New approach offers hope for regaining lost memories in Alzheimer's

While newly approved drugs for Alzheimer's show some promise for slowing the memory-robbing disease, the current treatments fall far short of being effective at regaining memory. What is needed are more treatment options targeted to restore memory, said Buck Assistant Professor Tara Tracy, PhD, the senior author of a study that proposes an alternate strategy for reversing the memory problems that accompany Alzheimer's disease and related dementias.

Since most current research on potential treatments for Alzheimer's focuses on reducing the toxic proteins, such as tau and amyloid beta, that accumulate in the brain as the disease progresses, the team veered away from this route to explore an alternative. "Rather than trying to reduce toxic proteins in the brain, we are trying to reverse the damage caused by Alzheimer's disease to restore memory," said Tracy. The findings appear in the February 1 issue of The Journal of Clinical Investigation.

The work hinges on a protein called KIBRA, named because it is found in the kidney and the brain. In the brain, it is primarily localized at the synapses, which are the connections between neurons that allow memories to be formed and recalled. Research has shown that KIBRA is required for synapses to form memories, and Tracy's team has found that brains with Alzheimer's disease are deficient in KIBRA.

We wondered how the lower levels of KIBRA affected signaling at the synapse, and whether understanding that mechanism better could yield some insight into how to repair the synapses damaged during the course of Alzheimer's disease. What we identified is a mechanism that could be targeted to repair synaptic function, and we are now trying to develop a therapy based on this work."

Grant Kauwe, PhD, co-first author of the study, Buck Staff Scientist

The team first measured the levels of KIBRA in the cerebrospinal fluid of humans. They found that higher levels of KIBRA in the cerebrospinal fluid, but lower levels in the brain, corresponded to the severity of dementia.

"We also found this amazing correlation between increased tau levels and increased KIBRA levels in the cerebrospinal fluid," said Tracy. "It was very surprising how strong the relationship was, which really points to the role of KIBRA being affected by tau in the brain." The team is exploring this phenomenon further, in hopes that KIBRA could be used as a biomarker of synaptic dysfunction and cognitive decline that could be useful for diagnosis, treatment planning, and tracking disease progression and response to therapy.

To figure out how KIBRA affects synapses, the team created a shortened functional version of the KIBRA protein. In laboratory mice that have a condition mimicking human Alzheimer's disease, they found that this protein can reverse the memory impairment associated with this type of dementia. They found that KIBRA rescues mechanisms that promote the resilience of synapses.

"Interestingly, KIBRA restored synaptic function and memory in mice, despite not fixing the problem of toxic tau protein accumulation," said Kristeen Pareja-Navarro, co-first author of the study. "Our work supports the possibility that KIBRA could be used as a therapy to improve memory after the onset of memory loss, even though the toxic protein that caused the damage remains."

Along with other treatments that already exist or will come in the future, a KIBRA therapy to repair synapses could be a valuable addition. "Reducing toxic proteins is of course important, but repairing synapses and improving their function is another critical factor that could help," said Tracy. "That's how I see this making the biggest impact in the future."

Source:
Journal reference:

Kauwe, G., et al. (2024). KIBRA repairs synaptic plasticity and promotes resilience to tauopathy-related memory loss. The Journal of Clinical Investigation. doi.org/10.1172/JCI169064.

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