Cholesterol, copper and Abeta in controls, MCI, AD and the AD cholesterol-lowering treatment trial (ADCLT)

Curr Alzheimer Res. 2005 Dec;2(5):527-39. doi: 10.2174/156720505774932296.

Abstract

Cholesterol clearly plays an influential role in promoting the production of amyloid beta (Abeta) and possibly the progression of Alzheimer's Disease (AD). The AD Cholesterol-Lowering Treatment trial (ADCLT; 1 year duration) tested atorvastatin and found significant benefit on measures of cognition and depressive symptoms in treated patients (N = 32) compared to placebo (N = 31). We assessed the circulating levels of Abeta(1-40), Abeta(1-42), ceruloplasmin (copper chaperone), apolipoprotein E and HDL-cholesterol in blood collected at each clinical visit during the ADCLT. We also determined the circulating cholesterol, ceruloplasmin, and Abeta levels in AD and MCI (mild cognitive impairment) patients, and controls (two groups stratified by function; high and low) participating in our Brain Bank Program. Each Brain Bank individual was clinically assessed for performance on the Mini-Mental Status Exam (MMSE), Rey auditory verbal learning test (AVLT), Clock draw, and UPSIT (smell identification test). Among individuals of equal age and education, scores on the MMSE were significantly reduced in AD compared to both MCI and controls, as were scores on the UPSIT. Ability on delayed verbal recall was significantly reduced in AD compared to MCI, and in MCI compared to both control groups. Performance on the Clock draw was similar for AD and MCI patients, but was significantly reduced when comparing MCI to control. Both cholesterol and ceruloplasmin levels were significantly increased in low-function controls compared to the high-function control group, but were not different from levels identified in the MCI and AD patients. Significantly increased levels of Abeta(1-40) occurred in low- compared to high-function controls, with a further significant increase in MCI compared to low-function controls. Circulating Abeta(1-40) levels were decreased in AD compared to MCI. Levels of Abeta(1-42) were not significantly different between the groups. The slight gradual increase in circulating Abeta(1-40) and Abeta(1-42) levels produced by atorvastatin treatment in the ADCLT were not significant compared placebo. There was a trend for significant reduction in circulating ceruloplasmin levels after a year of atorvastatin therapy compared to levels observed at screen. The levels of HDL-cholesterol remained stable in the atorvastatin treated AD patients for 9 months and then decreased significantly compared to the placebo group at the 1-year time-point. The combined data support a role for cholesterol in AD and a possible influence of increasing circulating copper levels. The deterioration of function in controls and transition to MCI may be associated with concomitant incremental increases in circulating Abeta(1-40) levels. Increased cholesterol and ceruloplasmin levels may be associated with slight deterioration in function among controls as a precursor to impairment considered MCI. The clinical benefit of atorvastatin therapy is clearly not associated with decreased circulating Abeta or increased HDL-cholesterol, but a positive influence of reduced copper (ceruloplasmin) levels may be a consideration.

Publication types

  • Controlled Clinical Trial
  • Research Support, N.I.H., Extramural
  • Research Support, Non-U.S. Gov't

MeSH terms

  • Adult
  • Aged
  • Aged, 80 and over
  • Alzheimer Disease / blood
  • Alzheimer Disease / drug therapy*
  • Amyloid beta-Peptides / blood*
  • Atorvastatin
  • Ceruloplasmin / metabolism
  • Cholesterol / blood*
  • Cholinergic Antagonists / administration & dosage*
  • Cognition Disorders / blood
  • Cognition Disorders / drug therapy
  • Copper / blood*
  • Cross-Sectional Studies
  • Heptanoic Acids / administration & dosage*
  • Humans
  • Longitudinal Studies
  • Middle Aged
  • Peptide Fragments / blood*
  • Pyrroles / administration & dosage*
  • Verbal Learning

Substances

  • Amyloid beta-Peptides
  • Cholinergic Antagonists
  • Heptanoic Acids
  • Peptide Fragments
  • Pyrroles
  • amyloid beta-protein (1-40)
  • amyloid beta-protein (1-42)
  • Copper
  • Cholesterol
  • Atorvastatin
  • Ceruloplasmin