Can calorie cuts rewire muscle for better blood sugar control?

Researchers found that restricting calories dramatically rewires proteins in rat skeletal muscle, causing molecular changes that boost insulin sensitivity, crucial for blood sugar control in older adults.
The study identified two key proteins, Lmod1 and Ehbp1l1, associated with greater muscle glucose uptake, which have strong genetic associations with regulating human blood sugar levels.
Surprisingly, 70% of the molecular changes that occurred were sex-dependent, highlighting the need for tailored strategies to develop interventions for age-related diabetes and diabetes in general.
The study’s findings suggest that calorie restriction can enhance insulin-stimulated glucose uptake in both males and females, but with different protein phosphorylation patterns, indicating unique internal strategies for adaptation.
The researchers identified 40% of metabolites as altered by calorie restriction within each sex, with significant numbers of these changes occurring only in one sex, providing new insights into the effects of calorie restriction on metabolism.

A woman checks her blood sugar using a handheld device.

New research found that restricting calories dramatically rewires proteins in rat skeletal muscle, causing molecular changes that boost insulin sensitivity—crucial for blood sugar control in older adults, say scientists.

Surprisingly, roughly 70% of the molecular changes that the muscles used to adapt were sex-dependent.

The study also identified two key proteins, Lmod1 and Ehbp1l1, that were associated with greater muscle glucose uptake and which are known to have strong genetic associations with regulating human blood sugar.

Funded by the National Institutes of Health and the Australian Research Council, the study is important because its sex-specific findings underscore the need for tailored strategies to develop interventions that combat age-related diabetes and diabetes in general.

The identified proteins could serve as therapeutic targets for conditions such as type 2 diabetes, the researchers say.

“I think now we agree that we need to study men and women; you can’t study one and assume it means the truth for the other,” says principal investigator Greg Cartee, professor of movement science at the University of Michigan School of Kinesiology. “And even when the outcome is quite similar, the pathways to getting to that outcome can be different.”

Cartee says the “discovery study,” published in the Journal of Gerontology: Biological Sciences, aimed to identify the specific changes in muscle protein phosphorylation that explain why calorie restriction enhances insulin-stimulated glucose uptake in the skeletal muscle of aged rats of both sexes. Phosphorylation acts like a chemical switch on a protein that can either dim or enhance a function, or turns it on or off.

The 24-month-old rats were fed 35% less food for eight weeks. Researchers found that calorie restriction enhanced insulin-stimulated glucose uptake in both sexes, but glucose uptake was greater in females, regardless of diet.

Insulin caused altered phosphorylation on more than twice as many protein sites in females compared to males, with 60 overlapping sites. However, calorie restriction caused altered phosphorylation on about 30% more protein sites of males compared to females, Cartee says. In other words, males and females don’t use identical internal strategies to adapt to the low-calorie diet, but both strategies lead to the same positive result: better muscle sugar metabolism.

“The key functional outcome that we studied—insulin-stimulated glucose uptake—was similarly increased by calorie restriction in each sex even though the two sexes differed considerably in their protein phosphorylation patterns,” Cartee says. “An imperfect analogy is that when you use Google Maps, you typically are given multiple routes to reach the destination. Males and females don’t use completely separate ‘roads’ to achieve increased glucose uptake; they may travel the same roads but use different lanes or drive at different speeds along the way.”

Two proteins, Ehbp1l1 and Lmod1, were identified as having insulin-responsive phosphorylation sites that correlated directly with insulin-stimulated glucose uptake across individuals. Both proteins have known genetic associations with glycemic traits in humans.

Cartee says researchers recently performed a parallel experiment using a similar design, but instead analyzed the levels of a large number of metabolites—chemicals in the body that originate from the diet or from the body’s metabolism.

“Of the approximately 1,000 different metabolites that we measured, the levels of about 40% were altered by calorie restriction within each sex,” he says. “A number of the metabolites were altered in both sexes, but significant numbers of these CR-responsive metabolites were altered in only one sex.”

Additional coauthors are from University of Michigan, University of Sydney, University of Cambridge, and Royal Children’s Hospital.

Source: University of Michigan

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Q. Can calorie cuts rewire muscle for better blood sugar control?

A. Yes, according to new research, restricting calories dramatically rewires proteins in rat skeletal muscle, causing molecular changes that boost insulin sensitivity.

Q. How did the researchers find that calorie restriction affects muscle protein phosphorylation differently in males and females?

A. The study found that roughly 70% of the molecular changes that the muscles used to adapt were sex-dependent, meaning that males and females had different patterns of protein phosphorylation in response to calorie restriction.

Q. What are two key proteins associated with greater muscle glucose uptake that have strong genetic associations with regulating human blood sugar?

A. The identified proteins are Lmod1 and Ehbp1l1, which have known genetic associations with glycemic traits in humans.

Q. Why is it important to study men and women separately when it comes to the effects of calorie restriction on blood sugar control?

A. Principal investigator Greg Cartee says that studying one sex and assuming the results apply to both sexes can lead to inaccurate conclusions, as the pathways to achieving better blood sugar control may be different between males and females.

Q. How did the researchers measure the effects of calorie restriction on muscle protein phosphorylation in this study?

A. The researchers used a 24-month-old rat model that was fed 35% less food for eight weeks, allowing them to observe changes in muscle protein phosphorylation over time.

Q. What was the key functional outcome that the researchers studied in this study?

A. The key functional outcome was insulin-stimulated glucose uptake, which was found to be increased by calorie restriction in both males and females.

Q. How did the levels of metabolites change in response to calorie restriction in this study?

A. Approximately 40% of the measured metabolites were altered by calorie restriction within each sex, with some changes occurring in both sexes but others being unique to one sex.

Q. What does the discovery of these proteins and their role in regulating blood sugar control mean for potential therapeutic targets?

A. The identified proteins could serve as therapeutic targets for conditions such as type 2 diabetes.

Q. Why is it important to consider the differences in protein phosphorylation patterns between males and females when studying the effects of calorie restriction on blood sugar control?

A. Principal investigator Greg Cartee says that while both males and females achieve better muscle sugar metabolism through calorie restriction, they use different internal strategies to adapt, highlighting the need for tailored strategies to develop interventions.