Alan R. Culwell scite author profile

The amyloid beta peptide (A beta P) is a small fragment of the much larger, broadly distributed amyloid precursor protein (APP). Abundant A beta P deposition in the brains of patients with Alzheimer's disease suggests that altered APP processing may represent a key pathogenic event. Direct protein structural analyses showed that constitutive processing in human embryonic kidney 293 cells cleaves APP in the interior of the A beta P, thus preventing A beta P deposition. A deficiency of this processing event may ultimately prove to be the etiological event in Alzheimer's disease that gives rise to senile plaque formation.

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Evidence for excitoprotective and intraneuronal calcium-regulating roles for secreted forms of the β-amyloid precursor protein

Mattson

Cheng

Culwell

et al. 1993

Neuron

764

429

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Secreted Forms of β‐Amyloid Precursor Protein Protect Against Ischemic Brain Injury

Smith‐Swintosky

Pettigrew²,

Craddock³

et al. 1994

Journal of Neurochemistry

244

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The β‐amyloid precursor protein (βAPP) is the source of the amyloid β‐peptide that accumulates in the brain in Alzheimer's disease. A major processing pathway for βAPP involves an enzymatic cleavage within the amyloid β‐peptide sequence that liberates secreted forms of βAPP (APPSs) into the extracellular milieu. We now report that postischemic administration of these APPSs intracerebroventricularly protects neurons in the CA1 region of rat hippocampus against ischemic injury. Treatment with APPS695 or APPS751 resulted in increased neuronal survival, and the surviving cells were functional as demonstrated by their ability to synthesize protein. These data provide direct evidence for a neuroprotective action of APPSs in vivo.

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Apolipoprotein E: phospholipid binding studies with synthetic peptides from the carboxyl terminus

Sparrow¹,

Sparrow²,

Fernando³

et al. 1992

Biochemistry

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Lipid binding by fragments of apolipoprotein C-III-1 obtained by thrombin cleavage

Sparrow¹,

Pownall²,

Hsu³

et al. 1977

Biochemistry

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We have used thrombin to cleave apolipoprotein C-III-1 into two fragments constituting residues 1-40 (apoLP-C-III-A) and 41-79 (apoLP-C-III-B). The lipid binding properties of these fragments with dimyristoyl- and 1-palmitoyl-2-oleoylphosphatidylcholines have been determined using circular dichroic and intrinsic tryptophan fluorescence spectroscopy. The peptide-phospholipid mixtures were fractionated by density gradients of cesium chloride. ApoLP-C-III-A showed disordered structure in the absence and presence of DMPC and no significant amount of peptide-phospholipid complex was isolated. ApoLP-C-III-B showed conformational changes in the circular dichroic spectrum and a shift in the intrinsic tryptophan fluorescence spectrum. Ultracentrifugation in cesium chloride gradients yielded peptide-phospholipid complexes isolated between density 1.10 and 1.18. The molar ratio of lipid to protein was 12:1. The results of these studies and the examination of space filling models of apoLP-C-III provide evidence that an amphipathic alpha helix which contains a nonpolar face and a polar face is the basic structural unit for binding of phospholipid by the plasma apolipoproteins. These results also provide direct evidence that the hydrophobicity of the nonpolar face is important in lipid binding since the nonpolar face of residues 1-40 is considerably less hydrophobic than the nonpolar face of residues 41-79.

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Alan R. Culwell

Cleavage of Amyloid β Peptide During Constitutive Processing of Its Precursor

Evidence for excitoprotective and intraneuronal calcium-regulating roles for secreted forms of the β-amyloid precursor protein

Secreted Forms of β‐Amyloid Precursor Protein Protect Against Ischemic Brain Injury

Apolipoprotein E: phospholipid binding studies with synthetic peptides from the carboxyl terminus

Lipid binding by fragments of apolipoprotein C-III-1 obtained by thrombin cleavage

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