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Tag: white adipose tissue (Page 2 of 9)

Lack of p38 activation in T cells increases IL-35 and protects against obesity by promoting thermogenesis

10/05/2024 /

Ivana Nikolić, Irene Ruiz-Garrido, María Crespo, Rafael Romero-Becerra, Luis Leiva-Vega, Alfonso Mora, Marta León, Elena Rodríguez, Magdalena Leiva, Ana Belén Plata-Gómez, Maria Beatriz Alvarez Flores, Jorge L Torres, Lourdes Hernández-Cosido, Juan Antonio López, Jesús Vázquez, Alejo Efeyan, Pilar Martin, Miguel Marcos & Guadalupe Sabio.

Obesity is characterized by low-grade inflammation, energy imbalance and impaired thermogenesis. The role of regulatory T cells (Treg) in inflammation-mediated maladaptive thermogenesis is not well established.

Reduction of fat mass of mice lacking MKK3/6 as seen by MRI (Image: Ivana Nikolić).

Here, we find that the p38 pathway is a key regulator of T cell-mediated adipose tissue (AT) inflammation and browning. Mice with T cells specifically lacking the p38 activators MKK3/6 are protected against diet-induced obesity, leading to an improved metabolic profile, increased browning, and enhanced thermogenesis. We identify IL-35 as a driver of adipocyte thermogenic program through the ATF2/UCP1/FGF21 pathway. IL-35 limits CD8+ T cell infiltration and inflammation in AT. Interestingly, we find that IL-35 levels are reduced in visceral fat from obese patients.

Mechanistically, we demonstrate that p38 controls the expression of IL-35 in human and mouse Treg cells through mTOR pathway activation. Our findings highlight p38 signaling as a molecular orchestrator of AT T cell accumulation and function.

EMBO Rep 2024; 25: 2635-2661.

Hay una triple conexión entre obesidad, jet lag y cáncer

22/01/2024 /

Guadalupe Sabio atiende a Infobae para hablar de sus trabajos en torno a cómo se relaciona el metabolismo con la oncología, una relación que aún deja muchas dudas sin responder.

«Durante la incorporación de tu equipo y tú al CNIO, decíais una cosa muy llamativa: que la ciencia tiene la certeza de que la obesidad provoca cáncer, pero que no se conocen los motivos».

seguir leyendo en Infobae

Guadalupe Sabio en el CNIO (Foto: Jose Carmona/Infobae).

DIDO is necessary for the adipogenesis that promotes diet-induced obesity

10/01/2024 /

María Ángeles García-López, Alfonso Mora, Patricia Corrales, Tirso Pons, Ainhoa Sánchez de Diego, Amaia Talavera Gutiérrez, Karel H. M. van Wely, Gema Medina-Gómez, Guadalupe Sabio, Carlos Martínez-A, & Thierry Fischer.

The prevalence of overweight and obesity continues to rise in the population worldwide. Because it is an important predisposing factor for cancer, cardiovascular diseases, diabetes mellitus, and COVID-19, obesity reduces life expectancy. Adipose tissue (AT), the main fat storage organ with endocrine capacity, plays fundamental roles in systemic metabolism and obesity-related diseases. Dysfunctional AT can induce excess or reduced body fat (lipodystrophy). Dido1 is a marker gene for stemness; gene-targeting experiments compromised several functions ranging from cell division to embryonic stem cell differentiation, both in vivo and in vitro.

Reduced body temperature in mutant ΔNT mice.
Reduced body temperature in mutant ΔNT mice (Image: Alfonso Mora).

We report that mutant mice lacking the DIDO N terminus show a lean phenotype. This consists of reduced AT and hypolipidemia, even when mice are fed a high-nutrient diet. DIDO mutation caused hypothermia due to lipoatrophy of white adipose tissue (WAT) and dermal fat thinning. Deep sequencing of the epididymal white fat (Epi WAT) transcriptome supported Dido1 control of the cellular lipid metabolic process. We found that, by controlling the expression of transcription factors such as C/EBPα or PPARγ, Dido1 is necessary for adipocyte differentiation, and that restoring their expression reestablished adipogenesis capacity in Dido1 mutants.

Our model differs from other lipodystrophic mice and could constitute a new system for the development of therapeutic intervention in obesity.

Proc. Natl. Acad. Sci USA. 2024; 121 (3): e2300096121.

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