By Published: July 5, 2023

Maciej Walczak, CU 麻豆影院 associate professor of chemistry, won a $2 million NIH grant to investigate how certain sugars modify a brain protein associated with neurodegeneration


A research laboratory at the 麻豆影院 has won a $2 million grant from the National Institutes of Health to explore an uncharted region of Alzheimer鈥檚 disease: the chemical interaction of a protein called tau with biomolecules known as glycans.

On the surface, 鈥渢here鈥檚 nothing special about tau. It was discovered in 1975 and was described as just a protein, and there are thousands of proteins in neurons,鈥 says Maciej Walczak, an associate professor of chemistry at CU 麻豆影院 and the principal investigator of the .

鈥淏ut in Alzheimer鈥檚 disease patients, that particular protein has an unusually high number of post-translational modifications compared to healthy individuals. We don鈥檛 know why that is.鈥

Maciej Walczak

is researcher studying strategies to manipulate and understand the function of biomolecules in human health and disease.

Tau is found in all humans and is abundant in neurons, where it stabilizes the cell鈥檚 internal skeleton. Once the protein is produced, different molecules can attach themselves to tau, a process that is called post-translational modification, and change its structure, function and localization.

鈥淭au is like a string: It鈥檚 very floppy, flexible and binds to all sorts of things. It鈥檚 intrinsically disordered, which means it doesn鈥檛 have a stable structure,鈥 Walczak says. 鈥淲hat that means is that all these residues on tau are available to different enzymes to add small molecules or modifications on the chain site.鈥

Alzheimer鈥檚 is a notoriously perplexing disease, with no treatment in sight after being discovered more than a century ago. Although in past decades most scientists have focused on the protein beta-amyloid as the main component of toxic plaques that cause neurodegeneration, tau was recently brought into the limelight as a key element to understanding the progression of Alzheimer鈥檚.

The Walczak Group first started researching tau and its correlation with Alzheimer鈥檚 several years ago in a project led by Wyatt Powell, a PhD student in chemistry who is advised by Walczak.

Members of the Walczak Lab group

Researchers in the Walczak Group include (front row, left to right)听Kajal Thakur,听Ruiheng Jing, (back row, left to right)听James Greenwood,听Maciej Walczak,听Wyatt Powell and Patrick Holland.

鈥淣eurodegeneration is very complex, so there won鈥檛 be any one specific factor. Most of the students in the lab are chemists who have a very unique take on this problem because they鈥檙e thinking very molecularly,鈥 Walczak says.

With the NIH grant, the Walczak Group plans to study a specific molecular modification to tau that could be causing the spread of neurodegeneration: Glycosylation.

鈥淵ou鈥檙e familiar with sugars and carbohydrates: You eat them, digest them; they鈥檙e a source of energy. That鈥檚 one role of sugars,鈥 Walczak says. 鈥淭heir second role is much more interesting from the biological perspective because when they鈥檙e added to proteins, they change their structure and function.鈥

In glycosylation, molecules of sugar known as glycans are added to proteins such as tau and change their structure, an example of post-translational modification. In Alzheimer鈥檚 disease patients, the glycosylation of tau is more prominent than in healthy people.

For the NIH project, 鈥淲e would like to understand the molecular role of glycans attached to tau. Does it change their ability to aggregate and propagate?鈥

Because neurodegeneration is a progressive disease, toxic fibers of modified tau jump from neuron to neuron. Over several years or decades, large quantities of neurons are killed from this spread. 鈥淲e want to understand how sugars modulate that process,鈥 Walczak says.

It鈥檚 a very important and unsolved problem that will become more pressing because of the increasing aging population in the next few decades鈥.

Although Walczak thinks the lab鈥檚 research into the glycosylation of tau is not focused on therapeutic discovery at the moment, he stressed that understanding Alzheimer鈥檚 molecular progression will help fill in critical gaps in our knowledge about the disease.

鈥淚t鈥檚 a very important and unsolved problem that will become more pressing because of the increasing aging population in the next few decades,鈥 Walczak says. 鈥淎nd what I think is fascinating about this disease is that it has various factors, and we don鈥檛 really understand what those are.鈥

鈥淭hat complexity and challenge has drawn me to pursue this direction. There are a number of fundamental discoveries to be made in the basic biology and mechanism of the disease,鈥 Walczak says.

Walczak also emphasized the importance of the lab鈥檚 graduate students, who will be studying neurodegeneration by focusing on glycan鈥檚 modifications with various models such as stem cells.

鈥淭he modeling of the disease in the lab is very challenging because it鈥檚 such a slow process,鈥 Walczak says. 鈥淚 think we are very lucky we got the NIH grant because it will sustain us to really pursue our goals and create opportunities for new discoveries.鈥