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Stopping Alzheimer's Before It Starts

For decades, biologists researching a cure for Alzheimer鈥檚 disease have remained in the dark almost as much as the those who suffer from the disease.

For the past several years, Dr. Gemma Casadesus Smith, an Associate Professor of Biological Sciences, has been launching a multi-pronged attack against Alzheimer鈥檚.

There are two types of Alzheimer鈥檚: agerelated and genetic. Casadesus Smith focuses on age-related Alzheimer鈥檚 and the hormones she believes are directly tied to its onset.

鈥淚n my lab, we鈥檙e trying to understand how age-related events can cause Alzheimer鈥檚 disease,鈥 she said. 鈥淢y work is less focused on treating existing illness, and more in delaying or preventing it. Most Alzheimer鈥檚 patients, by the time they show symptoms, probably have had it for 10 or 15 years already. The small changes the disease causes start earlier than we can detect.鈥

Her hope is to understand how hormones associated with increased risk of Alzheimer鈥檚 disease work so that she can alter hormone activity to delay the disease long enough to preserve quality of life. 鈥淚f we can delay it by five years, 鈥榳e can effectively cure 50 percent of cases,鈥 she said. If we delay it enough, people will be able to reach the end of their life with full cognitive capabilities.鈥

Casadesus Smith said Alzheimer鈥檚 is likely more of a syndrome than a disease, caused by a battery of different negative events, but with a collective overall result 鈥 neuronal death, development of pathology, and consequent loss of cognitive function.

Funded since the early 2000s by the Alzheimer鈥檚 Association and NIH, Casadesus Smith has been studying the 鈥渟yndrome鈥 through many lenses.

鈥淚n my lab, we鈥檙e trying to understand how age-related events can cause Alzheimer鈥檚 disease. My work is not in treating existing illness, but in preventing it. Most patients, by the time they show symptoms, have had it for 10 or 15 years already. The small changes the disease causes start earlier than we can detect.鈥 鈥 Gemma Casadesus Smith

One side of her work studies how the brain processes glucose. The theory is that the alterations in normal insulin signaling in the brain and subsequent reductions in proper glucose usage are predictors of Alzheimer鈥檚, which is prevalent among obese people and diabetics.

鈥淚n the last 10 years, many researchers have started viewing Alzheimer鈥檚 as type-3 diabetes,鈥 she said. Two particular metabolic hormones 鈥 leptin and amylin 鈥 activate the insulin function systems that help the brain use insulin efficiently to process glucose. Both hormones also have been shown to directly affect cognition.

Casadesus Smith鈥檚 research uses mouse models of Alzheimer鈥檚 disease in which the hormones are administered either directly to the hippocampus or systemically, to determine how they affect insulin usage and cellular energy production, and what effect they have on cognition and Alzheimer鈥檚 disease pathology.

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Dr. Gemma Casadesus Smith

One of the hypothesized causes of Alzheimer鈥檚 is a malfunction in the body鈥檚 use of the hormone amylin. In diabetic patients, amylin tends to bind to itself and form plaques in the pancreas, but when amylin plaques form, the body no longer receives the benefits of the hormone. Interestingly, amyloid-beta, one of the main proteins that malfunctions in Alzheimer鈥檚 disease, goes through similar changes in the brain.

In April 2016, Casadesus Smith received a three-year $444,000 grant from The National Institutes of Health鈥檚 National Institute on Aging to assess the potential benefits of Pramlintide, a synthetic form of amylin. She and others have shown that this non-aggregating form of amylin leads to cognitive improvements and reductions in AD pathology. Amylin in its native state is important in maximizing insulin function and in conjunction with other diabetes treatments is proving an effective treatment for diabetic patients.

鈥淲e know this drug works, but what we don鈥檛 know is how it works, and that鈥檚 what this grant will allow us to study,鈥 she says. Understanding how drugs work is critical to be able to develop new therapies.

Casadesus Smith said her lab鈥檚 metabolic-based studies are now moving toward a focus on the hormones鈥 abilities to regulate mitochondrial function.

鈥淢itochondria are the energy powerhouses in cells and particularly important in neurons, as the brain is the most demanding organ in our body in terms of the energy it requires to function,鈥 she said. 鈥淲e are also interested in discovering the basic function of these hormone receptors in the brain, like what happens if we do not have these receptors in cognition related areas.鈥

The other half of her recent work focuses on the gender differences in Alzheimer鈥檚 disease and the hormonal changes that aging women undergo.

Statistics show that women are 1.5 times more like to develop Alzheimer鈥檚 disease than are men. Some scientists believe this is because when women reach menopause, their bodies cease to produce estrogen. However, Casadesus Smith believes that its more than just estrogen loss, and that hormones involved in trying to jump start the ovaries 鈥 luteinizing hormone (LH) 鈥 are also involved in cognitive loss and increased risk of Alzheimer鈥檚 development. Menopausal women often undergo hormone replacement therapy to reduce or eliminate the stressful effects of menopause. However, at advanced ages, estrogen no longer benefits the body and will damage neurons, raising the risk of dementia and Alzheimer鈥檚, as well as increasing the risks of stroke, breast cancer, and cardiovascular disease.

Rising levels of luteinizing hormone have the same damaging effects as estrogen on neuron plasticity 鈥 a key factor in cognitive health. Casadesus Smith said that鈥檚 because when LH increases in the bloodstream, it decreases in the brain, causing loss of cognitive function and defects in neuronal health and plasticity.

By normalizing high menopausal levels of LH to pre-menopausal levels, Casadesus Smith said women may be able to enjoy reduced severity of neuronal menopause symptoms and sustained cognitive function without the dangerous side effects of estrogen replacement treatments.

In March 2017, the National Institute on Aging at the National Institutes of Health awarded Casadesus Smith a five-year, $1.8 million grant for her project titled 鈥淢echanisms of Gonadotropin Action on Cognition and Neuronal Remodeling in Aging and Alzheimer鈥檚 Disease.鈥

Her award was the largest of any KSU researcher in 2017.

Casadesus Smith said the grant will fund the use of CRISPR-cas9 鈥 a cutting-edge gene-editing technology 鈥 to recode DNA to eliminate LH receptors.

鈥淪o we鈥檙e going to ask two questions,鈥 she said. 鈥淥ne, what is the role of the LH receptor in normal memory function? And two, how do the LH protein and receptor influence the Alzheimer鈥檚 phenotype? What do they do to pathology, and aspects associated with neuronal death in Alzheimer鈥檚 disease?鈥

By removing both the LH protein and the LH receptors in both normal mice and mice with Alzheimer鈥檚 phenotypes, she hopes to show that LH is an important contributor to neuronal plasticity, learning, memory, and that loss in the brain is, at least partially, responsible for Alzheimer鈥檚-related cognitive impairment.

POSTED: Wednesday, April 11, 2018 01:55 PM
UPDATED: Friday, November 29, 2024 09:51 AM
WRITTEN BY:
Dan Pompili