Your search keyword '"Rui Curi"' showing total 900 results

1. Intestinal Motility Dysfunction in Goto-Kakizaki Rats: Role of the Myenteric Plexus

Author

Gabriela Mandú Gimenes, Joice Naiara Bertaglia Pereira, Eliane Borges da Silva, Alef Aragão Carneiro dos Santos, Thais Martins Rodrigues, Giovanna de Oliveira Santana, Maria Vitoria Martins Scervino, Tania Cristina Pithon-Curi, Sandro Massao Hirabara, Renata Gorjão, and Rui Curi

Subjects

constipation, cholinergic neuron, enteric nervous system, Goto-Kakizaki rats, type 2 diabetes mellitus, Cytology, QH573-671

Abstract

Diabetes mellitus is associated with changes in intestinal morphology and the enteric nervous system. We previously reported constipation in Goto-Kakizaki (GK) rats, a non-obese model for type 2 diabetes mellitus. Aim: The morpho-quantitative analysis of myenteric plexus neurons in the small and large intestines of 120-day-old male GK rats was investigated. Methods: The diabetes was confirmed by high fasting blood glucose levels. The myenteric plexus was evaluated through wholemount immunofluorescence. The morpho-quantitative analyses included evaluating neuronal density (neurons per ganglion) of the total neuronal population, the cholinergic and nitrergic subpopulations, and enteric glial cells per ganglion. The cell body area of 100 neurons per segment per animal was measured. Results: The total neurons and nitrergic subpopulation were unaltered in the GK rats’ small and large intestines. The cholinergic subpopulation exhibited decreased density in the three segments of the small intestine and an increased number in the proximal colon of the GK rats. The number of enteric glial cells increased in the ileum of the GK rats, which could indicate enteric gliosis caused by the intestinal inflammatory state. The area of the cell body was increased in the total neuronal population of the jejunum and ileum of the GK rats. Frequency histograms of the cell body area distribution revealed the contribution of cholinergic neurons to larger areas in the jejunum and nitrergic neurons in the ileum. Conclusion: The constipation previously reported in GK rats might be explained by the decrease in the density of cholinergic neurons in the small intestine of this animal model.

Published

2024

2. Autophagy signaling in hypertrophied muscles of diabetic and control rats

Author

Maria V. M. Scervino, Marco A. S. Fortes, Kaio F. Vitzel, Diego R. deSouza, Gilson M. Murata, Giovanna O. Santana, Eliane B. daSilva, Adriana C. Levada‐Pires, Wilson M. T. Kuwabara, Tatiana C. A. Loureiro, and Rui Curi

Subjects

autolysosome, autophagosome, autophagy‐related genes, hyperglycemia, protein degradation, Biology (General), QH301-705.5

Abstract

Autophagy plays a vital role in cell homeostasis by eliminating nonfunctional components and promoting cell survival. Here, we examined the levels of autophagy signaling proteins after 7 days of overload hypertrophy in the extensor digitorum longus (EDL) and soleus muscles of control and diabetic rats. We compared control and 3‐day streptozotocin‐induced diabetic rats, an experimental model for type 1 diabetes mellitus (T1DM). EDL muscles showed increased levels of basal autophagy signaling proteins. The diabetic state did not affect the extent of overload‐induced hypertrophy or the levels of autophagy signaling proteins (p‐ULK1, Beclin‐1, Atg5, Atg12‐5, Atg7, Atg3, LC3‐I and II, and p62) in either muscle. The p‐ULK‐1, Beclin‐1, and p62 protein expression levels were higher in the EDL muscle than in the soleus before the hypertrophic stimulus. On the contrary, the soleus muscle exhibited increased autophagic signaling after overload‐induced hypertrophy, with increases in Beclin‐1, Atg5, Atg12‐5, Atg7, Atg3, and LC3‐I expression in the control and diabetic groups, in addition to p‐ULK‐1 in the control groups. After hypertrophy, Beclin‐1 and Atg5 levels increased in the EDL muscle of both groups, while p‐ULK1 and LC3‐I increased in the control group. In conclusion, the baseline EDL muscle exhibited higher autophagy than the soleus muscle. Although TDM1 promotes skeletal muscle mass loss and strength reduction, it did not significantly alter the extent of overload‐induced hypertrophy and autophagy signaling proteins in EDL and soleus muscles, with the two groups exhibiting different patterns of autophagy activation.

Published

2023

3. Editorial: Spotlight on aging: physiology, prevention, and management of skeletal muscle atrophy

Author

Gabriel Nasri Marzuca-Nassr, Luis Peñailillo, Denisse Valladares-Ide, Sergio Martinez-Huenchullan, Rui Curi, Sandro Massao Hirabara, and Kaio Fernando Vitzel

Subjects

skeletal muscle atrophy, aging, ageing, muscle architecture, sarcopenia, Physiology, QP1-981

Published

2023

4. Editorial: Nutritional modulation of inflammation and insulin resistance

Author

Sandro Massao Hirabara, Renata Gorjao, Rui Curi, Carol Gois Leandro, and Gabriel Nasri Marzuca-Nassr

Subjects

nutrients, immunometabolism, insulin signaling, oxidative stress, inflammatory and metabolic diseases, potential biomarker candidates, Nutrition. Foods and food supply, TX341-641

Published

2023

5. Hydrolyzed whey protein enriched with glutamine dipeptide attenuates skeletal muscle damage and improves physical exhaustion test performance in triathletes

Author

Fabiano Pinheiro Peres, Adriana Cristina Levada-Pires, Marcelo Vieira, Elaine Hatanaka, Maria Fernanda Cury-Boaventura, Alessandra Folador, Renata Gorjão, Sandro Massao Hirabara, Paulo Roberto Santos-Silva, Patricia A. Deuster, Rui Curi, and Tania Cristina Pithon-Curi

Subjects

skeletal muscle damage, physical exercise performance, second ventilatory threshold, maximal oxygen consumption, creatine kinase, Sports, GV557-1198.995

Abstract

PurposeTo investigate the effects of hydrolyzed whey protein enriched with glutamine dipeptide on the percentage of oxygen consumption, second ventilatory threshold, duration and total distance covered, and skeletal muscle damage during an exhaustion test in elite triathletes.MethodsThe study was a randomized, double-blinded, placebo-controlled, crossover trial. Nine male triathletes performed a progressive incremental test on a treadmill ergometer (1.4 km h−1·3 min−1) 30 min after ingesting either 50 g of maltodextrin plus four tablets of 700 mg hydrolyzed whey protein enriched with 175 mg of glutamine dipeptide diluted in 250 ml of water (MGln) or four tablets of 700 mg maltodextrin plus 50 g maltodextrin diluted in 250 ml of water (M). Each athlete was submitted to the two dietary treatments and two corresponding exhaustive physical tests with an interval of one week between the interventions. The effects of the two treatments were then compared within the same athlete. Maximal oxygen consumption, percentage of maximal oxygen consumption, second ventilatory threshold, and duration and total distance covered were measured during the exhaustion test. Blood was collected before and immediately after the test for the determination of plasma lactate dehydrogenase (LDH) and creatine kinase (CK) activities and lactate concentration (also measured 6, 10, and 15 min after the test). Plasma cytokines (IL-6, IL-1β, TNF-α, IL-8, IL-10, and IL-1ra) and C-reactive protein levels were also measured.ResultsA single dose of MGln increased the percentage of maximal oxygen consumption, second ventilatory threshold duration, and total distance covered during the exhaustion test and augmented plasma lactate levels 6 and 15 min after the test. MGln also decreased plasma LDH and CK activities indicating muscle damage protection. Plasma cytokine and C-reactive protein levels did not change across the study periods.ConclusionConditions including overnight fasting and a single dose of MGln supplementation resulted in exercising at a higher percentage of maximal oxygen consumption, a higher second ventilatory threshold, blood lactate levels, and reductions in plasma markers of muscle damage during an exhaustion test in elite triathletes. These findings support oral glutamine supplementation's efficacy in triathletes, but further studies require.

Published

2023

6. Perfil de aptidão física em formandos do curso de sargentos da Polícia Militar do Estado de São Paulo: um estudo transversal

Author

Diego Ribeiro Souza, Júlio Cesar Martins, Júlio Cesar Tinti, Philipe Barreto Regonato, Rui Curi, Tania Cristina Pithon-Curi, and Sandro Massao Hirabara

Subjects

volume de oxigênio máximo, força de resistência abdominal, aptidão física, aptidão cardiorrespiratória, militares, Sports, GV557-1198.995

Abstract

Introdução: A elevada aptidão física é fundamental para o melhor desempenho dos policiais nas atividades laborais e na qualidade do serviço prestado à segurança pública e à sociedade. Objetivo: Analisar o perfil de aptidão física dos policiais militares de ambos os sexos, formandos da Escola Superior de Sargentos da Polícia Militar do Estado de São Paulo (PMESP). Métodos: Estudo observacional, transversal e descritivo, com dados retrospectivos obtidos do Teste de Aptidão Física (TAF) de 1.634 formandos (93,45% homens). Os dados foram classificados segundo sexo e idade. Foram apresentadas estatísticas descritivas. Resultados: As médias apresentadas pelos formandos foram: 42±4,61 repetições abdominais estilo remador; 7,37±0,54 segundos no teste de velocidade em deslocamento; e 2.502±255 metros no teste de Cooper. A média do VO2max entre os formandos foi de 44,4±5,66 ml/kg/min e nas formandas 35,1±4,66 ml/kg/min. A aptidão cardiorrespiratória foi classificada entre boa a excelente para 97,7% dos formandos e 71% das formandas. A força de resistência abdominal localizada mostrou-se entre boa e excelente para 91,6% dos formandos e 51,4% das formandas. Conclusão: Os formandos do Curso de Formação de Sargentos da PMESP apresentaram aptidão física classificada entre boa e excelente. Este resultado indica que o programa de treinamento físico aplicado nas aulas é adequado para manter a condição física esperada.

Published

2022

7. Molecular and cellular mechanisms involved in tissue-specific metabolic modulation by SARS-CoV-2

Author

Alef Aragão Carneiro dos Santos, Luiz Eduardo Rodrigues, Amanda Lins Alecrim-Zeza, Liliane de Araújo Ferreira, Caio dos Santos Trettel, Gabriela Mandú Gimenes, Adelson Fernandes da Silva, Celso Pereira Batista Sousa-Filho, Tamires Duarte Afonso Serdan, Adriana Cristina Levada-Pires, Elaine Hatanaka, Fernanda Teixeira Borges, Marcelo Paes de Barros, Maria Fernanda Cury-Boaventura, Gisele Lopes Bertolini, Priscila Cassolla, Gabriel Nasri Marzuca-Nassr, Kaio Fernando Vitzel, Tania Cristina Pithon-Curi, Laureane Nunes Masi, Rui Curi, Renata Gorjao, and Sandro Massao Hirabara

Subjects

metabolism, inflammation, oxidative stress, renin-angiotensin-aldosterone system, SARS-CoV-2, Microbiology, QR1-502

Abstract

Coronavirus disease 2019 (COVID-19) is triggered by the SARS-CoV-2, which is able to infect and cause dysfunction not only in lungs, but also in multiple organs, including central nervous system, skeletal muscle, kidneys, heart, liver, and intestine. Several metabolic disturbances are associated with cell damage or tissue injury, but the mechanisms involved are not yet fully elucidated. Some potential mechanisms involved in the COVID-19-induced tissue dysfunction are proposed, such as: (a) High expression and levels of proinflammatory cytokines, including TNF-α IL-6, IL-1β, INF-α and INF-β, increasing the systemic and tissue inflammatory state; (b) Induction of oxidative stress due to redox imbalance, resulting in cell injury or death induced by elevated production of reactive oxygen species; and (c) Deregulation of the renin-angiotensin-aldosterone system, exacerbating the inflammatory and oxidative stress responses. In this review, we discuss the main metabolic disturbances observed in different target tissues of SARS-CoV-2 and the potential mechanisms involved in these changes associated with the tissue dysfunction.

Published

2022

8. Leukocyte metabolism in obese type 2 diabetic individuals associated with COVID-19 severity

Author

Tiago Bertola Lobato, Matheus Gennari-Felipe, Janaína Ribeiro Barbosa Pauferro, Ilana Souza Correa, Beatriz Ferreira Santos, Beatriz Belmiro Dias, João Carlos de Oliveira Borges, Camila Soares dos Santos, Elvirah Samantha de Sousa Santos, Maria Janaína Leite de Araújo, Liliane Araújo Ferreira, Sara Araujo Pereira, Tamires Duarte Afonso Serdan, Adriana Cristina Levada-Pires, Elaine Hatanaka, Leandro Borges, Maria Fernanda Cury-Boaventura, Marco Aurélio Ramirez Vinolo, Tania Cristina Pithon-Curi, Laureane Nunes Masi, Rui Curi, Sandro Massao Hirabara, and Renata Gorjão

Subjects

SARS-COV-2, lymphocyte, macrophage, neutrophil, insulin resistance, Microbiology, QR1-502

Abstract

Recent studies show that the metabolic characteristics of different leukocytes, such as, lymphocytes, neutrophils, and macrophages, undergo changes both in the face of infection with SARS-CoV-2 and in obesity and type 2 diabetes mellitus (DM2) condition. Thus, the objective of this review is to establish a correlation between the metabolic changes caused in leukocytes in DM2 and obesity that may favor a worse prognosis during SARS-Cov-2 infection. Chronic inflammation and hyperglycemia, specific and usual characteristics of obesity and DM2, contributes for the SARS-CoV-2 replication and metabolic disturbances in different leukocytes, favoring the proinflammatory response of these cells. Thus, obesity and DM2 are important risk factors for pro-inflammatory response and metabolic dysregulation that can favor the occurrence of the cytokine storm, implicated in the severity and high mortality risk of the COVID-19 in these patients.

Published

2022

9. A simple mathematical model for the evaluation of the long first wave of the COVID-19 pandemic in Brazil

Author

Yuanji Tang, Tamires D. A. Serdan, Amanda L. Alecrim, Diego R. Souza, Bruno R. M. Nacano, Flaviano L. R. Silva, Eliane B. Silva, Sarah O. Poma, Matheus Gennari-Felipe, Patrícia N. Iser-Bem, Laureane N. Masi, Sherry Tang, Adriana C. Levada-Pires, Elaine Hatanaka, Maria F. Cury-Boaventura, Fernanda T. Borges, Tania C. Pithon-Curi, Marli C. Curpertino, Jarlei Fiamoncini, Carol Gois Leandro, Renata Gorjao, Rui Curi, and Sandro Massao Hirabara

Subjects

Medicine, Science

Abstract

Abstract We propose herein a mathematical model to predict the COVID-19 evolution and evaluate the impact of governmental decisions on this evolution, attempting to explain the long duration of the pandemic in the 26 Brazilian states and their capitals well as in the Federative Unit. The prediction was performed based on the growth rate of new cases in a stable period, and the graphics plotted with the significant governmental decisions to evaluate the impact on the epidemic curve in each Brazilian state and city. Analysis of the predicted new cases was correlated with the total number of hospitalizations and deaths related to COVID-19. Because Brazil is a vast country, with high heterogeneity and complexity of the regional/local characteristics and governmental authorities among Brazilian states and cities, we individually predicted the epidemic curve based on a specific stable period with reduced or minimal interference on the growth rate of new cases. We found good accuracy, mainly in a short period (weeks). The most critical governmental decisions had a significant temporal impact on pandemic curve growth. A good relationship was found between the predicted number of new cases and the total number of inpatients and deaths related to COVID-19. In summary, we demonstrated that interventional and preventive measures directly and significantly impact the COVID-19 pandemic using a simple mathematical model. This model can easily be applied, helping, and directing health and governmental authorities to make further decisions to combat the pandemic.

Published

2021

10. A probiotic has differential effects on allergic airway inflammation in A/J and C57BL/6 mice and is correlated with the gut microbiome

Author

Mateus B. Casaro, Andrew M. Thomas, Eduardo Mendes, Claudio Fukumori, Willian R. Ribeiro, Fernando A. Oliveira, Amanda R. Crisma, Gilson M. Murata, Bruna Bizzarro, Anderson Sá-Nunes, Joao C. Setubal, Marcia P. A. Mayer, Flaviano S. Martins, Angélica T. Vieira, Ana T. F. B. Antiorio, Wothan Tavares-de-Lima, Niels O. S. Camara, Rui Curi, Emmanuel Dias-Neto, and Caroline M. Ferreira

Subjects

Gut microbiota, Probiotic, Experimental allergic disease, Airway, Microbial ecology, QR100-130

Abstract

Abstract The phenotypes of allergic airway diseases are influenced by the interplay between host genetics and the gut microbiota, which may be modulated by probiotics. We investigated the probiotic effects on allergic inflammation in A/J and C57BL/6 mice. C57BL/6 mice had increased gut microbiota diversity compared to A/J mice at baseline. Acetate producer probiotics differentially modulated and altered the genus abundance of specific bacteria, such as Akkermansia and Allistipes, in mouse strains. We induced airway inflammation followed by probiotic treatment and found that only A/J mice exhibited decreased inflammation, and the beneficial effects of probiotics in A/J mice were partially due to acetate production. To understand the relevance of microbial composition colonization in the development of allergic diseases, we implanted female C57BL/6 mice with A/J embryos to naturally modulate the microbial composition of A/J mice, which increased gut microbiota diversity and reduced eosinophilic inflammation in A/J. These data demonstrate the central importance of microbiota to allergic phenotype severity. Video Abstract

Published

2021

11. Evidence for Monocyte Reprogramming in a Long-Term Postsepsis Study

Author

Raquel Bragante Gritte, PhD, Talita Souza-Siqueira, PhD, Eliane Borges da Silva, PhD, Laiane Cristina dos Santos de Oliveira, PhD, Rodrigo Cerqueira Borges, PhD, Heloísa H de Oliveira Alves, PhD, Laureane Nunes Masi, PhD, Gilson Masahiro Murata, PhD, Renata Gorjão, PhD, Adriana Cristina Levada-Pires, PhD, Antônio Carlos Nogueira, PhD, Tânia Cristina Pithon-Curi, PhD, Ricardo Bentes de Azevedo, PhD, Francisco Garcia Soriano, MD, PhD, Rui Curi, PhD, and Marcel Cerqueira Cesar Machado, MD, PhD

Subjects

Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

OBJECTIVES:. This study sought to identify monocyte alterations from septic patients after hospital discharge by evaluating gene expression of inflammatory mediators and monocyte polarization markers. It was hypothesized that sepsis reprograms the inflammatory state of monocytes, causing effects that persist after hospital discharge and influencing patient outcomes. DESIGN:. The gene expression patterns of inflammatory receptors, M1 and M2 macrophage polarization markers, NLRP3 inflammasome components, and pro- and anti-inflammatory cytokines in monocytes were assessed. PATIENTS:. Thirty-four patients from the University of São Paulo Hospital, during the acute sepsis phase (phase A), immediately after ICU discharge (phase B), and 3 months (phase C), 6 months (phase D), 1 year (phase E), and 3 years (phase F) after discharge, were included. Patients that died during phases A and B were grouped separately, and the remaining patients were collectively termed the survivor group. MEASUREMENTS AND MAIN RESULTS:. The gene expression of toll-like receptor (TLR)2 and TLR4 (inflammatory receptors), NLRP3, NFκB1, adaptor molecule apoptosis-associated speck-like protein containing a CARD, caspase 1, caspase 11, and caspase 12 (NLRP3 inflammasome components), interleukin-1α, interleukin-1β, interleukin-18, and high-mobility group box 1 protein (proinflammatory cytokines), interleukin-10 (anti-inflammatory cytokine), C-X-C motif chemokine ligand 10, C-X-C motif chemokine ligand 11, and interleukin-12p35 (M1 inflammatory polarization markers), and C-C motif chemokine ligand 14, C-C motif chemokine ligand 22, transforming growth factor-beta (TGF-β), SR-B1, and peroxisome proliferator-activated receptor γ (M2 anti-inflammatory polarization and tissue repair markers) was upregulated in monocytes from phase A until phase E compared with the control group. CONCLUSIONS:. Sepsis reprograms the inflammatory state of monocytes, probably contributing to postsepsis syndrome development and mortality.

Published

2022

12. Maternal low-protein diet reduces skeletal muscle protein synthesis and mass via Akt-mTOR pathway in adult rats

Author

Diogo Antonio Alves de Vasconcelos, Renato Tadeu Nachbar, Carlos Hermano Pinheiro, Cátia Lira do Amaral, Amanda Rabello Crisma, Kaio Fernando Vitzel, Phablo Abreu, Maria Isabel Alonso-Vale, Andressa Bolsoni Lopes, Adriano Bento-Santos, Filippe Falcão-Tebas, David Filipe de Santana, Elizabeth do Nascimento, Rui Curi, Tania Cristina Pithon-Curi, Sandro Massao Hirabara, and Carol Góis Leandro

Subjects

low-protein diet, insulin resistance, protein metabolism, developmental plasticity, Akt expression, Nutrition. Foods and food supply, TX341-641

Abstract

Several studies have demonstrated that a maternal low-protein diet induces long-term metabolic disorders, but the involved mechanisms are unclear. This study investigated the molecular effects of a low-protein diet during pregnancy and lactation on glucose and protein metabolism in soleus muscle isolated from adult male rats. Female rats were fed either a normal protein diet or low-protein diet during gestation and lactation. After weaning, all pups were fed a normal protein diet until the 210th day postpartum. In the 7th month of life, mass, contractile function, protein and glucose metabolism, and the Akt-mTOR pathway were measured in the soleus muscles of male pups. Dry weight and contractile function of soleus muscle in the low-protein diet group rats were found to be lower compared to the control group. Lipid synthesis was evaluated by measuring palmitate incorporation in white adipose tissue. Palmitate incorporation was higher in the white adipose tissue of the low-protein diet group. When incubated soleus muscles were stimulated with insulin, protein synthesis, total amino acid incorporation and free amino acid content, glucose incorporation and uptake, and glycogen synthesis were found to be reduced in low-protein diet group rats. Fasting glycemia was higher in the low-protein diet group. These metabolic changes were associated with a decrease in Akt and GSK-3β signaling responses to insulin and a reduction in RPS6 in the absence of the hormone. There was also notably lower expression of Akt in the isolated soleus muscle of low-protein diet group rats. This study is the first to demonstrate how maternal diet restriction can reduce skeletal muscle protein and mass by downregulating the Akt-mTOR pathway in adulthood.

Published

2022

13. Equine Anti-SARS-CoV-2 Serum (ECIG) Binds to Mutated RBDs and N Proteins of Variants of Concern and Inhibits the Binding of RBDs to ACE-2 Receptor

Author

Sonia Aparecida Andrade, João Victor Batalha-Carvalho, Rui Curi, Fan Hui Wen, Dimas Tadeu Covas, Ana Marisa Chudzinski-Tavassi, and Ana Maria Moro

Subjects

COVID-19, equine serum, neutralizing antibodies, nucleocapsid, RBD, VOCs, Immunologic diseases. Allergy, RC581-607

Abstract

The COVID-19 pandemic caused by the severe acute syndrome virus 2 (SARS-CoV-2) has been around since November 2019. As of early June 2022, more than 527 million cases were diagnosed, with more than 6.0 million deaths due to this disease. Coronaviruses accumulate mutations and generate greater diversity through recombination when variants with different mutations infect the same host. Consequently, this virus is predisposed to constant and diverse mutations. The SARS-CoV-2 variants of concern/interest (VOCs/VOIs) such as Alpha (B.1.1.7), Beta (B.1.351), Gamma (B.1.1.28/P.1), Delta (B.1.617.2), and Omicron (B.1.1.529) have quickly spread across the world. These VOCs and VOIs have accumulated mutations within the spike protein receptor-binding domain (RBD) which interacts with the angiotensin-2 converting enzyme (ACE-2) receptor, increasing cell entry and infection. The RBD region is the main target for neutralizing antibodies; however, other notable mutations have been reported to enhance COVID-19 infectivity and lethality. Considering the urgent need for alternative therapies against this virus, an anti-SARS-CoV-2 equine immunoglobulin F(ab’)2, called ECIG, was developed by the Butantan Institute using the whole gamma-irradiated SARS-CoV-2 virus. Surface plasmon resonance experiments revealed that ECIG binds to wild-type and mutated RBD, S1+S2 domains, and nucleocapsid proteins of known VOCs, including Alpha, Gamma, Beta, Delta, Delta Plus, and Omicron. Additionally, it was observed that ECIG attenuates the binding of RBD (wild-type, Beta, and Omicron) to human ACE-2, suggesting that it could prevent viral entry into the host cell. Furthermore, the ability to concomitantly bind to the wild-type and mutated nucleocapsid protein likely enhances its neutralizing activity of SARS-CoV-2. We postulate that ECIG benefits COVID-19 patients by reducing the infectivity of the original virus and existing variants and may be effective against future ones. Impacting the course of the disease, mainly in the more vulnerable, reduces infection time and limits the appearance of new variants by new recombination.

Published

2022

14. Hypertonic Solution in Severe COVID-19 Patient: A Potential Adjuvant Therapy

Author

Matheus Gennari-Felipe, Leandro Borges, Alexandre Dermargos, Eleine Weimann, Rui Curi, Tania Cristina Pithon-Curi, and Elaine Hatanaka

Subjects

coronavirus, leukocytes, neutrophils, immune system, NETs, NETosis, Medicine (General), R5-920

Abstract

Coronavirus disease 2019 (COVID-19) features hyper-inflammation, cytokine storm, neutrophil function changes, and sodium chloride (NaCl) homeostasis disruption, while the treatment with NaCl hypertonic solutions (HS) controls electrolytic body homeostasis and cell functions. HS treatment is a simple, popular, economic, and feasible therapy to regulate leukocyte function with a robust anti-inflammatory effect in many inflammatory diseases. The purpose of this narrative review is to highlight the knowledge on the use of HS approaches against viral infection over the past years and to describe the mechanisms involved in the release of neutrophil extracellular traps (NETs) and production of cytokine in severe lung diseases, such as COVID-19. We reported the consequences of hyponatremia in COVID-19 patients, and the immunomodulatory effects of HS, either in vitro or in vivo. We also described the relationship between electrolyte disturbances and COVID-19 infection. Although there is still a lack of clinical trials, hypertonic NaCl solutions have marked effects on neutrophil function and NETs formation, emerging as a promising adjuvant therapy in COVID-19.

Published

2022

15. Virulence Profiles of Wild-Type, P.1 and Delta SARS-CoV-2 Variants in K18-hACE2 Transgenic Mice

Author

Yasmin da Silva Santos, Thais Helena Martins Gamon, Marcela Santiago Pacheco de Azevedo, Bruna Larotonda Telezynski, Edmarcia Elisa de Souza, Danielle Bruna Leal de Oliveira, Jamille Gregório Dombrowski, Livia Rosa-Fernandes, Giuseppe Palmisano, Leonardo José de Moura Carvalho, Maria Cecília Rui Luvizotto, Carsten Wrenger, Dimas Tadeu Covas, Rui Curi, Claudio Romero Farias Marinho, Edison Luiz Durigon, and Sabrina Epiphanio

Subjects

SARS-CoV-2, COVID-19, Gamma variant, Delta variant, variants of concern, K18-hACE2, Microbiology, QR1-502

Abstract

Since December 2019, the world has been experiencing the COVID-19 pandemic caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and we now face the emergence of several variants. We aimed to assess the differences between the wild-type (Wt) (Wuhan) strain and the P.1 (Gamma) and Delta variants using infected K18-hACE2 mice. The clinical manifestations, behavior, virus load, pulmonary capacity, and histopathological alterations were analyzed. The P.1-infected mice showed weight loss and more severe clinical manifestations of COVID-19 than the Wt and Delta-infected mice. The respiratory capacity was reduced in the P.1-infected mice compared to the other groups. Pulmonary histological findings demonstrated that a more aggressive disease was generated by the P.1 and Delta variants compared to the Wt strain of the virus. The quantification of the SARS-CoV-2 viral copies varied greatly among the infected mice although it was higher in P.1-infected mice on the day of death. Our data revealed that K18-hACE2 mice infected with the P.1 variant develop a more severe infectious disease than those infected with the other variants, despite the significant heterogeneity among the mice.

Published

2023

16. Sensing soluble uric acid by Naip1-Nlrp3 platform

Author

Tarcio Teodoro Braga, Mariana Rodrigues Davanso, Davi Mendes, Tiago Antonio de Souza, Anderson Fernandes de Brito, Mario Costa Cruz, Meire Ioshie Hiyane, Dhemerson Souza de Lima, Vinicius Nunes, Juliana de Fátima Giarola, Denio Emanuel Pires Souto, Tomasz Próchnicki, Mario Lauterbach, Stellee Marcela Petris Biscaia, Rilton Alves de Freitas, Rui Curi, Alessandra Pontillo, Eicke Latz, and Niels Olsen Saraiva Camara

Subjects

Cytology, QH573-671

Abstract

Abstract Uric acid (UA), a product of purine nucleotide degradation able to initiate an immune response, represents a breakpoint in the evolutionary history of humans, when uricase, the enzyme required for UA cleavage, was lost. Despite being inert in human cells, UA in its soluble form (sUA) can increase the level of interleukin-1β (IL-1β) in murine macrophages. We, therefore, hypothesized that the recognition of sUA is achieved by the Naip1-Nlrp3 inflammasome platform. Through structural modelling predictions and transcriptome and functional analyses, we found that murine Naip1 expression in human macrophages induces IL-1β expression, fatty acid production and an inflammation-related response upon sUA stimulation, a process reversed by the pharmacological and genetic inhibition of Nlrp3. Moreover, molecular interaction experiments showed that Naip1 directly recognizes sUA. Accordingly, Naip may be the sUA receptor lost through the human evolutionary process, and a better understanding of its recognition may lead to novel anti-hyperuricaemia therapies.

Published

2021

17. Glutaminase isoforms expression switches microRNA levels and oxidative status in glioblastoma cells

Author

Juan de los Santos-Jiménez, José A. Campos-Sandoval, Clara Márquez-Torres, Nieves Urbano-Polo, David Brøndegaard, Mercedes Martín-Rufián, Carolina Lobo, Ana Peñalver, María C. Gómez-García, Janet Martín-Campos, Carolina Cardona, Laura Castilla, Felipe da Costa Souza, Tzuling Cheng, Juan A. Segura, Francisco J. Alonso, Rui Curi, Alison Colquhoun, Ralph J. DeBerardinis, Javier Márquez, and José M. Matés

Subjects

Antioxidant enzymes, Cancer, Glioblastoma, Glutaminase, microRNA, Oxidative stress, Medicine

Abstract

Abstract Background Glutaminase isoenzymes GLS and GLS2 play apparently opposing roles in cancer: GLS acts as an oncoprotein, while GLS2 (GAB isoform) has context specific tumour suppressive activity. Some microRNAs (miRNAs) have been implicated in progression of tumours, including gliomas. The aim was to investigate the effect of GLS and GAB expression on both miRNAs and oxidative status in glioblastoma cells. Methods Microarray profiling of miRNA was performed in GLS-silenced LN229 and GAB-transfected T98G human glioblastoma cells and their wild-type counterparts. Results were validated by real-time quantitative RT-PCR. Oxidative status and antioxidant enzymes were determined by spectrophotometric or fluorescence assays in GLS-silenced LN229 and T98G, and GAB-transfected LN229 and T98G. Results MiRNA-146a-5p, miRNA-140-3p, miRNA-21-5p, miRNA-1260a, and miRNA-92a-3p were downregulated, and miRNA-1246 was upregulated when GLS was knocked down. MiRNA-140-3p, miRNA-1246, miRNA-1260a, miRNA-21-5p, and miRNA-146a-5p were upregulated when GAB was overexpressed. Oxidative status (lipid peroxidation, protein carbonylation, total antioxidant capacity, and glutathione levels), as well as antioxidant enzymes (catalase, superoxide dismutase, and glutathione reductase) of silenced GLS glioblastoma cells and overexpressed GAB glioblastoma cells significantly changed versus their respective control glioblastoma cells. MiRNA-1246, miRNA-1260a, miRNA-146a-5p, and miRNA-21-5p have been characterized as strong biomarkers of glioblastoma proliferation linked to both GLS silencing and GAB overexpression. Total glutathione is a reliable biomarker of glioblastoma oxidative status steadily associated to both GLS silencing and GAB overexpression. Conclusions Glutaminase isoenzymes are related to the expression of some miRNAs and may contribute to either tumour progression or suppression through certain miRNA-mediated pathways, proving to be a key tool to switch cancer proliferation and redox status leading to a less malignant phenotype. Accordingly, GLS and GAB expression are especially involved in glutathione-dependent antioxidant defence.

Published

2021

18. The Critical Role of Cell Metabolism for Essential Neutrophil Functions

Author

Rui Curi, Adriana Cristina Levada-Pires, Eliane Borges da Silva, Sarah de Oliveira Poma, Raquel Freitas Zambonatto, Paola Domenech, Mariana Mendes de Almeida, Raquel Bragante Gritte, Talita Souza-Siqueira, Renata Gorjão, Philip Newsholme, and Tania Cristina Pithon-Curi

Subjects

Physiology, QP1-981, Biochemistry, QD415-436

Published

2020

19. SARS-COV-2 Variants: Differences and Potential of Immune Evasion

Author

Sandro M. Hirabara, Tamires D. A. Serdan, Renata Gorjao, Laureane N. Masi, Tania C. Pithon-Curi, Dimas T. Covas, Rui Curi, and Edison L. Durigon

Subjects

COVID-19, variant of concern, neutralizing antibody, vaccines, immune escape, delta variant, Microbiology, QR1-502

Abstract

The structural spike (S) glycoprotein of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) plays an essential role in infection and is an important target for neutralizing antibody recognition. Mutations in the S gene can generate variants of concern (VOCs), which improve “viral fitness” through selective or survival advantages, such as increased ACE-2 receptor affinity, infectivity, viral replication, higher transmissibility, resistance to neutralizing antibodies and immune escape, increasing disease severity and reinfection risk. Five VOCs have been recognized and include B.1.1.7 (U.K.), B.1.351 (South Africa), P.1 (Brazil), B.1.617.2 (India), and B.1.1.529 (multiple countries). In this review, we addressed the following critical points concerning VOCs: a) characteristics of the SARS-CoV-2 VOCs with mutations in the S gene; b) possible evasion of variants from neutralizing antibodies generated through vaccination, previous infection, or immune therapies; c) potential risk of new pandemic waves induced by the variants worldwide; and d) perspectives for further studies and actions aimed at preventing or reducing the impact of new variants during the current COVID-19 pandemic.

Published

2022

20. Impaired brown adipose tissue is differentially modulated in insulin-resistant obese wistar and type 2 diabetic Goto-Kakizaki rats

Author

Tamires Duarte Afonso Serdan, Laureane Nunes Masi, Joice Naiara Bertaglia Pereira, Luiz Eduardo Rodrigues, Amanda Lins Alecrim, Maria Vitoria Martins Scervino, Vinicius Leonardo Sousa Diniz, Alef Aragão Carneiro dos Santos, Celso Pereira Batista Sousa Filho, Tatiana Carolina Alba- Loureiro, Gabriel Nasri Marzuca-Nassr, Roberto Barbosa Bazotte, Renata Gorjão, Tania Cristina Pithon-Curi, Rui Curi, and Sandro Massao Hirabara

Subjects

Obesity, Type 2 diabetes, Thermogenesis, Batokines, Glucose uptake, Therapeutics. Pharmacology, RM1-950

Abstract

Brown adipose tissue (BAT) is a potential target to treat obesity and diabetes, dissipating energy as heat. Type 2 diabetes (T2D) has been associated with obesogenic diets; however, T2D was also reported in lean individuals to be associated with genetic factors. We aimed to investigate the differences between obese and lean models of insulin resistance (IR) and elucidate the mechanism associated with BAT metabolism and dysfunction in different IR animal models: a genetic model (lean GK rats) and obese models (diet-induced obese Wistar rats) at 8 weeks of age fed a high-carbohydrate (HC), high-fat (HF) diet, or high-fat and high-sugar (HFHS) diet for 8 weeks. At 15 weeks of age, BAT glucose uptake was evaluated by 18F-FDG PET under basal (saline administration) or stimulated condition (CL316,243, a selective β3-AR agonist). After CL316, 243 administrations, GK animals showed decreased glucose uptake compared to HC animals. At 16 weeks of age, the animals were euthanized, and the interscapular BAT was dissected for analysis. Histological analyses showed lower cell density in GK rats and higher adipocyte area compared to all groups, followed by HFHS and HF compared to HC. HFHS showed a decreased batokine FGF21 protein level compared to all groups. However, GK animals showed increased expression of genes involved in fatty acid oxidation (CPT1 and CPT2), BAT metabolism (Sirt1 and Pgc1-α), and obesogenic genes (leptin and PAI-1) but decreased gene expression of glucose transporter 1 (GLUT-1) compared to other groups. Our data suggest impaired BAT function in obese Wistar and GK rats, with evidence of a whitening process in these animals

Published

2021

21. Features of Neutrophils From Atopic and Non-Atopic Elite Endurance Runners

Author

Raquel Freitas Zambonatto, Renata Nakata Teixeira, Sarah de Oliveira Poma, Eliane Borges da Silva, Mariana Mendes de Almeida, Gerson dos Santos Leite, Cesar Miguel Momesso dos Santos, Heloisa Helena de Oliveira Alves, Renata Gorjão, Tania Cristina Pithon-Curi, Celso R. F. Carvalho, Rui Curi, and Adriana Cristina Levada-Pires

Subjects

athletes, leukocytes, cytokines, lipopolysaccharide, allergy, IgE, Immunologic diseases. Allergy, RC581-607

Abstract

We collected peripheral blood from thirty-nine elite male endurance runners at rest (24 hours after the last exercise session) and used the Allergy Questionnaire for Athletes score and plasma specific IgE level to separate them into atopic and non-atopic athletes. Neutrophils obtained from atopic and non-atopic athletes were subsequently stimulated in vitro with fMLP (N-formyl-methionyl-leucyl-phenylalanine), LPS (lipopolysaccharide), or PMA (phorbol 12-myristate 13-acetate). Neutrophils from non-atopic runners responded appropriately to LPS, as evidenced by the production of pro (IL-8, TNF-α, and IL-6) and anti-inflammatory (IL-10) cytokines. Neutrophils from atopic elite runners exhibited lower responses to LPS stimulus as indicated by no increase in IL-1β, TNF-α, and IL-6 production. Neutrophils from non-atopic and atopic runners responded similarly to fMLP stimulation, indicating that migration function remained unaltered. Both groups were unresponsive to PMA induced reactive oxygen species (ROS) production. Training hours and training volume were not associated with neutrophil IgE receptor gene expression or any evaluated neutrophil function. Since non-atopic runners normally responded to LPS stimulation, the reduced neutrophil response to the stimuli was most likely due to the atopic state and not exercise training. The findings reported are of clinical relevance because atopic runners exhibit a constant decline in competition performance and are more susceptible to invading microorganisms.

Published

2021

22. Moderate physical exercise improves lymphocyte function in melanoma-bearing mice on a high-fat diet

Author

Cesar Miguel Momesso dos Santos, Vinicius Leonardo Sousa Diniz, André Luis Lacerda Bachi, Laiane Cristina dos Santos de Oliveira, Tamara Ghazal, Maria Elizabeth Pereira Passos, Heloisa Helena de Oliveira, Gilson Murata, Laureane Nunes Masi, Amanda Roque Martins, Adriana Cristina Levada-Pires, Rui Curi, Sandro Massao Hirabara, Donald F. Sellitti, Tania Cristina Pithon-Curi, and Renata Gorjão

Subjects

Cytokines, Th1 lymphocytes, B16F10 cells, Cancer, Obesity, Immune function, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Obesity can lead to a chronic systemic inflammatory state that increases the risk of cancer development. Therefore, this study aimed to evaluate the alterations in tumor non-infiltrated lymphocytes function and melanoma growth in animals maintained on a high-fat diet and/or moderate physical exercise program in a murine model of melanoma. Methods Female mice were randomly divided into eight groups: 1) normolipidic control (N), 2) normolipidic + melanoma (NM), 3) high-fat control (H), 4) high-fat + melanoma (HM), 5) normolipidic control + physical exercise (NE), 6) normolipidic melanoma + physical exercise (NEM), 7) high-fat control + physical exercise (HE), and 8) high-fat melanoma + physical exercise (HEM). After 8 weeks of diet treatment and/or moderate physical exercise protocol, melanoma was initiated by explanting B16F10 cells into one-half of the animals. Results Animals fed a high-fat diet presented high-energy consumption (30%) and body weight gain (H and HE vs N and NE, 37%; HM and HEM vs NM and NEM, 73%, respectively), whether or not they carried melanoma explants. Although the tumor growth rate was higher in animals from the HM group than in animals from any other sedentary group, it was reduced by the addition of a physical exercise regimen. We also observed an increase in stimulated peripheral lymphocyte proliferation and a decrease in the T-helper 1 response in the HEM group. Conclusions The results of the present study support the hypothesis that altering function of tumor non-infiltrated lymphocytes via exercise-related mechanisms can slow melanoma progression, indicating that the incorporation of a regular practice of moderate-intensity exercises can be a potential strategy for current therapeutic regimens in treating advanced melanoma.

Published

2019

23. Myotube Protein Content Associates with Intracellular L-Glutamine Levels

Author

Diogo Antonio Alves de Vasconcelos, Pieter Giesbertz, Gilson Masahiro Murata, Diego Ribeiro de Souza, Jarlei Fiamoncini, Daniella Duque-Guimaraes, Carol Góis Leandro, Sandro Massao Hirabara, Hannelore Daniel, Rui Curi, and Tania Cristina Pithon-Curi

Subjects

Physiology, QP1-981, Biochemistry, QD415-436

Published

2019

24. Fatty acid oxidation participates in resistance to nutrient-depleted environments in the insect stages of Trypanosoma cruzi.

Author

Rodolpho Ornitz Oliveira Souza, Flávia Silva Damasceno, Sabrina Marsiccobetre, Marc Biran, Gilson Murata, Rui Curi, Frédéric Bringaud, and Ariel Mariano Silber

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Trypanosoma cruzi, the parasite causing Chagas disease, is a digenetic flagellated protist that infects mammals (including humans) and reduviid insect vectors. Therefore, T. cruzi must colonize different niches in order to complete its life cycle in both hosts. This fact determines the need of adaptations to face challenging environmental cues. The primary environmental challenge, particularly in the insect stages, is poor nutrient availability. In this regard, it is well known that T. cruzi has a flexible metabolism able to rapidly switch from carbohydrates (mainly glucose) to amino acids (mostly proline) consumption. Also established has been the capability of T. cruzi to use glucose and amino acids to support the differentiation process occurring in the insect, from replicative non-infective epimastigotes to non-replicative infective metacyclic trypomastigotes. However, little is known about the possibilities of using externally available and internally stored fatty acids as resources to survive in nutrient-poor environments, and to sustain metacyclogenesis. In this study, we revisit the metabolic fate of fatty acid breakdown in T. cruzi. Herein, we show that during parasite proliferation, the glucose concentration in the medium can regulate the fatty acid metabolism. At the stationary phase, the parasites fully oxidize fatty acids. [U-14C]-palmitate can be taken up from the medium, leading to CO2 production. Additionally, we show that electrons are fed directly to oxidative phosphorylation, and acetyl-CoA is supplied to the tricarboxylic acid (TCA) cycle, which can be used to feed anabolic pathways such as the de novo biosynthesis of fatty acids. Finally, we show as well that the inhibition of fatty acids mobilization into the mitochondrion diminishes the survival to severe starvation, and impairs metacyclogenesis.

Published

2021

25. 4-Aminoquinoline compounds from the Spanish flu to COVID-19

Author

Roberto Barbosa Bazotte, Sandro Massao Hirabara, Tamires Afonso Duarte Serdan, Raquel Bragante Gritte, Talita Souza-Siqueira, Renata Gorjao, Laureane Nunes Masi, Marina Masetto Antunes, Vinicius Cruzat, Tania Cristina Pithon-Curi, and Rui Curi

Subjects

Sars-CoV-2, Antiviral drugs, Chloroquine, Hydroxychloroquine, Endosomal escape, Lysosomotropic drugs, Therapeutics. Pharmacology, RM1-950

Abstract

In 1918, quinine was used as one of the unscientifically based treatments against the H1N1 virus during the Spanish flu pandemic. Originally, quinine was extracted from the bark of Chinchona trees by South American natives of the Amazon forest, and it has been used to treat fever since the seventeenth century. The recent COVID-19 pandemic caused by Sars-Cov-2 infection has forced researchers to search for ways to prevent and treat this disease. Based on the antiviral potential of two 4-aminoquinoline compounds derived from quinine, known as chloroquine (CQ) and hydroxychloroquine (HCQ), clinical investigations for treating COVID-19 are being conducted worldwide. However, there are some discrepancies among the clinical trial outcomes.Thus, even after one hundred years of quinine use during the Spanish flu pandemic, the antiviral properties promoted by 4-aminoquinoline compounds remain unclear. The underlying molecular mechanisms by which CQ and HCQ inhibit viral replication open up the possibility of developing novel analogs of these drugs to combat COVID-19 and other viruses.

Published

2021

26. Why Septic Patients Remain Sick After Hospital Discharge?

Author

Raquel Bragante Gritte, Talita Souza-Siqueira, Rui Curi, Marcel Cerqueira Cesar Machado, and Francisco Garcia Soriano

Subjects

inflammation, septicemia, post sepsis syndrome, metabolic reprogramming, leukocytes, Immunologic diseases. Allergy, RC581-607

Abstract

Sepsis is well known to cause a high patient death rate (up to 50%) during the intensive care unit (ICU) stay. In addition, sepsis survival patients also exhibit a very high death rate after hospital discharge compared to patients with any other disease. The addressed question is then: why septic patients remain ill after hospital discharge? The cellular and molecular mechanisms involved in the high rate of septic patient deaths are still unknown. We described herein the studies that investigated the percentage of septic patients that died after hospital discharge ranging from 90 days up to 5 years. We also reported the symptoms of septic patients after hospital discharge and the development of the recently called post-sepsis syndrome (PSS). The most common symptoms of the PSS are cognitive disabilities, physical functioning decline, difficulties in performing routine daily activities, and poor life quality. The PSS also associates with quite often reinfection and re-hospitalization. This condition is the cause of the high rate of death mentioned above. We reported the proportion of patients dying after hospital discharge up to 5 years of followed up and the PSS symptoms associated. The authors also discuss the possible cellular and metabolic reprogramming mechanisms related with the low survival of septic patients and the occurrence of PSS.

Published

2021

27. Profiling plasma‐extracellular vesicle proteins and microRNAs in diabetes onset in middle‐aged male participants in the ELSA‐Brasil study

Author

Laureane N. Masi, Paulo A. Lotufo, Frederico M. Ferreira, Alice C. Rodrigues, Tamires D. A. Serdan, Talita Souza‐Siqueira, Aécio A. Braga, Magda E. G. Saldarriaga, Tatiana C. Alba‐Loureiro, Fernanda T. Borges, Diego P. Cury, Mario H. Hirata, Renata Gorjão, Tania C. Pithon‐Curi, Simão A. Lottenberg, Ligia M. G. Fedeli, Helder T. I. Nakaya, Isabela J. M. Bensenor, Rui Curi, and Sandro M. Hirabara

Subjects

epigenetics, glucose intolerance, hyperglycemia, proteomic, Physiology, QP1-981

Abstract

Abstract We measured plasma‐derived extracellular vesicle (EV) proteins and their microRNA (miRNA) cargos in normoglycemic (NG), glucose intolerant (GI), and newly diagnosed diabetes mellitus (DM) in middle‐aged male participants of the Brazilian Longitudinal Study of Adult Health (ELSA‐Brazil). Mass spectrometry revealed decreased IGHG‐1 and increased ITIH2 protein levels in the GI group compared with that in the NG group and higher serotransferrin in EVs in the DM group than in those in the NG and GI groups. The GI group also showed increased serum ferritin levels, as evaluated by biochemical analysis, compared with those in both groups. Seventeen miRNAs were differentially expressed (DEMiRs) in the plasma EVs of the three groups. DM patients showed upregulation of miR‐141‐3p and downregulation of miR‐324‐5p and ‐376c‐3p compared with the NG and GI groups. The DM and GI groups showed increased miR‐26b‐5p expression compared with that in the NG group. The DM group showed decreased miR‐374b‐5p levels compared with those in the GI group and higher concentrations than those in the NG group. Thus, three EV proteins and five DEMiR cargos have potential prognostic importance for diabetic complications mainly associated with the immune function and iron status of GI and DM patients.

Published

2021

28. Small intestine remodeling in male Goto–Kakizaki rats

Author

Joice Naiara Bertaglia Pereira, Gilson Masahiro Murata, Fabio Takeo Sato, Aline Rosa Marosti, Carla Roberta de Oliveira Carvalho, and Rui Curi

Subjects

enteric nervous system, GK rats, inflammation, small intestine morphology, type 2 diabetes, Physiology, QP1-981

Abstract

Abstract Background Obesity is associated with the development of insulin resistance (IR) and type‐2 diabetes mellitus (T2DM); however, not all patients with T2DM are obese. The Goto–Kakizaki (GK) rat is an experimental model of spontaneous and non‐obese T2DM. There is evidence that the intestine contributes to IR development in GK animals. This information prompted us to investigate small intestine remodeling in this animal model. Methods Four‐month‐old male Wistar (control) and GK rats were utilized for the present study. After removing the small intestine, the duodenum, proximal jejunum, and distal ileum were separated. We then measured villi and muscular and mucosa layer histomorphometry, goblet cells abundance, total myenteric and submucosal neuron populations, and inflammatory marker expression in the small intestinal segments and intestinal transit of both groups of animals. Key Results We found that the GK rats exhibited decreased intestinal area (p

Published

2021

29. Correction to: A probiotic has differential effects on allergic airway inflammation in A/J and C57BL/6 mice and is correlated with the gut microbiome

Author

Mateus B. Casaro, Andrew M. Thomas, Eduardo Mendes, Claudio Fukumori, Willian R. Ribeiro, Fernando A. Oliveira, Amanda R. Crisma, Gilson M. Murata, Bruna Bizzarro, Anderson Sá-Nunes, Joao C. Setubal, Marcia P. A. Mayer, Flaviano S. Martins, Angélica T. Vieira, Ana T. F. B. Antiorio, Wothan Tavares-de-Lima, Niels O. S. Camara, Rui Curi, Emmanuel Dias-Neto, and Caroline M. Ferreira

Subjects

Microbial ecology, QR100-130

Published

2021

30. Effects of high doses of glucocorticoids on insulin-mediated vasodilation in the mesenteric artery of rats.

Author

João Eliakim Dos S Araujo, Rodrigo Miguel-Dos-Santos, Fabrício N Macedo, Patrícia S Cunha, Milene Tavares Fontes, Gilson Masahiro Murata, Sandra Lauton-Santos, Valter J Santana-Filho, Ana Mara de O Silva, Angelo Roberto Antoniolli, Rui Curi, Jullyana de S S Quintans, Rosana de S S Barreto, Marcio R V Santos, Lucindo J Quintans-Junior, and André S Barreto

Subjects

Medicine, Science

Abstract

Several pathological conditions predict the use of glucocorticoids for the management of the inflammatory response; however, chronic or high dose glucocorticoid treatment is associated with hyperglycemia, hyperlipidemia, and insulin resistance and can be considered a risk factor for cardiovascular disease. Therefore, we investigated the mechanisms involved in the vascular responsiveness and inflammatory profile of mesenteric arteries of rats treated with high doses of glucocorticoids. Wistar rats were divided into a control (CO) group and a dexamethasone (DEX) group, that received dexamethasone for 7 days (2mg/kg/day, i.p.). Blood samples were used to assess the lipid profile and insulin tolerance. Vascular reactivity to Phenylephrine (Phe) and insulin, and O2•-production were evaluated. The intracellular insulin signaling pathway PI3K/AKT/eNOS and MAPK/ET-1 were investigated. Regarding the vascular inflammatory profile, TNF-α, IL-6, IL-1β and IL-18 were assessed. Dexamethasone-treated rats had decreased insulin tolerance test and endothelium-dependent vasodilation induced by insulin. eNOS inhibition caused vasoconstriction in the DEX group, which was abolished by the ET-A antagonist. Insulin-mediated relaxation in the DEX group was restored in the presence of the O2.- scavenger TIRON. Nevertheless, in the DEX group there was an increase in Phe-induced vasoconstriction. In addition, the intracellular insulin signaling pathway PI3K/AKT/eNOS was impaired, decreasing NO bioavailability. Regarding superoxide anion generation, there was an increase in the DEX group, and all measured proinflammatory cytokines were also augmented in the DEX group. In addition, the DEX-group presented an increase in low-density lipoprotein cholesterol (LDL-c) and total cholesterol (TC) and reduced high-density lipoprotein cholesterol (HDL-c) levels. In summary, treatment with high doses of dexamethasone promoted changes in insulin-induced vasodilation, through the reduction of NO bioavailability and an increase in vasoconstriction via ET-1 associated with generation of O2•- and proinflammatory cytokines.

Published

2020

31. COVID-19 and Neutrophils: The Relationship between Hyperinflammation and Neutrophil Extracellular Traps

Author

Leandro Borges, Tania Cristina Pithon-Curi, Rui Curi, and Elaine Hatanaka

Subjects

Pathology, RB1-214

Abstract

Coronavirus disease 2019 (COVID-19) is a virus-induced respiratory disease that may progress to acute respiratory distress syndrome (ARDS) and is triggered by immunopathological mechanisms that cause excessive inflammation and leukocyte dysfunction. Neutrophils play a critical function in the clearance of bacteria with specific mechanisms to combat viruses. The aim of this review is to highlight the current advances in the pathways of neutrophilic inflammation against viral infection over the past ten years, focusing on the production of neutrophil extracellular traps (NETs) and its impact on severe lung diseases, such as COVID-19. We focused on studies regarding hyperinflammation, cytokine storms, neutrophil function, and viral infections. We discuss how the neutrophil’s role could influence COVID-19 symptoms in the interaction between hyperinflammation (overproduction of NETs and cytokines) and the clearance function of neutrophils to eliminate the viral infection. We also propose a more in-depth investigation into the neutrophil response mechanism targeting NETosis in the different phases of COVID-19.

Published

2020

32. Palmitoleic acid (16:1n7) increases oxygen consumption, fatty acid oxidation and ATP content in white adipocytes

Author

Maysa M. Cruz, Andressa B. Lopes, Amanda R. Crisma, Roberta C. C. de Sá, Wilson M. T. Kuwabara, Rui Curi, Paula B. M. de Andrade, and Maria I. C. Alonso-Vale

Subjects

Lipogenesis, Lipolysis, Triglyceride/fatty acid cycle, Bioenergetics, Mitochondria, Beta-oxidation, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background We have recently demonstrated that palmitoleic acid (16:1n7) increases lipolysis, glucose uptake and glucose utilization for energy production in white adipose cells. In the present study, we tested the hypothesis that palmitoleic acid modulates bioenergetic activity in white adipocytes. Methods For this, 3 T3-L1 pre-adipocytes were differentiated into mature adipocytes in the presence (or absence) of palmitic (16:0) or palmitoleic (16:1n7) acid at 100 or 200 μM. The following parameters were evaluated: lipolysis, lipogenesis, fatty acid (FA) oxidation, ATP content, oxygen consumption, mitochondrial mass, citrate synthase activity and protein content of mitochondrial oxidative phosphorylation (OXPHOS) complexes. Results Treatment with 16:1n7 during 9 days raised basal and isoproterenol-stimulated lipolysis, FA incorporation into triacylglycerol (TAG), FA oxidation, oxygen consumption, protein expression of subunits representing OXPHOS complex II, III, and V and intracellular ATP content. These effects were not observed in adipocytes treated with 16:0. Conclusions Palmitoleic acid, by concerted action on lipolysis, FA esterification, mitochondrial FA oxidation, oxygen consumption and ATP content, does enhance white adipocyte energy expenditure and may act as local hormone.

Published

2018

33. Combination of a high-fat diet with sweetened condensed milk exacerbates inflammation and insulin resistance induced by each separately in mice

Author

Laureane Nunes Masi, Amanda Roque Martins, Amanda Rabello Crisma, Cátia Lira do Amaral, Mariana Rodrigues Davanso, Tamires Duarte Afonso Serdan, Roberta Dourado Cavalcante da Cunha de Sá, Maysa Mariana Cruz, Maria Isabel Cardoso Alonso-Vale, Rosângela Pavan Torres, Jorge Mancini-Filho, Joice Naiara Bertaglia Pereira, Marta Maria da Silva Righetti, Edson Aparecido Liberti, Sandro Massao Hirabara, and Rui Curi

Subjects

Medicine, Science

Abstract

Abstract Obesogenic diets increase body weight and cause insulin resistance (IR), however, the association of these changes with the main macronutrient in the diet remains to be elucidated. Male C57BL/6 mice were fed with: control (CD), CD and sweetened condensed milk (HS), high-fat (HF), and HF and condensed milk (HSHF). After 2 months, increased body weight, glucose intolerance, adipocyte size and cholesterol levels were observed. As compared with CD, HS ingested the same amount of calories whereas HF and HSHF ingested less. HS had increased plasma AST activity and liver type I collagen. HF caused mild liver steatosis and hepatocellular damage. HF and HSHF increased LDL-cholesterol, hepatocyte and adipocyte hypertrophy, TNF-α by macrophages and decreased lipogenesis and adiponectin in adipose tissue (AT). HSHF exacerbated these effects, increasing IR, lipolysis, mRNA expression of F4/80 and leptin in AT, Tlr-4 in soleus muscle and IL-6, IL-1β, VCAM-1, and ICAM-1 protein in AT. The three obesogenic diets induced obesity and metabolic dysfunction. HS was more proinflammatory than the HF and induced hepatic fibrosis. The HF was more detrimental in terms of insulin sensitivity, and it caused liver steatosis. The combination HSHF exacerbated the effects of each separately on insulin resistance and AT inflammatory state.

Published

2017

34. Inflammatory state of periaortic adipose tissue in mice under obesogenic dietary regimens

Author

Laureane Nunes Masi, Amanda Rabello Crisma, Amanda Roque Martins, Catia Lira do Amaral, Rosângela Pavan Torres, Jorge Mancini Filho, Sandro Massao Hirabara, and Rui Curi

Subjects

Inflammation, Endothelium, High-fat diet, Sucrose, Cytokine, Nutrition. Foods and food supply, TX341-641, Biochemistry, QD415-436

Abstract

High-fat diet or high-sugar diet causes obesity and a chronic low-grade inflammation that leads to the development of diabetes and cardiovascular diseases. Inflammation of the surrounding fat of thoracic aorta namely periaortic adipose tissue (PAAT) has been associated with increased prevalence of vascular diseases in obesity. C57Bl/6 male mice (12 weeks of age) fed a whole grain-based commercial diet (WGD), refined carbohydrate diet (RCD), refined carbohydrate diet plus sweetened condensed milk ad libitum (RCD + CM) or high-fat diet (HFD) for eight weeks were studied. Serum fatty acid (FA) composition was evaluated by gas chromatography. The cellularity (as indicated by DNA and protein contents) and the inflammatory state (as indicated by the contents of TNF-α, IL-6, IL-1β, IL-10, VCAM-1, ICAM-1, leptin and adiponectin measured by ELISA) of the PAAT and thoracic aorta (TA) were evaluated. Both obesogenic regimens (RCD + CM and HFD) increased the content of total fatty acids (FA) in serum and the cellularity of the PAAT compared to WGD. RCD + CM increased serum monounsaturated fatty acid (MUFA) levels and HFD increased serum saturated fatty acid (SFA) levels compared to WGD. RCD (one of the diets used as control) and RCD + CM increased the levels of TNF-α, IL-1β, IL-10 and VCAM-1 in the PAAT compared to WGD. Mice fed with HFD showed decreased contents of TNF-α, VCAM-1 and IL-10 in the PAAT compared to animals fed RCD. The RCD raised the levels of SFA in serum, cellularity and inflammatory state in the PAAT compared to WGD. In conclusion, the effects of obesogenic dietary regimens on PAAT can be interpreted differently when the results are compared with WGD or RCD. We found marked changes in the PAAT and no significant modifications in TA indicating this adipose tissue as the major starting point of vascular diseases.

Published

2016

35. Maternal supplementation with a synbiotic has distinct outcomes on offspring gut microbiota formation in A/J and C57BL/6 mice, differentially affecting airway inflammatory cell infiltration and mucus production

Author

Claudio Fukumori, Mateus B. Casaro, Andrew M. Thomas, Eduardo Mendes, Willian R. Ribeiro, Amanda R. Crisma, Gilson M. Murata, Bruna Bizzarro, Emmanuel Dias-Neto, Joao C. Setubal, Maria A. Oliveira, Wothan Tavares-de-Lima, Rui Curi, Silvana Bordin, Patricia Sartorelli, and Caroline M. Ferreira

Subjects

Lung inflammation, Perinatal, Synbiotic, Microbiota, Offspring, Genetic, Nutrition. Foods and food supply, TX341-641

Abstract

Emerging evidence has shown that the maternal diet influences the microbiota. Our objective was to elucidate whether synbiotic consumption during the perinatal period equally modulates offspring gut microbiota in the A/J and C57BL/6 and affects airway inflammatory cell infiltration. We administered the synbiotic to the dam throughout the whole perinatal period. To analyze the influence of gut microbiota changes on offspring health, we induced allergic airway inflammation on offspring. Twenty-four hours after the last ovalbumin challenge, pulmonary inflammation was analyzed. Perinatal synbiotic supplementation reduced eosinophilic inflammation and mucus production only in the C57BL/6 offspring. Synbiotic supplementation during the perinatal period increased the Lactobacillus genera, which could be associated with the immune regulatory effects observed in the C57BL/6 offspring. Interestingly, synbiotic supplementation increased the diversity of gut microbiota in the A/J offspring without improving airway inflammation, indicating that diversity itself was not sufficient to regulate experimental lung inflammation.

Published

2019

36. Regulation of Gene Expression by Exercise-Related Micrornas

Author

Laureane Nunes Masi, Tamires Duarte Afonso Serdan, Adriana Cristina Levada-Pires, Elaine Hatanaka, Leonardo dos Reis Silveira, Maria Fernanda Cury-Boaventura, Tania Cristina Pithon-Curi, Rui Curi, Renata Gorjão, and Sandro Massao Hirabara

Subjects

miRs, Exosomes, Gene expression, Skeletal muscle, Endurance, Muscle strength, Leukocyte function, Heart, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Gene expression control by microRNAs (miRs) is an important mechanism for maintenance of cellular homeostasis in physiological and pathological conditions as well as in response to different stimuli including nutritional factors and exercise. MiRs are involved in regulation of several processes such as growth and development, fuel metabolism, insulin secretion, immune function, miocardium remodeling, cell proliferation, differenciation, survival, and death. These molecules have also been proposed to be potential biomarkers and/or therapeutical targets in obesity, type 2 diabetes mellitus, cardiovascular diseases, metabolic syndrome, and cancer. MiRs are released by most cells and potentially act on intercellular communication to borderer or distant cells. Various studies have been performed to elucidate the involvement of miRs in exercise-induced effects. The aims of this review are: 1) to bring up the main advances for the comprehension of the mechanisms of action of miRs; 2) to present the main results on miR involvement in physical exercise; 3) to discuss the physiological effects of miRs modified by exercise. The state of the art and the perspectives on miRs associated with physical exercise will be presented. Thus, this review is important for updating recent advances and driving further strategies and studies on the exercise-related miR research.

Published

2016

37. Tributyrin Attenuates Metabolic and Inflammatory Changes Associated with Obesity through a GPR109A-Dependent Mechanism

Author

Fabio Takeo Sato, Yu Anne Yap, Amanda Rabello Crisma, Mariana Portovedo, Gilson Masahiro Murata, Sandro Massao Hirabara, Willian Rodrigues Ribeiro, Caroline Marcantonio Ferreira, Maysa Mariana Cruz, Joice Naiara Bertaglia Pereira, Tanyara Baliani Payolla, Suzana Eiko Sato Guima, Andrew Maltez Thomas, João Carlos Setubal, Maria Isabel Cardoso Alonso-Vale, Marinilce Fagundes Santos, Rui Curi, Eliana Marino, and Marco A. R. Vinolo

Subjects

butyrate, microbiota, insulin resistance, dysbiosis, Cytology, QH573-671

Abstract

Obesity is linked with altered microbial short-chain fatty acids (SCFAs), which are a signature of gut dysbiosis and inflammation. In the present study, we investigated whether tributyrin, a prodrug of the SCFA butyrate, could improve metabolic and inflammatory profiles in diet-induced obese mice. Mice fed a high-fat diet for eight weeks were treated with tributyrin or placebo for another six weeks. We show that obese mice treated with tributyrin had lower body weight gain and an improved insulin responsiveness and glucose metabolism, partly via reduced hepatic triglycerides content. Additionally, tributyrin induced an anti-inflammatory state in the adipose tissue by reduction of Il-1β and Tnf-a and increased Il-10, Tregs cells and M2-macrophages. Moreover, improvement in glucose metabolism and reduction of fat inflammatory states associated with tributyrin treatment were dependent on GPR109A activation. Our results indicate that exogenous targeting of SCFA butyrate attenuates metabolic and inflammatory dysfunction, highlighting a potentially novel approach to tackle obesity.

Published

2020

38. Topical anti-inflammatory activity of palmitoleic acid improves wound healing.

Author

Eleine Weimann, Maysa Braga Barros Silva, Gilson Masahiro Murata, Jose Ricardo Bortolon, Alexandre Dermargos, Rui Curi, and Elaine Hatanaka

Subjects

Medicine, Science

Abstract

This study investigated the effects of palmitoleic acid on different phases of the healing process. Macroscopic analyses were performed on wounds in rats with or without palmitoleic acid treatment, and the results showed that palmitoleic acid directly hastened wound closure. The topical treatment of wounds with palmitoleic acid resulted in smaller wounds than those observed in the control group. The anti-inflammatory activity of palmitoleic acid may be responsible for healing, especially in the stages of granulation tissue formation and remodelling. Palmitoleic acid modified TNF-α, IL-1β, IL-6, CINC-2α/β, MIP-3α and VEGF-α profiles at the wound site 24, 48, 120, 216 and 288 hours post-wounding. Assays assessing neutrophil migration and exudate formation in sterile inflammatory air pouches revealed that palmitoleic acid had potent anti-inflammatory activity, inhibiting the LPS-induced release of TNF-α (73.14%, p≤0.05), IL-1β (66.19%, p≤0.001), IL-6 (75.19%, p≤0.001), MIP-3α (70.38%, p≤0.05), and l-selectin (16%, p≤0.05). Palmitoleic acid also inhibited LPS-stimulated neutrophil migration. We concluded that palmitoleic acid accelerates wound healing via an anti-inflammatory effect.

Published

2018

39. Celecoxib and Ibuprofen Restore the ATP Content and the Gluconeogenesis Activity in the Liver of Walker-256 Tumor-Bearing Rats

Author

Camila Oliveira de Souza, Mirian Ayumi Kurauti, Flaviane de Fatima Silva, Hely de Morais, Rui Curi, Sandro Massao Hirabara, José Cesar Rosa Neto, and Helenir Medri de Souza

Subjects

Cancer, Non-steroidal anti-inflammatory, Gluconeogenesis, ATP, Carnitine palmitoyl transferase 1, Liver perfusion, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: The main purpose of this study was to investigate the effects of celecoxib and ibuprofen, both non-steroidal anti-inflammatory drugs (NSAIDs), on the decreased gluconeogenesis observed in liver of Walker-256 tumor-bearing rats. Methods: Celecoxib and ibuprofen (both at 25 mg/Kg) were orally administered for 12 days, beginning on the same day when the rats were inoculated with Walker-256 tumor cells. Results: Celecoxib and ibuprofen treatment reversed the reduced production of glucose, pyruvate, lactate and urea from alanine as well as the reduced production of glucose from pyruvate and lactate in perfused liver from tumor-bearing rats. Besides, celecoxib and ibuprofen treatment restored the decreased ATP content, increased triacylglycerol levels and reduced mRNA expression of carnitine palmitoyl transferase 1 (CPT1), while ibuprofen treatment restored the reduced mRNA expression of peroxisome proliferator-activated receptor alpha (PPARα) in the liver of tumor-bearing rats. Both treatments tended to decrease TNFα, IL6 and IL10 in the liver of tumor-bearing rats. Finally, the treatment with celecoxib, but not with ibuprofen, reduced the growth of Walker-256 tumor. Conclusion: Celecoxib and ibuprofen restored the decreased gluconeogenesis in the liver of Walker-256 tumor-bearing rats. These effects did not involve changes in tumor growth and probably occurred by anti-inflammatory properties of these NSAIDs, which increased expression of genes associated with fatty acid oxidation (PPARα and CPT1) and consequently the ATP production, normalizing the energy status in the liver of tumor-bearing rats.

Published

2015

40. Production of vegetable oil blends and structured lipids and their effect on wound healing

Author

Juliana Neves Rodrigues Ract, Fabiana Andreia Schäfer De Martini Soares, Hosana Gomes Rodrigues, José Ricardo Bortolon, Gilson Masahiro Murata, Maria Inês Almeida Gonçalves, Elaine Hatanaka, Rui Curi, and Luiz Antonio Gioielli

Subjects

Lipídio estruturado/efeito/cicatrização de feridas, Óleo vegetal/efeito/cicatrização de feridas, Cicatrização, Feridas cutâneas/cicatrização/tratamento, Pharmacy and materia medica, RS1-441

Abstract

Two oil blends (sunflower/canola oils 85/15 (BL1) and canola/linseed oils 70/30 (BL2)), were prepared and enzymatically interesterified to be applied to surgically-induced wounds in rats. Following surgery, the animals were submitted to the Treatment with Physiological Saline (TPS) (control group), Blends (TBL), and Structured Lipids (TSL). The control group (TPS) received physiological saline solution for 15 days. In TBL, BL1 was administered during the inflammation phase (days 0-3) and BL2 in the tissue formation and remodeling phase (days 4-15). In TSL, Structured Lipid 1 (SL1) and Structured Lipid 2 (SL2) were used instead of BL1 and BL2, respectively. The aim of this study was to compare wound closure evolution among rats treated with the blends or structured lipids versus control rats treated with physiological saline. The wound healing process was evaluated by measuring the wound areas along the treatments and the concentrations of cytokines. An increase in the areas of wounds treated with the blends and structured lipids in the inflammatory phase was observed, followed by a steeper closure curve compared to wounds treated with physiological saline. The changes observed during the inflammatory phase suggest a potential therapeutic application in cutaneous wound healing which should be further investigated.

Published

2015

41. Plasma cytokine expression after lower-limb compression in rats

Author

Mauricio Wanderley Moral Sgarbi, Bomfim Alves Silva Júnior, Carmem Maldonado Peres, Tatiana Carolina Alba Loureiro, Rui Curi, Francisco Garcia Soriano, Daniel Araki Ribeiro, and Irineu Tadeu Velasco

Subjects

Síndrome de esmagamento, Modelos animais, Interleucinas, Fator de necrose tumoral α, Medicine, Orthopedic surgery, RD701-811

Abstract

OBJECTIVES: Muscle injury due to crushing (muscle compression injury) is associated with systemic manifestations known as crush syndrome. A systemic inflammatory reaction may also be triggered by isolated muscle injury. The aim of this study was to investigate the plasma levels of interleukins (IL) 1, 6 and 10 and tumor necrosis factor alpha (TNF-α), which are markers for possible systemic inflammatory reactions, after isolated muscle injury resulting from lower-limb compression in rats.METHODS: Male Wistar rats were subjected to 1 h of compression of their lower limbs by means of a rubber band. The plasma levels of IL 1, 6 and 10 and TNF-α were measured 1, 2 and 4 h after the rats were released from compression.RESULTS: The plasma levels of IL 10 decreased in relation to those of the other groups, with a statistically significant difference (p < 0.05). The method used did not detect the presence of IL 1, IL 6 or TNF-α.CONCLUSION: Our results demonstrated that the changes in plasma levels of IL 10 that were found may have been a sign of the presence of circulating interleukins in this model of lower-limb compression in rats.

Published

2015

42. Hypertrophy Stimulation at the Onset of Type I Diabetes Maintains the Soleus but Not the EDL Muscle Mass in Wistar Rats

Author

Marco A. S. Fortes, Maria V. M. Scervino, Gabriel N. Marzuca-Nassr, Kaio F. Vitzel, Carlos H. da Justa Pinheiro, and Rui Curi

Subjects

skeletal muscle, protein synthesis, muscle strength, hyperglycemia, electrostimulation, muscle mass regulation, Physiology, QP1-981

Abstract

Diabetes mellitus induces a reduction in skeletal muscle mass and strength. Strength training is prescribed as part of treatment since it improves glycemic control and promotes increase of skeletal muscle mass. The mechanisms involved in overload-induced muscle hypertrophy elicited at the establishment of the type I diabetic state was investigated in Wistar rats. The purpose was to examine whether the overload-induced hypertrophy can counteract the hypotrophy associated to the diabetic state. The experiments were performed in oxidative (soleus) or glycolytic (EDL) muscles. PI3K/Akt/mTOR protein synthesis pathway was evaluated 7 days after overload-induced hypertrophy of soleus and of EDL muscles. The mRNA expression of genes associated with different signaling pathways that control muscle hypertrophy was also evaluated: mechanotransduction (FAK), Wnt/β-catenin, myostatin, and follistatin. The soleus and EDL muscles when submitted to overload had similar hypertrophic responses in control and diabetic animals. The increase of absolute and specific twitch and tetanic forces had the same magnitude as muscle hypertrophic response. Hypertrophy of the EDL muscle from diabetic animals mostly involved mechanical loading-stimulated PI3K/Akt/mTOR pathway besides the reduced activation of AMP-activated protein kinase (AMPK) and decrease of myostatin expression. Hypertrophy was more pronounced in the soleus muscle of diabetic animals due to a more potent activation of rpS6 and increased mRNA expression of insulin-like growth factor-1 (IGF-1), mechano-growth factor (MGF) and follistatin, and decrease of myostatin, MuRF-1 and atrogin-1 contents. The signaling changes enabled the soleus muscle mass and force of the diabetic rats to reach the values of the control group.

Published

2017

43. Prophylactic Supplementation of Bifidobacterium longum 51A Protects Mice from Ovariectomy-Induced Exacerbated Allergic Airway Inflammation and Airway Hyperresponsiveness

Author

Eduardo Mendes, Beatriz G. Acetturi, Andrew M. Thomas, Flaviano dos S. Martins, Amanda R. Crisma, Gilson Murata, Tárcio T. Braga, Niels O. S. Camâra, Adriana L. dos S. Franco, João C. Setubal, Willian R. Ribeiro, Claudete J. Valduga, Rui Curi, Emmanuel Dias-Neto, Wothan Tavares-de-Lima, and Caroline M. Ferreira

Subjects

probiotic, Bifidobacterium longum, airway inflammation, ovariectomy, microbiota, Microbiology, QR1-502

Abstract

Asthma is a chronic inflammatory disease that affects more females than males after puberty, and its symptoms and severity in women change during menstruation and menopause. Recently, evidence has demonstrated that interactions among the microbiota, female sex hormones, and immunity are associated with the development of autoimmune diseases. However, no studies have investigated if therapeutic gut microbiota modulation strategies could affect asthma exacerbation during menstruation and menopause. Here we aimed to examine the preventive effects of a probiotic, Bifidobacterium longum 51A, on airway inflammation exacerbation in allergic ovariectomized mice. We first evaluated the gut microbiota composition and diversity in mice 10 days after ovariectomy. Next, we examined whether re-exposure of ovariectomized allergic mice to antigen (ovalbumin) would lead to exacerbation of lung inflammation. Finally, we evaluated the preventive and treatment effect of B. longum 51A on lung inflammation and airway hyperresponsiveness. Our results showed that whereas ovariectomy caused no alterations in the gut microbiota composition and diversity in this animal model, 10 days after ovariectomy, preventive use administration of B. longum 51A, rather than its use after surgery was capable of attenuate the exacerbated lung inflammation and hyperresponsiveness in ovariectomized allergic mice. This prophylactic effect of B. longum 51A involves acetate production, which led to increased fecal acetate levels and, consequently, increased Treg cells in ovariectomized allergic mice.

Published

2017

44. Correction: Oral Administration of Linoleic Acid Induces New Vessel Formation and Improves Skin Wound Healing in Diabetic Rats.

Author

Hosana G Rodrigues, Marco A R Vinolo, Fabio T Sato, Juliana Magdalon, Carolina M C Kuhl, Ana S Yamagata, Ana Flávia M Pessoa, Gabriella Malheiros, Marinilce F Dos Santos, Camila Lima, Sandra H Farsky, Niels O S Camara, Maria R Williner, Claudio A Bernal, Philip C Calder, and Rui Curi

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0165115.].

Published

2017

45. Comparison of Goto-Kakizaki rats and high fat diet-induced obese rats: Are they reliable models to study Type 2 Diabetes mellitus?

Author

Wilson Mitsuo Tatagiba Kuwabara, Ana Carolina Panveloski-Costa, Caroline Naomi Fukusawa Yokota, Joice Naiara Bertaglia Pereira, Jorge Mancini Filho, Rosangela Pavan Torres, Sandro Massao Hirabara, Rui Curi, and Tatiana Carolina Alba-Loureiro

Subjects

Medicine, Science

Abstract

Type 2 Diabetes mellitus (T2DM) is an evident growing disease that affects different cultures throughout the world. T2DM occurs under the influence of three main factors: the genetic background, environmental and behavioral components. Obesity is strongly associated to the development of T2DM in the occident, while in the orient most of the diabetic patients are considered lean. Genetics may be a key factor in the development of T2DM in societies where obesity is not a recurrent public health problem. Herein, two different models of rats were used to understand their differences and reliability as experimental models to study the pathophysiology of T2DM, in two different approaches: the genetic (GK rats) and the environmental (HFD-induced obese rats) influences. GK rats were resistant to weight gain even though food/energy consumption (relative to body weight) was higher in this group. HFD, on the other hand, induced obesity in Wistar rats. White adipose tissue (WAT) expansion in this group was accompanied by immune cells infiltration, inflammation and insulin resistance. GK rats also presented WAT inflammation and insulin resistance; however, no immune cells infiltration was observed in the WAT of this group. Liver of HFD group presented fat accumulation without differences in inflammatory cytokines content, while liver of GK rats didn't present fat accumulation, but showed an increase of IL-6 and IL-10 content and glycogen. Also, GK rats showed increased plasma GOT and GPT. Soleus muscle of HFD presented normal insulin signaling, contrary to GK rats, which presented higher content of basal phosphorylation of GSK-3β. Our results demonstrated that HFD developed a mild insulin resistance in Wistar rats, but was not sufficient to develop T2DM. In contrast, GK rats presented all the typical hallmarks of T2DM, such as insulin resistance, defective insulin production, fasting hyperglycemia/hyperinsulinemia and lipid plasma alteration. Thus, on the given time point of this study, we may conclude that only GK rats shown to be a reliable model to study T2DM.

Published

2017

46. Pharmaceutical consultation as a tool to improve health outcomes for patients with type 2 diabetes

Author

Arnaldo Zubioli, Maria Angélica Rafaini Covas Pereira da Silva, Raquel Soares Tasca, Rui Curi, and Roberto Barbosa Bazotte

Subjects

Atenção farmacêutica, Diabetes tipo 2, Consulta farmacêutica, Hemoglobina glicada, Educação em diabetes, Farmácia, Pharmaceutical care, Type 2 diabetes, Pharmaceutical consultation, Glycated hemoglobin, Diabetes education, Pharmacy, Pharmacy and materia medica, RS1-441

Abstract

This study develops and evaluates a pharmaceutical consultation program (PCP) to improve treatment for Type 2 diabetes patients (T2DP) and reduce risk factors for diabetic complications with possible application in other chronic diseases. We recruited T2DP receiving conventional medical treatment but with fasting glycemia >140mg/dl and/or glycated hemoglobin >7%. The PCP includes strategies obtained from Dader's method, the PWDT (Pharmacist's Workup of Drug Therapy method) model of pharmaceutical care, the SOAP (Subjective data, Objective data, Assessment, and Plan of care) method, and concepts based on a nursing care model. The PCP evaluated lifestyle, pharmacotherapy and monitoring it using laboratory tests, vital signs, and anthropometry. These procedures were repeated every 4 months for 1 year. Data obtained in each consultation were used to provide patient education focusing on healthy lifestyles and medications. Fifty patients completed the PCP. There were reductions in glycemia (PNeste estudo, desenvolvemos e avaliamos um programa de consulta farmacêutica (PCF) visando melhorar o tratamento de pacientes diabéticos tipo 2 (PDT2) e reduzir os fatores de risco de complicações diabéticas com possibilidade de aplicação em outras doenças crônicas. Para alcançar este propósito, PDT2 recebendo tratamento médico convencional, apresentando glicemia de jejum > 140 mg/dl e/ou hemoglobina glicada >7% foram selecionados. O PCF inclui estratégias obtidas a partir do método de Dader, do modelo de cuidados farmacêuticos PWDT (Pharmacist's Workup of Drug Therapy method), do método SOAP (Subjective data, Objective data, Assessment, and Plan of care) e conceitos baseados em um modelo de cuidados em enfermagem. O PCF avaliou o estilo de vida, farmacoterapia e seu monitoramento através de exames laboratoriais, sinais vitais e antropometria. Estes procedimentos foram repetidos a cada 4 meses durante 1 ano. Os dados obtidos em cada consulta possibilitaram oferecer educação focada no estilo de vida e uso de medicamentos. Para os 50 pacientes que concluiram o PCF houve redução da glicemia (P < 0.0001), hemoglobina glicada (P = 0.0022), colesterolemia (P = 0.0072), triacilgliceridemia (P= 0.0204) e pressão arterial (P < 0.0001). O aumento da concordância e a correção dos problemas relacionados a medicamentos contribuíram para melhoria do tratamento. Assim, podemos concluir que o PCF foi adequado para melhorar a saúde de PDT2 ao reduzir fatores de risco de complicações diabéticas.

Published

2013

47. Retraction: Gut Microbiota Is a Key Modulator of Insulin Resistance in TLR 2 Knockout Mice.

Author

Andréa M Caricilli, Paty K Picardi, Lélia L de Abreu, Mirian Ueno, Patrícia O Prada, Eduardo R Ropelle, Sandro Massao Hirabara, Ângela Castoldi, Pedro Vieira, Niels O S Camara, Rui Curi, José B Carvalheira, and Mário J A Saad

Subjects

Biology (General), QH301-705.5

Published

2016

48. Control of Insulin Secretion by Production of Reactive Oxygen Species: Study Performed in Pancreatic Islets from Fed and 48-Hour Fasted Wistar Rats.

Author

Ana Cláudia Munhoz, Patrícia Riva, Daniel Simões, Rui Curi, and Angelo Rafael Carpinelli

Subjects

Medicine, Science

Abstract

Mitochondria and NADPH oxidase are important sources of reactive oxygen species in particular the superoxide radical (ROS) in pancreatic islets. These molecules derived from molecular oxygen are involved in pancreatic β-cells signaling and control of insulin secretion. We examined the involvement of ROS produced through NADPH oxidase in the leucine- and/or glucose-induced insulin secretion by pancreatic islets from fed or 48-hour fasted rats. Glucose-stimulated insulin secretion (GSIS) in isolated islets was evaluated at low (2.8 mM) or high (16.7 mM) glucose concentrations in the presence or absence of leucine (20 mM) and/or NADPH oxidase inhibitors (VAS2870-20 μM or diphenylene iodonium-DPI-5 μM). ROS production was determined in islets treated with dihydroethidium (DHE) or MitoSOX Red reagent for 20 min and dispersed for fluorescence measurement by flow cytometry. NADPH content variation was examined in INS-1E cells (an insulin secreting cell line) after incubation in the presence of glucose (2.8 or 16.7 mM) and leucine (20 mM). At 2.8 mM glucose, VAS2870 and DPI reduced net ROS production (by 30%) and increased GSIS (by 70%) in a negative correlation manner (r = -0.93). At 16.7 mM glucose or 20 mM leucine, both NADPH oxidase inhibitors did not alter insulin secretion neither net ROS production. Pentose phosphate pathway inhibition by treatment with DHEA (75 μM) at low glucose led to an increase in net ROS production in pancreatic islets from fed rats (by 40%) and induced a marked increase (by 144%) in islets from 48-hour fasted rats. The NADPH/NADP+ ratio was increased when INS-1E cells were exposed to high glucose (by 4.3-fold) or leucine (by 3-fold). In conclusion, increased ROS production through NADPH oxidase prevents the occurrence of hypoglycemia in fasting conditions, however, in the presence of high glucose or high leucine levels, the increased production of NADPH and the consequent enhancement of the activity of the antioxidant defenses mitigate the excess of ROS production and allow the secretory process of insulin to take place.

Published

2016

49. Oral Administration of Linoleic Acid Induces New Vessel Formation and Improves Skin Wound Healing in Diabetic Rats.

Author

Hosana G Rodrigues, Marco A R Vinolo, Fabio T Sato, Juliana Magdalon, Carolina M C Kuhl, Ana S Yamagata, Ana Flávia M Pessoa, Gabriella Malheiros, Marinilce F Dos Santos, Camila Lima, Sandra H Farsky, Niels O S Camara, Maria R Williner, Claudio A Bernal, Philip C Calder, and Rui Curi

Subjects

Medicine, Science

Abstract

Impaired wound healing has been widely reported in diabetes. Linoleic acid (LA) accelerates the skin wound healing process in non-diabetic rats. However, LA has not been tested in diabetic animals.We investigated whether oral administration of pure LA improves wound healing in streptozotocin-induced diabetic rats.Dorsal wounds were induced in streptozotocin-induced type-1 diabetic rats treated or not with LA (0.22 g/kg b.w.) for 10 days. Wound closure was daily assessed for two weeks. Wound tissues were collected at specific time-points and used to measure fatty acid composition, and contents of cytokines, growth factors and eicosanoids. Histological and qPCR analyses were employed to examine the dynamics of cell migration during the healing process.LA reduced the wound area 14 days after wound induction. LA also increased the concentrations of cytokine-induced neutrophil chemotaxis (CINC-2αβ), tumor necrosis factor-α (TNF-α) and leukotriene B4 (LTB4), and reduced the expression of macrophage chemoattractant protein-1 (MCP-1) and macrophage inflammatory protein-1 (MIP-1). These results together with the histological analysis, which showed accumulation of leukocytes in the wound early in the healing process, indicate that LA brought forward the inflammatory phase and improved wound healing in diabetic rats. Angiogenesis was induced by LA through elevation in tissue content of key mediators of this process: vascular-endothelial growth factor (VEGF) and angiopoietin-2 (ANGPT-2).Oral administration of LA hastened wound closure in diabetic rats by improving the inflammatory phase and angiogenesis.

Published

2016

50. Walker 256 Tumor Growth Suppression by Crotoxin Involves Formyl Peptide Receptors and Lipoxin A4

Author

Patrícia Brigatte, Odair Jorge Faiad, Roberta Cornélio Ferreira Nocelli, Richardt G. Landgraf, Mario Sergio Palma, Yara Cury, Rui Curi, and Sandra Coccuzzo Sampaio

Subjects

Pathology, RB1-214

Abstract

We investigated the effects of Crotoxin (CTX), the main toxin of South American rattlesnake (Crotalus durissus terrificus) venom, on Walker 256 tumor growth, the pain symptoms associated (hyperalgesia and allodynia), and participation of endogenous lipoxin A4. Treatment with CTX (s.c.), daily, for 5 days reduced tumor growth at the 5th day after injection of Walker 256 carcinoma cells into the plantar surface of adult rat hind paw. This observation was associated with inhibition of new blood vessel formation and decrease in blood vessel diameter. The treatment with CTX raised plasma concentrations of lipoxin A4 and its natural analogue 15-epi-LXA4, an effect mediated by formyl peptide receptors (FPRs). In fact, the treatment with Boc-2, an inhibitor of FPRs, abolished the increase in plasma levels of these mediators triggered by CTX. The blockage of these receptors also abolished the inhibitory action of CTX on tumor growth and blood vessel formation and the decrease in blood vessel diameter. Together, the results herein presented demonstrate that CTX increases plasma concentrations of lipoxin A4 and 15-epi-LXA4, which might inhibit both tumor growth and formation of new vessels via FPRs.

Published

2016