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1.
Genes Dev ; 34(7-8): 495-510, 2020 04 01.
Artículo en Inglés | MEDLINE | ID: mdl-32139423

RESUMEN

Obesity-induced diabetes affects >400 million people worldwide. Uncontrolled lipolysis (free fatty acid release from adipocytes) can contribute to diabetes and obesity. To identify future therapeutic avenues targeting this pathway, we performed a high-throughput screen and identified the extracellular-regulated kinase 3 (ERK3) as a hit. We demonstrated that ß-adrenergic stimulation stabilizes ERK3, leading to the formation of a complex with the cofactor MAP kinase-activated protein kinase 5 (MK5), thereby driving lipolysis. Mechanistically, we identified a downstream target of the ERK3/MK5 pathway, the transcription factor FOXO1, which promotes the expression of the major lipolytic enzyme ATGL. Finally, we provide evidence that targeted deletion of ERK3 in mouse adipocytes inhibits lipolysis, but elevates energy dissipation, promoting lean phenotype and ameliorating diabetes. Thus, ERK3/MK5 represents a previously unrecognized signaling axis in adipose tissue and an attractive target for future therapies aiming to combat obesity-induced diabetes.


Asunto(s)
Diabetes Mellitus Tipo 2/genética , Diabetes Mellitus Tipo 2/fisiopatología , Metabolismo Energético/genética , Lipólisis/genética , Proteína Quinasa 6 Activada por Mitógenos/genética , Proteína Quinasa 6 Activada por Mitógenos/metabolismo , Obesidad/complicaciones , Células 3T3 , Tejido Adiposo/enzimología , Animales , Diabetes Mellitus Tipo 2/tratamiento farmacológico , Evaluación Preclínica de Medicamentos , Proteína Forkhead Box O1/metabolismo , Eliminación de Gen , Células HEK293 , Humanos , Hipoglucemiantes/uso terapéutico , Péptidos y Proteínas de Señalización Intracelular/metabolismo , Lipasa/genética , Lipasa/metabolismo , Ratones , Proteínas Serina-Treonina Quinasas/metabolismo , Transducción de Señal/genética
2.
EMBO J ; 37(22)2018 11 15.
Artículo en Inglés | MEDLINE | ID: mdl-30389661

RESUMEN

Nutrient overload in combination with decreased energy dissipation promotes obesity and diabetes. Obesity results in a hormonal imbalance, which among others activates G protein-coupled receptors utilizing diacylglycerol (DAG) as secondary messenger. Protein kinase D1 (PKD1) is a DAG effector, which integrates multiple nutritional and hormonal inputs, but its physiological role in adipocytes is unknown. Here, we show that PKD1 promotes lipogenesis and suppresses mitochondrial fragmentation, biogenesis, respiration, and energy dissipation in an AMP-activated protein kinase (AMPK)-dependent manner. Moreover, mice lacking PKD1 in adipocytes are resistant to diet-induced obesity due to elevated energy expenditure. Beiging of adipocytes promotes energy expenditure and counteracts obesity. Consistently, deletion of PKD1 promotes expression of the ß3-adrenergic receptor (ADRB3) in a CCAAT/enhancer binding protein (C/EBP)-α- and δ-dependent manner, which leads to the elevated expression of beige markers in adipocytes and subcutaneous adipose tissue. Finally, deletion of PKD1 in adipocytes improves insulin sensitivity and ameliorates liver steatosis. Thus, depletion of PKD1 in adipocytes increases energy dissipation by several complementary mechanisms and might represent an attractive strategy to treat obesity and its related complications.


Asunto(s)
Adipocitos/metabolismo , Adiposidad , Metabolismo Energético , Hígado Graso/metabolismo , Obesidad/metabolismo , Proteína Quinasa C/metabolismo , Grasa Subcutánea/metabolismo , Células 3T3-L1 , Adipocitos/patología , Animales , Proteína delta de Unión al Potenciador CCAAT/genética , Proteína delta de Unión al Potenciador CCAAT/metabolismo , Proteínas Potenciadoras de Unión a CCAAT/genética , Proteínas Potenciadoras de Unión a CCAAT/metabolismo , Hígado Graso/genética , Hígado Graso/patología , Femenino , Humanos , Masculino , Ratones , Ratones Mutantes , Obesidad/genética , Obesidad/patología , Proteína Quinasa C/genética , Receptores Adrenérgicos beta 3/genética , Receptores Adrenérgicos beta 3/metabolismo , Sistemas de Mensajero Secundario/genética , Grasa Subcutánea/fisiología
3.
Materials (Basel) ; 16(16)2023 Aug 12.
Artículo en Inglés | MEDLINE | ID: mdl-37629893

RESUMEN

Current progress in numerical simulations and machine learning allows one to apply complex loading conditions for the identification of parameters in plasticity models. This possibility expands the spectrum of examined deformed states and makes the identified model more consistent with engineering practice. A combined experimental-numerical approach to identify the model parameters and study the dynamic plasticity of metals is developed and applied to the case of cold-rolled OFHC copper. In the experimental part, profiled projectiles (reduced cylinders or cones in the head part) are proposed for the Taylor impact problem for the first time for material characterization. These projectiles allow us to reach large plastic deformations with true strains up to 1.3 at strain rates up to 105 s-1 at impact velocities below 130 m/s. The experimental results are used for the optimization of parameters of the dislocation plasticity model implemented in 3D with the numerical scheme of smoothed particle hydrodynamics (SPH). A Bayesian statistical method in combination with a trained artificial neural network as an SPH emulator is applied to optimize the parameters of the dislocation plasticity model. It is shown that classical Taylor cylinders are not enough for a univocal selection of the model parameters, while the profiled cylinders provide better optimization even if used separately. The combination of different shapes and an increase in the number of experiments increase the quality of optimization. The optimized numerical model is successfully validated by the experimental data about the shock wave profiles in flyer plate experiments from the literature. In total, a cheap, simple, but efficient route for optimizing a dynamic plasticity model is proposed. The dislocation plasticity model is extended to estimate grain refinement and volume fractions of weakened areas in comparison with experimental observations.

4.
Life Sci Alliance ; 4(8)2021 08.
Artículo en Inglés | MEDLINE | ID: mdl-34145024

RESUMEN

Members of the protein kinase D (PKD) family (PKD1, 2, and 3) integrate hormonal and nutritional inputs to regulate complex cellular metabolism. Despite the fact that a number of functions have been annotated to particular PKDs, their molecular targets are relatively poorly explored. PKD3 promotes insulin sensitivity and suppresses lipogenesis in the liver of animals fed a high-fat diet. However, its substrates are largely unknown. Here we applied proteomic approaches to determine PKD3 targets. We identified more than 300 putative targets of PKD3. Furthermore, biochemical analysis revealed that PKD3 regulates cAMP-dependent PKA activity, a master regulator of the hepatic response to glucagon and fasting. PKA regulates glucose, lipid, and amino acid metabolism in the liver, by targeting key enzymes in the respective processes. Among them the PKA targets phenylalanine hydroxylase (PAH) catalyzes the conversion of phenylalanine to tyrosine. Consistently, we showed that PKD3 is activated by glucagon and promotes glucose and tyrosine levels in hepatocytes. Therefore, our data indicate that PKD3 might play a role in the hepatic response to glucagon.


Asunto(s)
Proteínas Quinasas Dependientes de AMP Cíclico/metabolismo , Glucagón/farmacología , Hepatocitos/citología , Proteína Quinasa C/metabolismo , Proteómica/métodos , Animales , Células Cultivadas , Ayuno , Glucosa/metabolismo , Hepatocitos/efectos de los fármacos , Hepatocitos/metabolismo , Ratones , Fenilalanina Hidroxilasa/metabolismo , Fosforilación , Cultivo Primario de Células , Mapas de Interacción de Proteínas , Tirosina/metabolismo
5.
EMBO Mol Med ; 13(5): e13548, 2021 05 07.
Artículo en Inglés | MEDLINE | ID: mdl-33949105

RESUMEN

Lipids are the most energy-dense components of the diet, and their overconsumption promotes obesity and diabetes. Dietary fat content has been linked to the lipid processing activity by the intestine and its overall capacity to absorb triglycerides (TG). However, the signaling cascades driving intestinal lipid absorption in response to elevated dietary fat are largely unknown. Here, we describe an unexpected role of the protein kinase D2 (PKD2) in lipid homeostasis. We demonstrate that PKD2 activity promotes chylomicron-mediated TG transfer in enterocytes. PKD2 increases chylomicron size to enhance the TG secretion on the basolateral side of the mouse and human enterocytes, which is associated with decreased abundance of APOA4. PKD2 activation in intestine also correlates positively with circulating TG in obese human patients. Importantly, deletion, inactivation, or inhibition of PKD2 ameliorates high-fat diet-induced obesity and diabetes and improves gut microbiota profile in mice. Taken together, our findings suggest that PKD2 represents a key signaling node promoting dietary fat absorption and may serve as an attractive target for the treatment of obesity.


Asunto(s)
Quilomicrones , Metabolismo de los Lípidos , Animales , Quilomicrones/metabolismo , Humanos , Intestinos , Ratones , Obesidad , Proteína Quinasa D2 , Proteínas Quinasas , Triglicéridos
6.
Sci Signal ; 12(593)2019 08 06.
Artículo en Inglés | MEDLINE | ID: mdl-31387939

RESUMEN

Hepatic activation of protein kinase C (PKC) isoforms by diacylglycerol (DAG) promotes insulin resistance and contributes to the development of type 2 diabetes (T2D). The closely related protein kinase D (PKD) isoforms act as effectors for DAG and PKC. Here, we showed that PKD3 was the predominant PKD isoform expressed in hepatocytes and was activated by lipid overload. PKD3 suppressed the activity of downstream insulin effectors including the kinase AKT and mechanistic target of rapamycin complex 1 and 2 (mTORC1 and mTORC2). Hepatic deletion of PKD3 in mice improved insulin-induced glucose tolerance. However, increased insulin signaling in the absence of PKD3 promoted lipogenesis mediated by SREBP (sterol regulatory element-binding protein) and consequently increased triglyceride and cholesterol content in the livers of PKD3-deficient mice fed a high-fat diet. Conversely, hepatic-specific overexpression of a constitutively active PKD3 mutant suppressed insulin-induced signaling and caused insulin resistance. Our results indicate that PKD3 provides feedback on hepatic lipid production and suppresses insulin signaling. Therefore, manipulation of PKD3 activity could be used to decrease hepatic lipid content or improve hepatic insulin sensitivity.


Asunto(s)
Colesterol/biosíntesis , Hepatocitos/metabolismo , Insulina/metabolismo , Proteína Quinasa C/metabolismo , Transducción de Señal , Triglicéridos/biosíntesis , Animales , Colesterol/genética , Insulina/genética , Lipogénesis/genética , Ratones , Ratones Transgénicos , Proteína Quinasa C/genética , Triglicéridos/genética
7.
Sci Rep ; 7(1): 7191, 2017 08 03.
Artículo en Inglés | MEDLINE | ID: mdl-28775290

RESUMEN

Adipocytes play a central role in maintaining metabolic homeostasis in the body. Differentiation of adipocyte precursor cells requires the transcriptional activity of peroxisome proliferator-activated receptor-γ (Pparγ) and CCAAT/enhancer binding proteins (C/Ebps). Transcriptional activity is regulated by signaling modules activated by a plethora of hormones and nutrients. Mechanistic target of rapamacin complexes (mTORC) 1 and 2 are central for the coordination of hormonal and nutritional inputs in cells and are essential for adipogenesis. Serum glucocorticoid kinase 1 (Sgk1)-dependent phosphorylation of N-Myc downstream-regulated gene 1 (Ndrg1) is a hallmark of mTORC2 activation in cells. Moreover, Pparγ activation promotes Ndrg1 expression. However, the impact of Ndrg1 on adipocyte differentiation and function has not yet been defined. Here, we show that Ndrg1 expression and its Sgk1-dependent phosphorylation are induced during adipogenesis. Consistently, we demonstrate that Ndrg1 promotes adipocyte differentiation and function by inducing Pparγ expression. Additionally, our results indicate that Ndrg1 is required for C/Ebpα phosphorylation. Moreover, we found that Ndrg1 phosphorylation by Sgk1 promotes adipocyte formation. Taken together, we show that induction of Ndrg1 expression by Pparγ and its phosphorylation by Sgk1 kinase are required for the acquisition of adipocyte characteristics by precursor cells.


Asunto(s)
Adipocitos/citología , Adipocitos/metabolismo , Adipogénesis/genética , Proteínas de Ciclo Celular/genética , Diferenciación Celular/genética , Péptidos y Proteínas de Señalización Intracelular/genética , Células 3T3-L1 , Animales , Proteína alfa Potenciadora de Unión a CCAAT/metabolismo , Proteínas de Ciclo Celular/metabolismo , Expresión Génica , Técnicas de Silenciamiento del Gen , Proteínas Inmediatas-Precoces/metabolismo , Inmunohistoquímica , Péptidos y Proteínas de Señalización Intracelular/metabolismo , Metabolismo de los Lípidos , Ratones , Mutación , PPAR gamma/metabolismo , Fosforilación , Proteínas Serina-Treonina Quinasas/metabolismo , ARN Interferente Pequeño/genética
8.
Science ; 342(6162): 1069-73, 2013 Nov 29.
Artículo en Inglés | MEDLINE | ID: mdl-24200813

RESUMEN

The asteroid impact near the Russian city of Chelyabinsk on 15 February 2013 was the largest airburst on Earth since the 1908 Tunguska event, causing a natural disaster in an area with a population exceeding one million. Because it occurred in an era with modern consumer electronics, field sensors, and laboratory techniques, unprecedented measurements were made of the impact event and the meteoroid that caused it. Here, we document the account of what happened, as understood now, using comprehensive data obtained from astronomy, planetary science, geophysics, meteorology, meteoritics, and cosmochemistry and from social science surveys. A good understanding of the Chelyabinsk incident provides an opportunity to calibrate the event, with implications for the study of near-Earth objects and developing hazard mitigation strategies for planetary protection.


Asunto(s)
Accidentes , Aire , Explosiones , Meteoroides , Federación de Rusia
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