Oxidative stress and inflammation interactions in human obesity
Abstract
Obesity is often characterized by increased
oxidative stress and exacerbated inflammatory outcomes accompanying infiltration of immune cells in
adipocytes. The oxidative stress machinery and inflammatory signaling are not only interrelated, but
their impairment can lead to an inhibition of insulin
responses as well as a higher risk of cardiovascular
diseases and associated features. Mitochondria, in addition to energy transformation, play a role in apoptosis, cellular proliferation, as well as in the cellular
redox state control. Under certain circumstances, protons are able to re-enter the mitochondrial matrix via
different uncoupling proteins, disturbing free radical
production by mitochondria. Disorders of the mitochondrial electron transport chain, over-generation of
reactive oxygen species, and lipoperoxides or alterations in antioxidant defenses have been reported in
situations of obesity and type-2 diabetes. On the other
hand, obesity has been linked to a low grade proinflammatory state, in which impairments in the
oxidative stress and antioxidant mechanism could be
involved. The current scientific evidence highlights
the need of investigating the interplay between oxidative stress and inflammation with obesity/diabetes onset as well as the interactions of such factors either as a
cause or consequence of obesity. The signaling mediated by the activation of inflammatory markers or
nuclear factor kappa β and other transcription factors
as central regulators of inflammation are key issues to
understanding oxidative stress responses in obesity.
This review aims at summarizing the main mechanisms and interplay factors between oxidative stress
and inflammation in human obesity according to the
last 10 years of research in the field.
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