkers for preclinical AD and aid in the development of a CSF biomarker panel with high predictive value for identifying people who would most benefit from early therapeutic interventions to modify disease progression.
Translational neuroscience. 03/2010; 1(1):2-8.
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ABSTRACT: Galanin (GAL) and GAL receptors (GALR) are overexpressed in degenerating brain regions associated with cognitive decline in Alzheimer's disease (AD). The functional consequences of GAL plasticity in AD are unclear. GAL inhibits cholinergic transmission in the hippocampus and impairs spatial memory in rodent models, suggesting that GAL overexpression exacerbates cognitive impairment in AD. By contrast, gene expression profiling of individual cholinergic basal forebrain (CBF) neurons aspirated from AD tissue revealed that GAL hyperinnervation positively regulates mRNAs that promote CBF neuronal function and survival. GAL also exerts neuroprotective effects in rodent models of neurotoxicity. These data support the growing concept that GAL overexpression preserves CBF neuron function, which may in turn delay the onset of symptoms of AD. Further elucidation of GAL activity in selectively vulnerable brain regions will help gauge the therapeutic potential of GALR ligands in the treatment of AD.
EXS 01/2010; 102:143-62.
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ABSTRACT: Endocytic alterations are one of the earliest changes to occur in Alzheimer's disease (AD), and are hypothesized to be involved in the selective vulnerability of specific neuronal populations during the progression of AD. Previous microarray and real-time quantitative PCR experiments revealed an upregulation of the early endosomal effector rab5 and the late endosome constituent rab7 in the hippocampus of people with mild cognitive impairment (MCI) and AD. To assess whether these select rab GTPase gene expression changes are reflected in protein levels within selectively vulnerable brain regions (basal forebrain, frontal cortex, and hippocampus) and relatively spared areas (cerebellum and striatum), we performed immunoblot analysis using antibodies directed against rab5 and rab7 on postmortem human brain tissue harvested from cases with a premortem clinical diagnosis of no cognitive impairment (NCI), MCI, and AD. Results indicate selective upregulation of both rab5 and rab7 levels within basal forebrain, frontal cortex, and hippocampus in MCI and AD, which also correlated with Braak staging. In contrast, no differences in protein levels were found in the less vulnerable cerebellum and striatum. These regional immunoblot assays are consistent with single cell gene expression data, and provide protein-based evidence for endosomal markers contributing to the vulnerability of cell types within selective brain regions during the progression of AD.
Journal of Alzheimer's disease: JAD 01/2010; 22(2):631-9. · 3.74 Impact Factor
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ABSTRACT: Epidemiological and clinical trial findings suggest that consumption of docosahexaenoic acid (DHA) lowers the risk of Alzheimer's disease (AD). We examined the effects of short-term (3 months) DHA enriched diet on plaque deposition and synaptic defects in forebrain of young APPswe/PS1 Delta E9 transgenic (tg) and non-transgenic (ntg) mice. Gas chromatography revealed a significant increase in DHA concomitant with a decrease of arachidonic acid in both brain and liver in mice fed with DHA. Female tg mice consumed relatively more food daily than ntg female mice, independent of diet. Plaque load was significantly reduced in the cortex, ventral hippocampus and striatum of female APPswe/PS1 Delta E9 tg mice on DHA diet compared to female tg mice on control diet. Immunoblot quantitation of the APOE receptor, LR11, which is involved in APP trafficking and A beta production, were unchanged in mice on DHA or control diets. Moreover drebrin levels were significantly increased in the hippocampus of tg mice on the DHA diet. Finally, in vitro DHA treatment prevented amyloid toxicity in cell cultures. Our findings support the concept that increased DHA consumption may play and important role in reducing brain insults in female AD patients.
Journal of Neuroscience Research 10/2009; 88(5):1026-40. · 2.74 Impact Factor
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ABSTRACT: Fibers containing galanin (GAL) hyperinnervate cholinergic basal forebrain (CBF) nucleus basalis neurons in late stage Alzheimer's disease (AD), yet the molecular consequences of this phenomenon are unknown. To determine whether GAL alters the expression of genes critical to CBF cell survival in AD, single cell microarray analysis was used to determine mRNA levels within nucleus basalis neurons lacking GAL innervation from subjects who died with a clinical diagnosis of no cognitive impairment (NCI) compared to nucleus basalis neurons from AD cases either lacking GAL hyperinnervation (AD/GAL-) or those displaying prominent GAL hyperinnervation (AD/GAL+). Levels of mRNAs encoding putatively neuroprotective proteins such as the GluR2 Ca(2)-impermeable glutamate receptor subunit, superoxide dismutase 2, and the GLUT2 glucose transporter were significantly decreased in AD/GAL- nucleus basalis neurons compared to NCI and AD/GAL+ neurons. By contrast, mRNAs encoding calpain catalytic and regulatory subunits, which may contribute to cell death in AD, were increased in AD/GAL- compared to NCI and AD/GAL+ neurons. Hence, GAL fiber hyperinnervation appears to preserve the expression of genes subserving multiple neuroprotective pathways suggesting that GAL overexpression regulates CBF neuron survival in AD.
Journal of Alzheimer's disease: JAD 09/2009; 18(4):885-96. · 3.74 Impact Factor
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ABSTRACT: To examine alpha7 nicotinic acetylcholine receptor (nAChR) binding and beta-amyloid (Abeta) peptide load in superior frontal cortex (SFC) across clinical and neuropathological stages of Alzheimer disease (AD).
Quantitative measures of alpha7 nAChR by [(3)H]methyllycaconitine binding and Abeta concentration by enzyme-linked immunosorbent assay in SFC were compared across subjects with antemortem clinical classification of no cognitive impairment, mild cognitive impairment, or mild to moderate AD, and with postmortem neuropathological diagnoses.
Academic medical center. Subjects Twenty-nine elderly retired clergy.
Quantitative measures of alpha7 nAChR binding and Abeta peptide concentration in SFC.
Higher concentrations of total Abeta peptide in SFC were associated with clinical diagnosis of mild to moderate AD (P = .02), lower Mini-Mental State Examination scores (P = .003), presence of cortical Abeta plaques (P = .02), and likelihood of AD diagnosis by the National Institute on Aging-Reagan criteria (P = .002). Increased alpha7 nAChR binding was associated with National Institute on Aging-Reagan diagnosis (P = .02) and, albeit weakly, the presence of cortical Abeta plaques (P = .08). There was no correlation between the 2 biochemical measures.
These observations suggest that during the clinical progression from normal cognition to neurodegenerative disease state, total Abeta peptide concentration increases while alpha7 nAChRs remain relatively stable in SFC. Regardless of subjects' clinical status, however, elevated alpha7 nAChR binding is associated with increased Abeta plaque pathology, supporting the hypothesis that cellular expression of these receptors may be upregulated selectively in Abeta plaque-burdened brain areas.
Archives of neurology 06/2009; 66(5):646-51. · 6.31 Impact Factor
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ABSTRACT: Alzheimer's disease (AD) is characterized by a progressive phenotypic downregulation of markers within cholinergic basal forebrain (CBF) neurons, frank CBF cell loss and reduced cortical choline acetyltransferase activity associated with cognitive decline. Delaying CBF neurodegeneration or minimizing its consequences is the mechanism of action for most currently available drug treatments for cognitive dysfunction in AD. Growing evidence suggests that imbalances in the expression of NGF, its precursor proNGF and the high (TrkA) and low (p75(NTR)) affinity NGF receptors are crucial factors underlying CBF dysfunction in AD. Drugs that maintain a homeostatic balance between TrkA and p75(NTR) may slow the onset of AD. A NGF gene therapy trial reduced cognitive decline and stimulated cholinergic fiber growth in humans with mild AD. Drugs treating the multiple pathologies and clinical symptoms in AD (e.g., M1 cholinoceptor and/or galaninergic drugs) should be considered for a more comprehensive treatment approach for cholinergic dysfunction.
Expert Review of Neurotherapeutics 12/2008; 8(11):1703-18.
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ABSTRACT: Fibers containing galanin (GAL) enlarge and hyperinnervate cholinergic basal forebrain (CBF) nucleus basalis (NB) neurons in late-stage Alzheimer's disease (AD), yet the physiological consequences of this phenomenon are unclear.
To determine whether GAL hyperinnervation of cholinergic NB neurons modulates the expression of genes critical to cholinergic transmission [e.g. acetylcholine (ACh) metabolism and ACh receptors] in AD.
Single-cell gene expression profiling was used to compare cholinergic mRNA levels in non-GAL-hyperinnervated NB neurons in tissue autopsied from cases classified as having no cognitive impairment (NCI) or late-stage AD (AD/GAL-) and in GAL-hyperinnervated (AD/GAL+) NB neurons from the same AD subjects.
AD/GAL+ cells displayed a significant upregulation in choline acetyltransferase (ChAT) mRNA expression compared to NCI and AD/GAL- cells.
GAL fiber hyperinnervation of cholinergic NB neurons upregulates the expression of ChAT, the synthetic enzyme for ACh, suggesting that GAL regulates the cholinergic tone of CBF neurons in AD.
Neurodegenerative Diseases 02/2008; 5(3-4):228-31. · 3.06 Impact Factor
