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Reduction of cortical TrkA but not p75(NTR) protein in early-stage Alzheimer's disease
Counts, Scott E; Nadeem, Muhammad; Wuu, Joanne; Ginsberg, Stephen D; Saragovi, H Uri; Mufson, Elliott J
Degeneration of cholinergic nucleus basalis (NB) cortical projection neurons is associated with cognitive decline in late-stage Alzheimer's disease (AD). NB neuron survival is dependent on coexpression of the nerve growth factor (NGF) receptors p75(NTR) and TrkA, which bind NGF in cortical projection sites. We have shown previously a significant reduction of NB perikarya expressing p75(NTR) and TrkA protein during the early stages of AD. Whether there is a concomitant reduction in cortical levels of these receptors during the progression of AD is unknown. p75(NTR) and TrkA protein was evaluated by quantitative immunoblotting in five cortical regions (anterior cingulate, superior frontal, superior temporal, inferior parietal, and visual cortex) of individuals clinically diagnosed with no cognitive impairment (NCI), mild cognitive impairment (MCI), mild/moderate AD, or severe AD. Cortical p75(NTR) levels were stable across the diagnostic groups. In contrast, TrkA levels were reduced approximately 50% in mild/moderate and severe AD compared with NCI and MCI in all regions except visual cortex. Mini-Mental Status Examination scores correlated with TrkA levels in anterior cingulate, superior frontal, and superior temporal cortex. The selective reduction of cortical TrkA levels relative to p75(NTR) may have important consequences for cholinergic NB function during the transition from MCI to AD
PMID: 15455399
ISSN: 0364-5134
CID: 61000
Expression profiling and pharmacotherapeutic development in the central nervous system
Galvin, James E; Ginsberg, Stephen D
Expression profiling data is available for many diverse tissues throughout the body, allowing for exciting hypothesis testing of critical concepts such as cellular development, differentiation, normative function, and disease pathogenesis. The central nervous system is an ideal structure to evaluate relationships between functional genomics and expression data. Recent developments in gene array technologies, specifically cDNA microarray platforms, have made it easier to try to understand the multiplicity of gene alterations that occur within the brains of animal models and postmortem human tissues. However, unlike structures have one principal cell type, the brain contains diverse populations of phenotypically distinct cell types. A goal of modern molecular and cellular neuroscience is to assay gene expression from homogeneous populations of cells within a defined region without potential contamination by expression profiles of adjacent neuronal subtypes and non-neuronal cells. This is a difficult task that demands a multidisciplinary approach that is highlighted in this review within the context of neurodegenerative pathology
PMID: 15592143
ISSN: 0893-0341
CID: 110169
Cholinergic plasticity and neurotrophin signaling in people with mild cognitive impairment : clues from the clergy
Chapter by: Mufson, EJ; Ginsberg, SD; DeKosky, ST
in: Book of abstracts : Alzheimer's and parkinson's diseases : new perspectives by
[Seville : s.n., 2003]
pp. 84-84
ISBN: n/a
CID: 461282
Microarray : to do or not to do; if so, how to [Meeting Abstract]
Geschwind, D; Mirnics, K; Barlow, C; Ginsberg, SD
ORIGINAL:0008395
ISSN: n/a
CID: 461292
Expression profile of CA1 pyramidal neurons in a mouse model of tauopathy [Meeting Abstract]
Ruben, M. D.; Duff, K.; Davies, P.; Ginsberg, S. D.
BIOSIS:PREV200400206858
ISSN: 1558-3635
CID: 458882
Expression profile analysis of cerebrospinal fluid ( CSF ) in Alzheimer's disease and normal aging [Meeting Abstract]
Che, S.; Ginsberg, S. D.
BIOSIS:PREV200400205233
ISSN: 1558-3635
CID: 458932
Microarray analysis of mouse dentate gyrus granule cells following perforant path transection [Meeting Abstract]
Ginsberg, S. D.
BIOSIS:PREV200400205230
ISSN: 1558-3635
CID: 459262
Alzheimer research forum, 9 Oct. 2003
Kyng KJ, May A, Kolvraa S, Bohr VA. Gene expression profiling in Werner syndrome closely resembles that of normal aging. Proc Natl Acad Sci U S A. 2003 Oct 14;100(21):12259-64
Ginsberg, Stephen D
(Website)CID: 453142
Histochemistry, RNA amplification, and cDNA array analysis within the hippocampus [Meeting Abstract]
Elarova, I.; Che, S.; Ginsberg, S. D.
BIOSIS:PREV200400205231
ISSN: 1558-3635
CID: 453342
Expression profiles of cholinergic and glutamatergic mRNAs in single cholinergic basal forebrain neurons during the progress ion of Alzheimer's disease [Meeting Abstract]
Mufson, E. J.; Counts, S. E.; He, B.; Che, S.; Ginsberg, S. D.
BIOSIS:PREV200400205232
ISSN: 1558-3635
CID: 453312