[PDF][PDF] Calcium homeostasis and organelle function in the pathogenesis of obesity and diabetes
AP Arruda, GS Hotamisligil - Cell metabolism, 2015 - cell.com
Cell metabolism, 2015•cell.com
A number of chronic metabolic pathologies, including obesity, diabetes, cardiovascular
disease, asthma, and cancer, cluster together to present the greatest threat to human health.
As research in this field has advanced, it has become clear that unresolved metabolic
inflammation, organelle dysfunction, and other cellular and metabolic stresses underlie the
development of these chronic metabolic diseases. However, the relationship between these
systems and pathological mechanisms is poorly understood. Here we discuss the role of …
disease, asthma, and cancer, cluster together to present the greatest threat to human health.
As research in this field has advanced, it has become clear that unresolved metabolic
inflammation, organelle dysfunction, and other cellular and metabolic stresses underlie the
development of these chronic metabolic diseases. However, the relationship between these
systems and pathological mechanisms is poorly understood. Here we discuss the role of …
A number of chronic metabolic pathologies, including obesity, diabetes, cardiovascular disease, asthma, and cancer, cluster together to present the greatest threat to human health. As research in this field has advanced, it has become clear that unresolved metabolic inflammation, organelle dysfunction, and other cellular and metabolic stresses underlie the development of these chronic metabolic diseases. However, the relationship between these systems and pathological mechanisms is poorly understood. Here we discuss the role of cellular Ca2+ homeostasis as a critical mechanism integrating the myriad of cellular and subcellular dysfunctional networks found in metabolic tissues such as liver and adipose tissue in the context of metabolic disease, particularly in obesity and diabetes.
cell.com