Baden Rumble scite author profile

In patients with Alzheimer's disease, amyloid fibrils that are aggregates of A4 protein subunits are deposited in the brain. A similar process occurs at an earlier age in persons with Down's syndrome. To investigate the deposition of amyloid in these diseases, we used a radioimmunoassay to measure levels of the amyloid precursor (PreA4) in the serum of 17 patients with Down's syndrome, 15 patients with Alzheimer's disease, and 33 normal elderly controls. The mean (+/- SD) concentration of serum PreA4 was increased 1.5-fold in patients with Down's syndrome (2.49 +/- 1.13 nmol per liter) as compared with that in controls (1.68 +/- 0.49 nmol per liter; P less than 0.007); the levels in patients with Alzheimer's disease were similar to those in controls (1.83 +/- 0.78; P less than 0.98). We also found that the concentration of PreA4 in the brain tissue of two adults with Down's syndrome (100 and 190 pmol per gram) was higher than that in the brain tissue of either 26 patients with Alzheimer's disease (64.4 +/- 17.3 pmol per gram) or 17 elderly controls with neurologic disease (68.5 +/- 26.3 pmol per gram). Immunocytochemical studies of brain tissue from 26 patients with Down's syndrome showed that the deposition of A4 protein amyloid began in these patients approximately 50 years earlier than it began in 127 normal aging subjects studied previously, although the rate of deposition was the same. We conclude that, since the gene for PreA4 is on the long arm of chromosome 21, which is present in triplicate in Down's syndrome, overexpression of this gene may lead to increased levels of PreA4 and amyloid deposition in Down's syndrome. However, since increased levels of PreA4 are not present in Alzheimer's disease, additional factors must account for the amyloid deposition in that disorder.

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A novel zinc(II) binding site modulates the function of the beta A4 amyloid protein precursor of Alzheimer's disease

Bush

Multhaup

Moir

et al. 1993

Journal of Biological Chemistry

275

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Membrane-associated forms of the beta A4 amyloid protein precursor of Alzheimer's disease in human platelet and brain: surface expression on the activated human platelet

Berndt

Bush

et al. 1994

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The amyloid protein precursor (APP) of Alzheimer's disease (AD) is abundantly expressed in platelets, where its primary function remains undetermined. As an integral transmembrane protein, the release of APP from the membrane may be a critical event in AD. We examined the association of APP with human platelet membranes using a combination of alkali treatment and immunoprecipitation of the carboxyl-terminus of APP. Most of the platelet membrane-associated APP (APPMem) with molecular mass of 100 to 130 kD is removed with alkali treatment and is also truncated at the carboxyl-terminus. APPMem is present at least in part on the surface of the platelet. The full-length transmembrane form of APP, as a 140- to 150-kD minor species, is alkali resistant and is also present on the plasma membrane. In contrast, most of the APPMem from brain is full-length (possessing the carboxyl-terminus) with a molecular mass of 105 to 130 kD and is resistant to alkali treatment. Immunoelectron microscopy shows platelet APP to be localized to the alpha-granule. Activation of platelets results in a threefold increase in surface APP detectability. In plasma, the 130-kD APP-reactive band is increased in AD. We find that in the gray platelet syndrome, platelets contain reduced amounts of APP, with a corresponding reduction in plasma APP levels, suggesting that platelets are the major source of plasma APP. Our studies also identify an interaction of APP with platelet membranes which differs from that found in the brain, and raise the possibility of a receptor for APP in platelet membranes. Quantitative differences in the amounts of APPMem in platelets compared with brain also indicate regulation of the pathways that determine the cleavage of APP near its transmembrane domain. These pathways are a therapeutic target in AD, and may be easily amenable to investigation in platelets.

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The amyloid precursor protein of Alzheimer's disease is released by human platelets.

Bush

Martins

Rumble

et al. 1990

Journal of Biological Chemistry

310

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Antiarthritic mechanisms of lupeol triterpenes

Kweifio-Okai¹,

Munk²,

Macrides³

et al. 1995

Drug Development Research

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The triterpenes lupeol (L), lupeol-3-palmitate (LP), and lupeol-3-linoleate (LL) have previously been shown to reduce joint destruction in adjuvant arthritic rats. In order to explain the relative antiarthritic effectiveness (LL>LP>L), the triterpenes were tested on the release of collagenase by rat osteosarcoma (bone tumor) cells, on the release of 5 Iipoxygenase inflammatory products by human neutrophils, and on CCI,-induced hepatotoxicity in rats. The rat osteosarcoma cells released collagenase which digested type I (bone) native collagen. The collagenase release, unaffected by 50 FM lupeol, decreased in the presence of lupeol linoleate and lupeol palmitate by 97% and 78%, respectively. The 30% inhibitory concentrations (lC3,J of lupeol linoleate, lupeol palmitate, and lupeol on LTB, release by the neutrophils were 27 pM, 94 FM, and >I00 p, M, respectively. All the triterpenes equally reduced hepatic fatty degeneration in CCI, rats, but only the triterpene esters significantly reduced LDH release (34% LL; 25% LP) and accelerated hepatic cell regeneration (LL>LP). The effectiveness of the triterpenes in the models of inflammatory and arthritic processes employed here corresponded with their relative antiarthritic effectiveness in adjuvant arthritic rats. o 1995 WiIey-Liss. Inc.

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Baden Rumble

Amyloid A4 Protein and Its Precursor in Down's Syndrome and Alzheimer's Disease

A novel zinc(II) binding site modulates the function of the beta A4 amyloid protein precursor of Alzheimer's disease

Membrane-associated forms of the beta A4 amyloid protein precursor of Alzheimer's disease in human platelet and brain: surface expression on the activated human platelet

The amyloid precursor protein of Alzheimer's disease is released by human platelets.

Antiarthritic mechanisms of lupeol triterpenes

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