Jump to content
Invision Community
HEALTH & DISEASES Diabetes Treatment Cancer Treatment Alzheimer's Treatment Crohn's Disease Treatment Cirrhosis Treatment Multiple Sclerosis Treatment Scleroderma Treatment Hair Loss Treatment Infertility Treatment
Sign in to follow this  

Treatment Horizon

Recommended Posts

A worldwide quest is under way to find new treatments to stop, slow or even prevent Alzheimer's disease. Because new drugs take years to produce from concept to market — and because drugs that seem promising in early-stage studies may not work as hoped in large-scale trials — it is critical that Alzheimer's and other dementia research continues to accelerate. To advance this effort, the Alzheimer's Association funds researchers looking at new treatment strategies and advocates for more federal funding of Alzheimer's research.

The hope for future drugs

Currently, there are five Alzheimer's drugs approved by the U.S. Food and Drug Administration (FDA) that treat the symptoms of Alzheimer's disease — temporarily helping memory and thinking problems — with a sixth drug available globally. However, these medications do not treat the underlying causes of the disease or slow its progression.

Many drugs in development aim to interrupt the disease process itself by impacting one or more of the brain changes associated with Alzheimer’s. These changes offer potential targets for new drugs to slow or stop the progress of the disease. Researchers believe successful treatment will eventually involve a combination of medications aimed at several targets, similar to current treatments for many cancers and AIDS.

Targets for future drugs

The following are examples of promising targets for next-generation drug therapies under investigation in current research studies:


Beta-amyloid is the chief component of plaques, one hallmark Alzheimer’s brain abnormality. Scientists have a detailed understanding of how this protein fragment is clipped from its parent compound, amyloid precursor protein (APP), by two enzymes — beta-secretase and gamma-secretase — to form the beta-amyloid protein that is present in abnormally high levels in the brains of people living with Alzheimer’s. Researchers are developing medications aimed at almost every point in the amyloid processing pathway. This includes blocking activity of the betasecretase enzyme; preventing the beta-amyloid fragments from clumping into plaques; and using antibodies against beta-amyloid to clear it from the brain. Several clinical trials of investigational drugs targeting beta-amyloid are underway.

Current drug in research that targets beta-amyloid: Aducanumab 

Aducanumab is a recombinant monoclonal antibody targeting aggregated forms of beta-amyloid, such as oligomers and fibrils, that can develop into amyloid plaque in the brains of people living with Alzheimer’s disease. Early studies showed decreased levels of beta-amyloid in the brains of study volunteers. Two Phase 3 studies are under way to test whether monthly doses of aducanumab can slow cognitive and functional decline in people with early Alzheimer’s disease. The studies are expected to be completed in late 2019 and late 2020. (Drug is still in research; not available to the public.)

Beta-secretase (BACE) 

One of the enzymes that clips APP, BACE makes it possible for beta-amyloid to form. Therapies that interrupt this process may reduce the amount of beta-amyloid in the brain and ultimately intervene in the development of Alzheimer’s disease.

Current drug in research that targets beta-secretase: JNJ-54861911

JNJ-54861911 inhibits the ability of the beta-secretase enzyme to make betaamyloid. It is currently in a Phase 3 study to determine if it slows cognitive decline in people who do not have Alzheimer’s symptoms but have elevated levels of beta-amyloid in the brain. The study is expected to be completed in 2024. JNJ-54861911 is administered in pill form. (Drug is still in research; not available to the public.)

Tau protein

Tau protein is the chief component of tangles, the other hallmark brain abnormality of Alzheimer’s disease. Tau protein helps maintain the structure of a neuron, including tiny tube-like structures called microtubules that deliver nutrients throughout the neuron. Researchers are investigating mechanisms to prevent tau protein from collapsing and twisting into tangles, a process that destroys microtubules and, ultimately, the neuron itself.

Current drug in research that targets tau protein: AADvac1

AADvac1 is a vaccine that stimulates the body’s immune system to attack an abnormal form of tau protein that destabilizes the structure of neurons. If successful, it has the potential to help stop the progression of Alzheimer’s disease. A Phase 2 clinical trial enrolling 185 volunteers living with mild Alzheimer’s disease began in March 2015 and is expected to be completed in February 2019. (Drug is still in research; not available to the public.)


Inflammation in the brain has long been known to play a role in the changes that occur in Alzheimer’s disease. Both beta-amyloid plaques and tau tangles cause an immune response in the brain, and microglia cells act as the first form of immune defense against them. However, while microglia help clear beta-amyloid in the brain, they can become overactive in the presence of plaques and produce compounds that damage nearby cells.

Current drug in research that targets inflammation: Sargramostim

Approved by the FDA for bone marrow stimulation in people with leukemia, Sargramostim stimulates the innate immune system. It is being tested in Alzheimer’s because it may stimulate immune processes that could protect neurons in the brain from toxic proteins. A Phase 2 study of Sargramostim is underway. It is expected to be completed in late 2018. (Drug is still in research; not available to the public.)

5-HT2A receptor

The 5HT6 receptor found on some brain cells can lock in chemicals called neurotransmitters. This decreases the amount of neurotransmitters available for the brain to use for communication between nerve cells (neurons). Only through neuron-to-neuron communication can an individual think and function normally. Acetylcholine is one of these neurotransmitters. People living with Alzheimer’s disease have low levels of acetylcholine. Blocking the 5HT6 receptor may increase the amount of acetylcholine and help nerve cells to maintain normal communication.

Current drug in research that targets 5-HT2A: Pimavanserin

Pimavanserin is an inverse agonist for the 5-HT2A receptor. This means that pimavanserin mimics the shape of the serotonin "key" and fits into the 5-HT2A "lock." However, pimavanserin has the opposite effect of serotonin: it reduces communication between neurons. This may have the effect of reducing the symptoms of dementia-related psychosis. A Phase 3 clinical trial of pimavanserin is underway. The study is expected to be completed in September 2020. (Drug is still in research; not available to the public.)

Share this post

Link to post
Share on other sites
HEALTH & LEARNING Online Medical Degree Nursing School Online Online Schools to Become a Pharmacist Bachelor Degree Online Master Degree Online Online Courses MBA Degree Online Online School Associate Degree Online

Join the conversation

You can post now and register later. If you have an account, sign in now to post with your account.

Reply to this topic...

×   Pasted as rich text.   Paste as plain text instead

  Only 75 emoji are allowed.

×   Your link has been automatically embedded.   Display as a link instead

×   Your previous content has been restored.   Clear editor

×   You cannot paste images directly. Upload or insert images from URL.

Sign in to follow this  

  • Create New...