Hormone and gut bacteria link may guide better treatment for menopause symptoms


ASU researchers Rosa Krajmalnik-Brown and Heather Bimonte-Nelson wearing white coats, safety goggles and gloves as they handle test tubes in a lab.
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Menopause marks the end of a woman’s fertility, but it can also bring about a slew of other — often baffling — changes, from weight gain to brain fog.

Arizona State University scientists have found that hormones and gut bacteria affect each other, leading to changes in metabolism and brain function. This relationship could be key for treating menopausal symptoms and improving women’s health.

The researchers recently published their findings in Frontiers in Cellular and Infection Microbiology.

Menopause is when a woman stops having periods and can no longer become pregnant. During menopause, the ovaries make less of certain sex hormones, like estrogen and progesterone. There is evidence that these changes raise the risk for health issues like heart disease, obesity, Type 2 diabetes and dementia. To address these risks, many women take supplemental estrogen after reaching menopause.

In their study, researchers Rosa Krajmalnik-Brown and Heather Bimonte-Nelson, along with ASU and Mayo Clinic collaborators Anita Mayer and Julia Files, looked at how menopause and estrogen supplements affected weight, gut bacteria, learning and memory in animal models. They compared the effects of menopause with no estrogen supplements, low-dose supplements and high-dose supplements, along with a non-menopausal control.

They found that while untreated menopause causes weight gain, treatment with high- and low-dose estrogen helps prevent this gain.

Another key finding is that menopause changes the community of bacteria living in the gut, which is called the microbiome. The team also saw that there is a link between certain gut bacteria and better memory, but they found this link only in models without menopause.

“Our study discovered that there are unique relationships between gut composition and cognition that seem to depend on hormone status in females. We found that having intact ovaries had a beneficial effect on gut microbiota, and that this profile became altered after surgical menopause,” said Bimonte-Nelson, a President’s Professor in the Department of Psychology who studies how menopause affects cognitive function. “The microbiome could very well guide how menopause and estrogens impact learning and memory.”

“The altered microbiome can have broad impacts on animal behavior and health. Microbe-host interaction is an exciting two-way street,” said Lydia Zeibich, a co-author of the paper and former postdoctoral researcher at the ASU Biodesign Center for Health Through Microbiomes.

Estrogen treatment after menopause improves microbiome health and helps correct some, though not all, of these changes.

ASU researchers Rosa Krajmalnik-Brown and Heather Bimonte-Nelson wearing white coats, safety goggles and gloves as they handle test tubes in a lab.

Rosa Krajmalnik-Brown (left) and Heather Bimonte-Nelson at the Biodesign Institute. Photo by Andy DeLisle/ASU

“Chemicals interact with microbes in two different ways. Chemicals change microbial communities, but microbial communities can also change chemicals. We saw a little bit of both in our study,” said Krajmalnik-Brown, director of the Biodesign Center for Health Through Microbiomes and professor in the School of Sustainable Engineering and the Built Environment.

What happens in the gut doesn’t stay in the gut.

— Professor Rosa Krajmalnik-Brown

This relationship is important for the health of the whole body, she explains. A hormone can alter the microbiome, and the microbiome can help the body make different chemicals depending on its current state. Krajmalnik-Brown compares these hormones to little taxis that carry signals from the gut to the liver, brain and other parts of the body.

“What happens in the gut doesn’t stay in the gut,” she said.

This study suggests avenues for future research. After observing health benefits from estrogen supplements alongside microbiome changes, one key question for the team is whether the microbiome contributes to those health benefits.

“I believe this work has opened the door to many exciting future discoveries about the role of menopause and gut microbiota in impacting the brain and body during aging,” said Stephanie Koebele, a co-author of the paper and postdoctoral researcher at the ASU Center for Evolution and Medicine.

Learning more about the microbiome and its relationship to the rest of the body could give clinicians new tools to improve health, especially for women.

“There are many experiments left to do and much left to discover regarding the connections among the gut, endocrine system and brain functioning. Our teams are enthusiastic about working together to uncover these relationships and ultimately enrich the lives of women throughout their lifetime,” Bimonte-Nelson said.

A certain type of bacterium, for instance, could turn out to be important for the process of creating or distributing estrogen. Adding or growing that bacterium through the use of vitamins, prebiotics or probiotics could offer an alternative to hormone therapy.

The potential uses for this type of treatment go far beyond menopause.

“Understanding the role of these microbes and how they're changing the gut chemistry and possibly the chemistry that goes into the brain could lead to other therapies, not just estrogen addition,” Krajmalnik-Brown said.

Heather Bimonte-Nelson and Rosa Krajmalnik Brown credit the late Elizabeth Capaldi Phillips, former ASU provost and professor of psychology, for paving the way for this study by seeing the connections between their research and encouraging them to form an interdisciplinary team.

Top photo: Rosa Krajmalnik-Brown (left) and Heather Bimonte-Nelson examine samples in the Health Through Microbiomes Lab. Photo by Andy DeLisle/ASU

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