Editorial
Immunometabolism: Molecular Mechanisms, Diseases, and
Therapies 2016

Jose C. Rosa Neto,1 Fabio S. Lira,2 Soumen Roy,3 and William Festuccia4

1Immunometabolism Research Group, Institute of Biomedical Sciences, University of São Paulo (USP), 05508000 São Paulo, SP, Brazil
2Exercise and Immunometabolism Research Group, Department of Physical Education, São Paulo State University (UNESP),
Presidente Prudente, SP, Brazil
3Cancer and Inflammation Program, Center for Cancer Research, National Cancer Institute, National Institutes of Health, Bethesda,
MD 20892, USA
4Department of Physiology and Biophysics, Institute of Biomedical Sciences, University of São Paulo, 05508000 São Paulo, SP, Brazil

Correspondence should be addressed to Jose C. Rosa Neto; josecesar23@hotmail.com

Received 31 January 2017; Accepted 5 February 2017; Published 5 July 2017

Copyright © 2017 Jose C. Rosa Neto et al. This is an open access article distributed under the Creative Commons Attribution
License, which permits unrestricted use, distribution, and reproduction in anymedium, provided the original work is properly cited.

In the second edition of the special issue titled “Immunome-
tabolism: Molecular Mechanisms, Diseases, and Therapies,”
a total of 37 manuscripts were received, and 16 of these
were accepted. This issue demonstrated that nonresolving,
chronic low-intensity inflammation not only is involved in
the development and maintenance of several metabolic
diseases such as visceral obesity, type 2 diabetes, dyslipide-
mias, atherosclerosis, hypertension, and cancer but also
acts as an important linking factor between those condi-
tions. Metabolic disease-associated inflammation is charac-
terized by the recruitment of cells from both the innate and
adaptive immune system to metabolic tissues followed by
their polarization to a proinflammatory profile, resulting
in the exacerbated local production of inflammatory medi-
ators. These processes are mainly activated by the canonical
Toll-like receptor- (TLR-) NFκB signaling pathway, which
can be triggered by several molecules such as the lipopoly-
saccharide from gut microbiota and saturated fatty acids,
among others.

This special issue successfully attracted several interesting
original and review articles addressing different aspects of the
intricate relationships between metabolism and inflamma-
tion in health and disease. E. Nishida et al., for example,
exploring the association between cardiovascular diseases
and periodontitis, a chronic inflammatory disease that affects
the periodontium, demonstrated that the acute-phase protein

serum amyloid A, which is elevated in the liver and blood of
apolipoprotein E-deficient, atherosclerosis-prone mice, pro-
motes the expression of adhesion molecules in human aortic
endothelial cells via TLR2, being therefore a candidate link-
ing factor between periodontal disease and atherosclerosis.
Subsequently, in an interesting, mechanistic study, Z.-Z.
Guo et al. established a role for the c-Jun N-terminal kinase
(JNK), a member of the mitogen-activated protein kinase
(MAPK) family which is activated by inflammatory signals
and other stress stimuli, as an important mediator involved
in the formation of abdominal aortic aneurysm induced by
angiotensin II plus nicotine, a major chemical component
of cigarettes. These findings indicate that JNK inhibition
may hold promise as a pharmacological target to attenuate
smoking-induced abdominal aortic aneurysm formation. In
an elegant study exploring the mechanisms underlying the
immunomodulatory actions of bilirubin, K. F. Corral-Jara
et al. found strong evidence indicating that, during hepatitis
A virus infection, conjugated bilirubin differentially regulates
CD4+ T lymphocytes and Tregs function by modulating
intracellular pathways and by inducing changes in the pro-
portion of Tregs expressing hepatitis A virus cellular receptor
(HAVCR1/TIM-1). These findings may help in the elucida-
tion of the mechanisms involved in hepatitis virus infection.

This special issue also gathered several studies that inves-
tigated the underlying mechanisms by which some nutrients

Hindawi
Mediators of Inflammation
Volume 2017, Article ID 8230298, 2 pages
https://doi.org/10.1155/2017/8230298

https://doi.org/10.1155/2017/8230298


and modulation of tissue oxygen levels may attenuate the
chronic low-grade inflammation associated with metabolic
diseases. Indeed, S. I. Pærregaard et al. investigated the
involvement of membrane-free fatty acid receptor-4
(FFAR4), also known as GPR120, as mediator of the benefi-
cial actions of ω3 fatty acids on metabolic health. By feeding
Ffar4 knockouts and heterozygous mice with either a control
or an ω3-rich diet for 36 weeks, S. I. Pærregaard et al. show
that FFAR4 signaling is not required for the anti-
inflammatory and insulin-sensitizing effects mediated by
ω3 fatty acids. G. Guan et al., on the other hand, presented
interesting findings indicating that intake of a diet containing
chitosan, polysaccharides found in insects, fungi, squid, oys-
ters, krill, clams, and shellfish changes the composition of
mice intestinal microflora by suppressing NF-κB, TNF-α,
and IL-6 and inducing a better control of inflammation and
resolution of infection with C. rodentium. Moreover,
V. Oliveira et al. showed that oligofructose supplementation
in pregnancy and lactation induces the proinflammatory
markers in dams and 90-day-old offspring and reduction in
adiponectin pathway. In addition, F. Elbers et al. reported
an impairment in the immunomodulatory and antimicrobial
actions of the hepatic enzyme tryptophan 2,3-dioxygenase,
which converts tryptophan, the essential amino acid for hosts
and pathogens, to N-formylkynurenine, the precursor of the
immune-relevant kynurenines, upon hypoxic conditions
mimicking those occurring in vivo during infection and can-
cer, for example. These findings indicate that hypoxia might
be detrimental for the appropriate host immune response
towards relevant pathogens. In contrast to the deleterious
effects of hypoxia, in an interesting study, S. Novak et al.
reported that hyperbaric oxygenation treatment, which
increases tissue oxygen content, oxidative metabolism, and
production of reactive oxygen species (ROS), significantly
reduces the severity of dextran sodium sulphate-induced
colitis improving the inflammatory microenvironment in
the gut mucosa, such an effect that seems to be mediated in
part by the transcriptional factor hypoxic inducible factor 1
α (HIF-1α). Finally, regarding alternative treatments to
inflammatory disease, W. Ren et al. reported that supplemen-
tation of drinking water of rodents with interferon tau, a type
I interferon produced by trophectoderm cells of conceptuses
of ruminant species, increased microbial diversity in the jeju-
num and ileum and decreased the expression of IL-17 in the
intestines of normal and pathogen-infected mice, being
therefore a candidate therapy strategy to treat the inflamma-
tory intestinal diseases.

Two studies in this special issue were performed in
humans aiming to further characterize obesity-associated
inflammation. F.-I. Corona-Meraz et al., by evaluating the
inflammatory and metabolic phenotype of subjects with obe-
sity and insulin resistance, found that chemerin, an adipo-
kine related to adiposity levels and fat distribution, is
associated with obesity, dyslipidemia, and insulin resistance,
whereas its receptor chemerin chemokine-like receptor 1
(CMKLR1) is associated only with obesity. C. Wang et al.,
on the other hand, by evaluating the gene expression profile
of the visceral adipose tissue from lean and obese subjects
from the Uyghur population, found a correlation between

reduced expression of A2b adenosine receptor and the
transcriptional factors Kruppel-like factors 4 and 5 with
obesity-associated dyslipidemia and inflammation.

This special issue also brings some interesting review
articles addressing several aspects of metabolic disease-
associated inflammation. D. Ortuño-Sahagún et al., for
example, reviewed recent evidence supporting the link
between obesity and the pathogenesis of multiple sclerosis,
a chronic autoimmune and inflammatory disease. P.-F.
Bryan et al., on the other hand, reviewed the mechanisms
involved in the regulation of cytokine profile by sphingoli-
pids, the role of gut microbiota in providing signaling mole-
cules that favor the communication between resident
bacteria and intestinal cells, and the potential of sphingoli-
pids and gut microbiota as targets or therapeutic agents for
inflammatory bowel disease. H. J. Coelho Junior et al.
reviewed the possible molecular mechanisms associated with
muscle atrophy in stroke patients, as well as the modulatory
effect of inflammation in this condition. G. van Niekerk
et al. reviewed evidence suggesting that sickness-associated
anorexia may be a mechanism by which autophagic flux is
upregulated systemically and claim that some patients might
benefit from permissive underfeeding. Finally, U. Nydegger
et al. reviewed some approaches to sort out from big data
the relevant results for patient care in precision medicine.

Therefore, in our opinion, this special issue brings new
insights into the intricate mechanisms driving the inflam-
matory processes associated with metabolic diseases. We
hope that these information will help to pave the way
for the development of efficient strategies to prevent and
treat these diseases.

Jose C. Rosa Neto
Fabio S. Lira
Soumen Roy

William Festuccia

2 Mediators of Inflammation



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