Elisa Biondi scite author profile

The cholesterol-synthesizing enzyme seladin-1, encoded by the Dhcr24 gene, is a flavin adenine dinucleotidedependent oxidoreductase and regulates responses to oncogenic and oxidative stimuli. It has a role in neuroprotection and is downregulated in affected neurons in Alzheimer's disease (AD). Here we show that seladin-1-deficient mouse brains had reduced levels of cholesterol and disorganized cholesterol-rich detergent-resistant membrane domains (DRMs). This was associated with inefficient plasminogen binding and plasmin activation, the displacement of b-secretase (BACE) from DRMs to APP-containing membrane fractions, increased b-cleavage of APP and high levels of Ab peptides. In contrast, overexpression of seladin-1 increased both cholesterol and the recruitment of DRM components into DRM fractions, induced plasmin activation and reduced both BACE processing of APP and Ab formation. These results establish a role of seladin-1 in the formation of DRMs and suggest that seladin-1-dependent cholesterol synthesis is involved in lowering Ab levels. Pharmacological enhancement of seladin-1 activity may be a novel Ab-lowering approach for the treatment of AD.

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Raft disorganization leads to reduced plasmin activity in Alzheimer's disease brains

Ledesma

et al. 2003

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The serine protease plasmin can efficiently degrade amyloid peptide in vitro, and is found at low levels in the hippocampus of patients with Alzheimer's disease (AD). The cause of such paucity remains unknown. We show here that the levels of total brain plasminogen and plasminogen-binding molecules are normal in these brain samples, yet plasminogen membrane binding is greatly reduced. Biochemical analysis reveals that the membranes of these brains have a mild, still significant, cholesterol reduction compared to age-matched controls, and anomalous raft microdomains. This was reflected by the loss of raft-enriched proteins, including plasminogen-binding and -activating molecules. Using hippocampal neurons in culture, we demonstrate that removal of a similar amount of membrane cholesterol is sufficient to induce raft disorganization, leading to reduced plasminogen membrane binding and low plasmin activity. These results suggest that brain raft alterations may contribute to AD by rendering the plasminogen system inefficient.

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Prescription of lipophilic statins to Alzheimer’s disease patients: some controversies to consider

Biondi

2010

Neurol Sci

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Alzheimer's disease (AD) is the most common disorder causing cognitive decline in old age. It is a progressive and irreversible neuropathology with a diagnosis often missed or delayed. Cholesterol represents an important determinant of the physical state of biological membranes and in AD brains, specific changes in its membrane-ordering and Raft-organizing effects take place. A recent publication shows downregulation of Seladin-1 (selective Alzheimer's disease indicator, also called DHCR24), which catalyzes the last step of cholesterol biosynthesis in affected neurons in AD. Postmortem analysis of AD brains revealed a loss in membrane cholesterol content and this finding makes the therapeutical use of statins (especially the lipophilic ones) quite a lot controversial. Some clinical studies suggest that risk of Alzheimer's disease is substantially reduced in users of statins; however, because these studies are not randomized trials, they provide insufficient evidence to recommend statin family therapy.

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Statin-Like Drugs for the Treatment of Brain Cholesterol Loss in Alzheimers Disease

Biondi

2007

CDS

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Aging is one of the most significant risk factors for neurological disorders including Alzheimer's Disease (late-onset AD and sporadic AD), the most common form of dementia. AD is characterized by progressive atrophy and loss of neurons resulting in cognitive deficits, confusion and dementia, culminating in childlike helplessness and death. One of the major pathological hallmarks of the disease are amyloid plaques, composed primarly of insoluble fibrils of Abeta peptide: this molecule derives from the processing of the transmembrane amyloid precursor protein (APP) by different secretases and its production is a physiological event, but the anormal increase in Abeta levels appears to be toxic both in vitro and in vivo. Being APP cleavage a membrane event the involvement of lipids in alterations of this cleavage is assumable. Cholesterol is the most abundant lipid in cellular membranes and is an essential component of them, determining the fluidity and biophysical properties. In fact, genetic studies of the risk of AD have reported association with polymorphism in some cholesterol related genes like the allele epsilon4 of the apolipoprotein E, cholesterol 24-hydroxylase (CYP46A1), ATP-binding cassette transporter a1 (ABCA1) and the lipoprotein receptor-related protein (LRP). Moreover a recent publication shows a downregulation of Seladin-1 (which catalyze the last step of cholesterol biosynthesis) in affected neurons in Alzheimer's Disease. Post-mortem analysis of AD brains reveal a loss in cholesterol content and this make the therapeutical use of statin-like drugs quite a lot controversial. Taking together their clinical trials results and the large body of literature regarding lipid profile alterations in AD, it is actually unclear how much these agents can be helpful or not for affected patients.

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Elisa Biondi

The role of seladin-1/DHCR24 in cholesterol biosynthesis, APP processing and Aβ generation in vivo

Raft disorganization leads to reduced plasmin activity in Alzheimer's disease brains

Prescription of lipophilic statins to Alzheimer’s disease patients: some controversies to consider

Statin-Like Drugs for the Treatment of Brain Cholesterol Loss in Alzheimers Disease

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