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Health Observance

Alzheimer’s & Brain Awareness Month 2020

Adriana Bankston
June 1, 2020

Worldwide, 50 million people are living with Alzheimer's and other dementias. Every June, the Alzheimer's Association raises awareness of this neurodegenerative disease during . The Â鶹´«Ã½É«ÇéƬ and Â鶹´«Ã½É«ÇéƬ Biology participated in this effort by sharing recent studies of interest to patients, caregivers and researchers.

What is Alzheimer’s?

Alzheimer's disease is a type of dementia that causes problems with memory, thinking and behavior. The disease is . In 1906, he noticed changes in the brain tissue of a woman who had died of an unusual mental illness. Her symptoms included memory loss, language problems and unpredictable behavior. After she died, he examined her brain and found many abnormal clumps (now called amyloid plaques) and tangled bundles of fibers (now called neurofibrillary, or tau, tangles). 

According to the , Alzheimer's disease accounts for 60% to 80% of dementia cases. Symptoms usually develop slowly and get worse over time, becoming severe enough to interfere with daily tasks.

There is no cure yet for Alzheimer's, but treatments can temporarily slow the worsening of symptoms and improve quality of life for patients and their caregivers. : maintaining mental function, managing behavioral symptoms, and slowing or delaying symptoms. 

A  in the journal Alzheimer’s & Dementia reported that, in 2014, an estimated 5 million Americans 65 years or older had Alzheimer’s disease, and this number is projected to nearly triple to 14 million people by 2060. In the New England Journal of Medicine, researchers that, in 2010, the costs of treating Alzheimer’s disease were projected to fall between $159 billion and $215 billion. Moreover, by 2040, these costs are projected to jump to between $379 billion and more than $500 billion annually. 

How is it diagnosed?

. The most common early symptom is difficulty remembering newly learned information. Changes typically begin in the part of the brain that affects learning. According to the , people with Alzheimer’s have trouble doing everyday things, such as driving a car, cooking a meal or paying bills. They may ask the same questions over and over, get lost easily, lose things or put them in odd places, and find even simple things confusing. As the disease progresses, some people become worried, angry or violent. 

As Alzheimer's advances through the brain, it leads to increasingly severe symptoms, including disorientation; mood and behavior changes; deepening confusion about events, time and place; unfounded suspicions about family, friends and professional caregivers; more serious memory loss and behavior changes; and difficulty speaking, swallowing and walking. 

What are risk factors and common causes?

The disease likely develops from multiple factors, such as genetics, lifestyle and environment.

. The majority of people with Alzheimer's are 65 and older. About 200,000 Americans under the age of 65 have early-onset Alzheimer’s disease. 

Another strong risk factor is family history, according to the . The two categories of genes that influence whether a person develops  Alzheimer's are risk genes and deterministic genes. Less than 1% of Alzheimer’s cases are caused by deterministic genes (genes that cause a disease, rather than increase the risk of developing a disease). 

What are researchers doing?

Today, researchers are working to uncover as many aspects of Alzheimer's disease and other dementias as possible through studies examining various facets of the disease. Below are recent articles about Alzheimer's in ASBMB journals. 

Impaired tau–microtubule interactions are prevalent among pathogenic tau variants arising from missense mutations

One of the hallmarks of Alzheimer's disease and other similar disorders is the aggregation of tau proteins into pathological inclusions. The tau protein promotes tubulin assembly and stabilizes microtubules by binding longitudinally along the microtubule surface. shows that only a few tau variants are intrinsically prone to this type of aggregation, and microtubule-targeting therapies might be effective in the management of disease due to the deposition of abnormal tau protein in the brain.  

CD2AP overexpression accelerates APP transfer from early endosomes to the lysosomal degradation pathway

Another hallmark of Alzheimer's disease is the appearance of senile plaques, composed of β-amyloid (Aβ) peptides. Aβ is produced by sequential cleavages of amyloid precursor protein (APP) by β- and γ-secretases during intracellular trafficking through the endocytic and recycling pathways. One of the risk factors for late-onset AD is CD2-associated protein (CD2AP), an adaptor molecule that regulates membrane trafficking. The authors of sought to understand how CD2AP regulates APP trafficking. They found that CD2AP accelerates the transfer of APP from early to late endosomes and stimulates APP degradation, which may explain why impaired CD2AP function is a risk factor for Alzheimer's.  

Endoplasmic reticulum stress responses in mouse models of Alzheimer's disease

Endoplasmic reticulum (ER) stress is also believed to play a role in Alzheimer's disease (AD). However, whether ER stress is caused by AD pathology is unclear.  suggests that ER stress is also not essential in tau pathology–induced neurodegeneration, therefore the role of ER stress in AD pathogenesis needs to be carefully addressed in future studies.

What can proteomics tell us about the Alzheimer's brain?

Alzheimer′s disease is becoming more prevalent in aging populations. Proteomics can improve early diagnosis and treatment by providing insights into disease etiology and possible treatment avenues. explores how proteomics studies have contributed to the development of biomarkers for clinical diagnostics, and the recognition of proteins that can help elucidate the pathways leading to AD brain pathology. 

Modeling of pathological traits in Alzheimer's based on systemic extracellular signaling proteome

Studying Alzheimer's disease in patients is typically limited to brain imaging or psychometric testing. New tools, however, are identifying the molecular changes underlying this disease. The authors of found small numbers of signaling proteins that can model key pathological markers of Alzheimer's disease, and leads to the implication of novel signaling pathways in this disorder.  

An interactive literature guide to quantitative cerebrospinal fluid mass spectrometry data from neurodegenerative disorders

There is a need for organizing biomedical proteomics information in a way that is available to the research community. investigated scientific publications describing the analysis of the cerebrospinal fluid proteome in relation to multiple sclerosis, Parkinson's disease and Alzheimer's disease. Cerebrospinal fluid is considered to be the most attractive body fluid in the search for biomarkers related to neurological disorders. The resulting dataset (CSF-PR 2.0) included novel approaches for filtering, visualizing and comparing quantitative proteomics information for quantitative proteomics on cerebrospinal fluid. 

Cholesterol: from heart attacks to Alzheimer's disease

One of the contributing factors to Alzheimer's disease is the aggregation of the amyloid-β peptide (Aβ) in the brain. Therefore, blocking the generation of Aβ is a potentially important treatment strategy. Cholesterol has recently been associated with the processing of Aβ and may have the potential to affect AD.  

Role of LRP1 in the pathogenesis of Alzheimer’s disease

Accumulating evidence from preclinical studies indicates that one of the low-density lipoprotein receptor (LDL) family members, LDLR-related protein 1, has a role in the pathogenesis of Alzheimer’s disease. LRP1 regulates the metabolism of amyloid-β peptides in the brain. Yet, evidence from clinical studies is not sufficient to conclude how LRP1 contributes to Alzheimer's development. discusses the potential mechanisms underlying how LRP1 affects Alzheimer's pathogenesis through Aβ-dependent and  -independent pathways, as well as potential therapeutic strategies for targeting LRP1. 

Ketone body therapy: from the ketogenic diet to the oral administration of ketone ester

The brain readily utilizes ketone bodies as an alternative to using glucose for energy. Upon diminished glucose utilization in cognition-critical brain areas, such as early in Alzheimer’s disease, these areas can still metabolize ketone bodies. Particular esters can produce plasma ketone levels comparable to those achieved by the most rigorous ketogenic diet, providing a new approach to the study and potential treatment of a variety of diseases, including Alzheimer's.

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Adriana Bankston

Adriana Bankston is a senior fellow in science policy at the Federation of American Scientists. She is also strategic advisor at the Journal of Science Policy and Governance.

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