Glutamine may decrease obesity-linked inflammation


Glutamine could help people with obesity reduce inflammation of fat tissue and reduce fat mass, according to a new study at Karolinska Institutet in Sweden and the University of Oxford in the U.K. The researchers also show how glutamine levels can alter gene expression in several different cell types. However, more research is needed before glutamine supplementation may be recommended as a treatment for obesity. The study is published in the journal

Cell Metabolism

.

Glutamine is an important amino acid with many key functions such as providing energy and maintaining good intestinal health. It also has anti-inflammatory effects on for example white blood cells and T-cells that are important for the immune system.

In the current study, the researchers examined how the metabolic processes differed in fat tissue collected from the abdomen of 52 obese and 29 non-obese women. They identified glutamine as the amino acid that displayed the largest differences when comparing the two groups. People with obesity had on average lower levels of glutamine in their fat tissue than normal-weight people. Lower glutamine-levels were also associated with larger fat cell size and higher body fat percentage independently of body-mass index (BMI), according to the study.

“Our results suggest that treatment with glutamine could be of value against obesity and insulin resistance,” says Mikael Ryden, professor and senior physician at the Department of Medicine in Huddinge, Karolinska Institutet, and the study’s corresponding author. “We know, however, that glutamine is also important for cell division and the metabolism of cancer and therefore, more research on possible long-term side effects is needed before glutamine may be recommended as a dietary supplement to help treat obesity and its complications.”

The researchers also showed through a combination of animal and cell analyses that glutamine levels influenced the expression of different genes and that low glutamine levels induced an increase in the expression of pro-inflammatory genes in the fat tissue. Obese mice injected with glutamine for two weeks had less fat tissue inflammation than mice who received a control saline solution. Their body fat mass, fat cell volume and blood glucose levels were also reduced. In an analysis of cultured human fat cells, the expression of pro-inflammatory genes and the lipid content were attenuated after incubation with increasing concentrations of glutamine. The largest effect was observed after treatment with 5-20 millimolar (mM) glutamine for 11 days, according to the study.

The researchers also studied in detail what happens inside the fat cell when glutamine levels are altered. They found that glutamine impacts a mechanism called O-GlcNAcylation that can control epigenetic changes, that is changes in gene expression caused by environmental and lifestyle factors rather than by alterations in our underlying DNA sequence. People with obesity had higher levels of O-GlcNAcylation in their fat tissue while mice and human cells treated with glutamine had lower levels of O-GlcNAcylation in the cell nucleus.

“Our study shows that glutamine is anti-inflammatory in the fat tissue by changing the gene expression in several different cell types,” says Mikael Ryden. “This means that a lack of glutamine, which may occur during long-term obesity, could lead to epigenetic changes that fuel inflammation in the body.”

Further research is needed to fully understand which genes and cellular processes are affected the most, according to the researchers.

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The study has been financed with the help of the Swedish Research Council, the Novo Nordisk Foundation, CIMED, the European Association on the Study of Diabetes together with Eli-Lilly, the Swedish Diabetes Foundation, the Knut and Alice Wallenberg’s Foundation, the Stockholm County Council, the Diabetes Wellness Fund and the Strategic Research Program in Diabetes at Karolinska Institutet.

Publication: “Glutamine links obesity to inflammation in human white adipose tissue,” Paul Petrus, Simon Lecoutre, Lucile Dollet, Clotilde Wiel, André Sulen, Hui Gao, Beatriz Tavira, Jurga Laurencikiene, Olav Rooyackers, Antonio Checa, Iyadh Douagi, Craig E. Wheelock, Peter Arner, Mark McCarthy, Martin O. Bergo, Laurienne Edgar, Robin P. Choudhury, Myriam Aouadi, Anna Krook and Mikael Rydén,

Cell Metabolism

, online December 19, 2019.

This part of information is sourced from https://www.eurekalert.org/pub_releases/2019-12/ki-gmd121819.php

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