Literature DB >> 33758420

TFEB-GDF15 axis protects against obesity and insulin resistance as a lysosomal stress response.

Jinyoung Kim1, Seong Hun Kim1,2, Hyereen Kang1, Soyeon Lee1, Shi-Young Park3, Yoonil Cho3, Yu-Mi Lim1, Ji Woong Ahn4, Young-Hwan Kim4, Seungsoo Chung4, Cheol Soo Choi3,5, Yeon Jin Jang6, Hye Soon Park7, Yoonseok Heo8, Kook Hwan Kim9,10, Myung-Shik Lee11,12.   

Abstract

TFEB, a key regulator of lysosomal biogenesis and autophagy, is induced not only by nutritional deficiency but also by organelle stress. Here, we find that Tfeb and its downstream genes are upregulated together with lipofuscin accumulation in adipose tissue macrophages (ATMs) of obese mice or humans, suggestive of obesity-associated lysosomal dysfunction/stress in ATMs. Macrophage-specific TFEB-overexpressing mice display complete abrogation of diet-induced obesity, adipose tissue inflammation and insulin resistance, which is independent of autophagy, but dependent on TFEB-induced GDF15 expression. Palmitic acid induces Gdf15 expression through lysosomal Ca2+-mediated TFEB nuclear translocation in response to lysosomal stress. In contrast, mice fed a high-fat diet with macrophage-specific Tfeb deletion show aggravated adipose tissue inflammation and insulin resistance, accompanied by reduced GDF15 level. Finally, we observe activation of TFEB-GDF15 in ATMs of obese humans as a consequence of lysosomal stress. These findings highlight the importance of the TFEB-GDF15 axis as a lysosomal stress response in obesity or metabolic syndrome and as a promising therapeutic target for treatment of these conditions.

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Year:  2021        PMID: 33758420     DOI: 10.1038/s42255-021-00368-w

Source DB:  PubMed          Journal:  Nat Metab        ISSN: 2522-5812


  57 in total

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  9 in total

Review 1.  Past, present, and future perspectives of transcription factor EB (TFEB): mechanisms of regulation and association with disease.

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2.  Novel Subgroups of Type 2 Diabetes Display Different Epigenetic Patterns That Associate With Future Diabetic Complications.

Authors:  Silja Schrader; Alexander Perfilyev; Emma Ahlqvist; Leif Groop; Allan Vaag; Mats Martinell; Sonia García-Calzón; Charlotte Ling
Journal:  Diabetes Care       Date:  2022-07-07       Impact factor: 17.152

3.  Titanium Nanoparticles Enhance Production and Suppress Stabilin-1-Mediated Clearance of GDF-15 in Human Primary Macrophages.

Authors:  Lina S Silva-Bermudez; Tatyana N Sevastyanova; Christina Schmuttermaier; Carolina De La Torre; Leonie Schumacher; Harald Klüter; Julia Kzhyshkowska
Journal:  Front Immunol       Date:  2021-12-15       Impact factor: 7.561

Review 4.  Autophagy and the Lysosomal System in Cancer.

Authors:  Suresh Kumar; Miguel Sánchez-Álvarez; Fidel-Nicolás Lolo; Flavia Trionfetti; Raffaele Strippoli; Marco Cordani
Journal:  Cells       Date:  2021-10-14       Impact factor: 6.600

Review 5.  Current Status of Autophagy Enhancers in Metabolic Disorders and Other Diseases.

Authors:  Kihyoun Park; Myung-Shik Lee
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Review 6.  TFEB; Beyond Its Role as an Autophagy and Lysosomes Regulator.

Authors:  Berenice Franco-Juárez; Cristina Coronel-Cruz; Beatriz Hernández-Ochoa; Saúl Gómez-Manzo; Noemi Cárdenas-Rodríguez; Roberto Arreguin-Espinosa; Cindy Bandala; Luis Miguel Canseco-Ávila; Daniel Ortega-Cuellar
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Review 7.  Role of Autophagy in the Pathogenesis of Diabetes and Therapeutic Potential of Autophagy Modulators in the Treatment of Diabetes and Metabolic Syndrome.

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Journal:  J Korean Med Sci       Date:  2022-09-26       Impact factor: 5.354

Review 8.  Anti-Inflammatory and Pro-Autophagy Effects of the Cannabinoid Receptor CB2R: Possibility of Modulation in Type 1 Diabetes.

Authors:  Qing-Rong Liu; Kanikkai Raja Aseer; Qin Yao; Xiaoming Zhong; Paritosh Ghosh; Jennifer F O'Connell; Josephine M Egan
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9.  Suppressive Effect of Autocrine FGF21 on Autophagy-Deficient Hepatic Tumorigenesis.

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  9 in total

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