Adipocyte PI3K Links Adipostasis with Basal Insulin Secretion Through an Adipoincretin Effect

Becattini, Barbara; Molinaro, Angela; Henricsson, Marcus; Borén, Jan; Solinas, Giovanni

doi:10.1101/2023.04.24.538076

Cited by 3 publications

(3 citation statements)

References 74 publications

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“…As described in Figure 2 , under normal physiological conditions, insulin binds to the insulin receptor located on the cellular membrane of insulin-sensitive tissues, primarily including muscle, AT, and the liver [ 16 , 79 ]. This interaction gives rise to a series of events that involve insulin receptor substrate signaling, ultimately leading to an increase in cellular glucose uptake and the activation of the phosphatidylinositol 3-kinase (PI3K)/protein kinase B (Akt) signaling pathway [ 80 ]. This process can increase the expression of the gene that is responsible for encoding the glucose transporter-4 (Glut4), promoting the translocation and integration of these components into the cell membrane, thereby facilitating the transportation of sugar into the cells ( Figure 2 ).…”

Section: The Mechanism Of Insulin Resistance In Peripartum Dairy Cowsmentioning

confidence: 99%

The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows

Qiao,

Jiang,

Contreras

et al. 2024

Animals

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During the transition period, dairy cows exhibit heightened energy requirements to sustain fetal growth and lactogenesis. The mammary gland and the growing fetus increase their demand for glucose, leading to the mobilization of lipids to support the function of tissues that can use fatty acids as energy substrates. These physiological adaptations lead to negative energy balance, metabolic inflammation, and transient insulin resistance (IR), processes that are part of the normal homeorhetic adaptations related to parturition and subsequent lactation. Insulin resistance is characterized by a reduced biological response of insulin-sensitive tissues to normal physiological concentrations of insulin. Metabolic inflammation is characterized by a chronic, low-level inflammatory state that is strongly associated with metabolic disorders. The relationship between IR and metabolic inflammation in transitioning cows is intricate and mutually influential. On one hand, IR may play a role in the initiation of metabolic inflammation by promoting lipolysis in adipose tissue and increasing the release of free fatty acids. Metabolic inflammation, conversely, triggers inflammatory signaling pathways by pro-inflammatory cytokines, thereby leading to impaired insulin signaling. The interaction of these factors results in a harmful cycle in which IR and metabolic inflammation mutually reinforce each other. This article offers a comprehensive review of recent advancements in the research on IR, metabolic inflammation, and their intricate interrelationship. The text delves into multiple facets of physiological regulation, pathogenesis, and their consequent impacts.

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Section: The Mechanism Of Insulin Resistance In Peripartum Dairy Cowsmentioning

confidence: 99%

The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows

Qiao,

Jiang,

Contreras

et al. 2024

Animals

View full text Add to dashboard Cite

show abstract

“…Insulin also functions as an adipostatic signal in the brain and reaches the brain via saturable transport. Glucose stimulates insulin production in the pancreas through body fat levels [ 110 ]. Thus, when obesity is present and insulin resistance is established, the pancreas secretes more insulin and excess insulin results in increased fat storage in the adipocytes [ 111 ].…”

Section: Neuroendocrine Interactions In Energy Metabolismmentioning

confidence: 99%

Neuro-Vulnerability in Energy Metabolism Regulation: A Comprehensive Narrative Review

et al. 2023

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This comprehensive narrative review explores the concept of neuro-vulnerability in energy metabolism regulation and its implications for metabolic disorders. The review highlights the complex interactions among the neural, hormonal, and metabolic pathways involved in the regulation of energy metabolism. The key topics discussed include the role of organs, hormones, and neural circuits in maintaining metabolic balance. The review investigates the association between neuro-vulnerability and metabolic disorders, such as obesity, insulin resistance, and eating disorders, considering genetic, epigenetic, and environmental factors that influence neuro-vulnerability and subsequent metabolic dysregulation. Neuroendocrine interactions and the neural regulation of food intake and energy expenditure are examined, with a focus on the impact of neuro-vulnerability on appetite dysregulation and altered energy expenditure. The role of neuroinflammation in metabolic health and neuro-vulnerability is discussed, emphasizing the bidirectional relationship between metabolic dysregulation and neuroinflammatory processes. This review also evaluates the use of neuroimaging techniques in studying neuro-vulnerability and their potential applications in clinical settings. Furthermore, the association between neuro-vulnerability and eating disorders, as well as its contribution to obesity, is examined. Potential therapeutic interventions targeting neuro-vulnerability, including pharmacological treatments and lifestyle modifications, are reviewed. In conclusion, understanding the concept of neuro-vulnerability in energy metabolism regulation is crucial for addressing metabolic disorders. This review provides valuable insights into the underlying neurobiological mechanisms and their implications for metabolic health. Targeting neuro-vulnerability holds promise for developing innovative strategies in the prevention and treatment of metabolic disorders, ultimately improving metabolic health outcomes.

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“…In fact, stimulation of β3-adrenergic receptor in the AT induces insulin secretion while reducing blood glucose levels ( Grujic et al 1997 ). Similarly, a preprint recently demonstrated that acute AT-specific inhibition of PI3K activity leads to an increased insulin secretion without increasing glycaemia ( Becattini et al 2023 ). Both models are associated with increased FFA levels.…”

Section: Introductionmentioning

confidence: 99%

An adipocentric perspective of pancreatic lipotoxicity in diabetes pathogenesis

Risi,

Vidal-Puig,

Bidault

2024

Journal of Endocrinology

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Obesity and diabetes represent two increasing and invalidating public health issues that often coexist. It is acknowledged that fat mass excess predisposes to insulin resistance and type 2 diabetes mellitus (T2D), with the increasing incidence of the two diseases significantly associated. Moreover, emerging evidence suggests that obesity might also accelerate the appearance of type 1 diabetes (T1D), which is now a relatively frequent comorbidity in patients with obesity. It is a common clinical finding that not all patients with obesity will develop diabetes at the same level of adiposity, with gender, genetic, and ethnic factors playing an important role in defining the timing of diabetes appearance. The adipose tissue (AT) expandability hypothesis explains this paradigm, indicating that the individual capacity to appropriately store energy surplus in the form of fat within the AT determines and prevents the toxic deposition of lipids in other organs, such as the pancreas. Thus, we posit that when the maximal storing capacity of AT is exceeded, individuals will develop T2D. In this review, we provide an insight into mechanisms by which the AT controls pancreas lipid content and homeostasis in case of obesity to offer an adipocentric perspective of pancreatic lipotoxicity in the pathogenesis of diabetes. Moreover, we suggest that improving AT function is a valid therapeutic approach to fighting obesity-associated complications including diabetes.

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Adipocyte PI3K Links Adipostasis with Basal Insulin Secretion Through an Adipoincretin Effect

Cited by 3 publications

References 74 publications

The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows

The Complex Interplay of Insulin Resistance and Metabolic Inflammation in Transition Dairy Cows

Neuro-Vulnerability in Energy Metabolism Regulation: A Comprehensive Narrative Review

An adipocentric perspective of pancreatic lipotoxicity in diabetes pathogenesis

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