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Home » Diet » Scientists Discover a Gene to Stay Thin Protects Against Diet-Induced Obesity – SciTechDaily

By Institute of Molecular Biotechnology of the Austrian Academy of SciencesDecember 27, 2020

Why some people eat as much as they want and stay lean while others cant. In mice, genetic deletion of ALK resulted in thin animals with marked resistance to diet induced obesity while food intake was not changed. The researchers found that ALK in the hypothalamus controls energy expenditure via sympathetic control of adipose tissue lipolysis. The drawing illustrates how our genetic make-up determines body weight (gain). Credit: IMBA/IMP graphics

A noticeable impact on the waistline of many people is a side-effect of the quarantine due to the global COVID-19 outbreak. Reduced activity and lack of sports while consuming the same, or even elevated amounts of calories can quickly cause a substantial weight gain.

Strikingly, some individuals can make it through this period without gaining any weight we all know these people who can eat what they want but do not appear to gain weight.

A consortium of international researchers including scientists from IMBA, the University of British Columbia, Medical University of Vienna, and the Estonian Biobank have now taken a unique approach: thus far, the regulation of fat metabolism has mainly focused on finding genes linked to obesity. The team, however, went on a quest to discover genes linked to thinness, or the resistance to weight gain.

In order to identify candidate thinness genes, the research team conducted genome-wide association studies in an Estonian population cohort, profiling over 47,000 people. They compared thin to control individuals and were thereby able to pinpoint ALK, which codes for Anaplastic Lymphoma Kinase, as a candidate gene for thinness. ALK was mainly known due to its involvement in cancer, as it is frequently mutated in multiple cancers. However, its physiological function was largely elusive.

To test the hypothesis of ALK being involved in thinness, the researchers inactivated the ALK gene in mice. Strikingly, despite normal food intake and activity, ALK deficient mice were skinnier because of a much-reduced fat mass and strikingly protected against diet-induced obesity as opposed to littermate controls. Interestingly, when knocking down the ALK orthologues in the fruit fly Drosophila melanogaster, they also found significantly lower triglyceride fat accumulation, even when flies were fed a high-sucrose diet.

First author Michael Orthofer from the Penninger lab explains: By using a technique called indirect calorimetry, we could show that ALK deficient mice exhibit increased energy expenditure. This means that they burn more calories than normal mice and explains why they remain thin even if they eat the same amount of food. In addition to that, these animals also show improved glucose tolerance.

ALK is highest expressed in a very specific brain region called the paraventricular nucleus (PVN) of the hypothalamus. When the scientists depleted ALK in this brain area, a similar body weight reduction was observed compared to full-body ALK knockout models. The PVN is known to be involved in the regulation of energy homeostasis, both via hormonal pathways and the sympathetic nervous system, which uses norepinephrine as neurotransmitter. Indeed, levels of the neurotransmitter norepinephrine were elevated in both white and brown fat of the mutant mice, indicating that ALK deficiency increases sympathetic tone to adipose tissues. Consequently, ALK knockout mice showed increased breakdown of fat, which explains their low body adiposity and resistance to weight gain.

This strengthens the notion that ALK is indeed part of a larger brain circuit involved in energy expenditure. We are very excited about these results on the genetics of thinness and will further investigate the mechanisms of how ALK-expressing neurons are able to control weight. Our results also highlight the important therapeutic potential of ALK inhibition, says Josef Penninger, IMBA group leader and founding director, who is now director of the Life Sciences Institute of the University of British Columbia.

For more on this research, read Scientists Identify Gene Linked to Thinness.

Reference: Identification of ALK in Thinness by Michael Orthofer, Armand Valsesia, Reedik Mgi, Qiao-Ping Wang, Joanna Kaczanowska, Ivona Kozieradzki, Alexandra Leopoldi, Domagoj Cikes, Lydia M. Zopf, Evgenii O. Tretiakov, Egon Demetz, Richard Hilbe, Anna Boehm, Melita Ticevic, Margit Nukas, Alexander Jais, Katrin Spirk, Teleri Clark, Sabine Amann, Maarja Lepamets, Christoph Neumayr, Cosmas Arnold, Zhengchao Dou, Volker Kuhn, Maria Novatchkova, Shane J.F. Cronin, Uwe J.F. Tietge, Simone Mller, J. Andrew Pospisilik, Vanja Nagy, Chi-Chung Hui, Jelena Lazovic, Harald Esterbauer, Astrid Hagelkruys, Ivan Tancevski, Florian W. Kiefer, Tibor Harkany, Wulf Haubensak, G. Gregory Neely, Andres Metspalu, Jorg Hager, Nele Gheldof and Josef M. Penninger, 21 May 2020, Cell.DOI: 10.1016/j.cell.2020.04.034

IMBA Institute of Molecular Biotechnology is one of the leading biomedical research institutes in Europe focusing on cutting-edge stem cell technologies, functional genomics, and RNA biology. IMBA is located at the Vienna BioCenter, the vibrant cluster of universities, research institutes and biotech companies in Austria. IMBA is a subsidiary of the Austrian Academy of Sciences, the leading national sponsor of non-university academic research. The stem cell and organoid research at IMBA is being funded by the Austrian Federal Ministry of Science and the City of Vienna.

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Scientists Discover a Gene to Stay Thin Protects Against Diet-Induced Obesity - SciTechDaily

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Home » Diet » Scientists Discover a Gene to Stay Thin Protects Against Diet-Induced Obesity – SciTechDaily