Publication Detail

The publication detail shows the title, authors (with indicators showing other profiled authors), information on the publishing organization, abstract and a link to the article in PubMed. This abstract is what is used to create the fingerprint of the publication. If any grants are referenced by the publication, they will be listed here as well.

Brain regional quantification of F-ring and D-/E-ring isoprostanes and neuroprostanes in Alzheimer's disease.

E E Reich; W R Markesbery; L J Roberts; L L Swift; J D Morrow; T J Montine (Profiled Author: Markesbery, William R)

Department of Pharmacology, Vanderbilt University Medical Center, Nashville, Tennessee 37232, USA.
The American journal of pathology 2001;158(1):293-7.

Isoprostanes (IsoP) are produced exclusively from free radical damage to arachidonic acid, a fatty acid that is evenly distributed throughout white matter and gray matter, whereas neuroprostanes (NPs) are generated analogously from docosahexaenoic acid (DHA), a fatty acid enriched in gray matter where it is concentrated in neurons. IsoP and NPs derive from endoperoxide intermediates that isomerize to D/E-ring forms or that are reduced to F-ring compounds. We quantified F-ring and D/E-ring IsoP and NPs in temporal and parietal cortex, hippocampus, and cerebellum of nine definite Alzheimer's disease (AD) patients and 11 age-matched controls. Total NP levels (F-ring plus D/E-ring), but not total IsoP, were significantly greater in AD than controls (P: < 0.0001); only cerebral regions in AD patients had NPs greater than controls (P: < 0.05). The F-ring to D/E-ring ratio for NPs, but not IsoP, was 40 to 70% lower in all brain regions of AD patients compared to controls (P: < 0.005). These data extend results from in situ techniques, that have localized reactive products of lipid peroxidation primarily to neurons, by quantifying significantly greater free radical damage to the DHA-containing compartments in cerebrum in AD patients than controls, and suggest that one mechanism of increased oxidative stress may be diminished reducing capacity in DHA-containing compartments.

1 Originating Grant

• 1.

  Markesbery, William R

  ALZHEIMER'S DISEASE RESEARCH CENTER

  30 September 1985 - 14 July 2006

  NATIONAL INSTITUTE ON AGING

  Total Funding: $ 23,402,975

Scientific Context

This section shows information related to the publication - computed using the fingerprint of the publication - including related publications, related experts and related grants with fingerprints representing significant amounts of overlap between their fingerprint and this publication. The red dots indicate whether those experts or terms appear within the publication, thereby showing potential and actual connections.