MARIANA MATERA VERAS

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LIM/05 - Laboratório de Poluição Atmosférica Experimental, Hospital das Clínicas, Faculdade de Medicina - Líder

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  • article 460 Citação(ões) na Scopus
    Transcriptomic analysis of purified human cortical microglia reveals age-associated changes
    (2017) GALATRO, Thais F.; HOLTMAN, Inge R.; LERARIO, Antonio M.; VAINCHTEIN, Ilia D.; BROUWER, Nieske; SOLA, Paula R.; VERAS, Mariana M.; PEREIRA, Tulio F.; LEITE, Renata E. P.; MOLLER, Thomas; WES, Paul D.; SOGAYAR, Mari C.; LAMAN, Jon D.; DUNNEN, Wilfred den; PASQUALUCCI, Carlos A.; OBA-SHINJO, Sueli M.; BODDEKE, Erik W. G. M.; MARIE, Suely K. N.; EGGEN, Bart J. L.
    Microglia are essential for CNS homeostasis and innate neuroimmune function, and play important roles in neurodegeneration and brain aging. Here we present gene expression profiles of purified microglia isolated at autopsy from the parietal cortex of 39 human subjects with intact cognition. Overall, genes expressed by human microglia were similar to those in mouse, including established microglial genes CX3CR1, P2RY12 and ITGAM (CD11B). However, a number of immune genes, not identified as part of the mouse microglial signature, were abundantly expressed in human microglia, including TLR, F-c gamma and SIGLEC receptors, as well as TAL1 and IFI16, regulators of proliferation and cell cycle. Age-associated changes in human microglia were enriched for genes involved in cell adhesion, axonal guidance, cell surface receptor expression and actin (dis)assembly. Limited overlap was observed in microglial genes regulated during aging between mice and humans, indicating that human and mouse microglia age differently.
  • article 5 Citação(ões) na Scopus
    Maternal exposure to air pollution alters energy balance transiently according to gender and changes gut microbiota
    (2023) ZORDAO, Olivia Pizetta; CAMPOLIM, Clara Machado; YARIWAKE, Victor Yuji; CASTRO, Gisele; FERREIRA, Clilton Krauess de Oliveira; SANTOS, Andrey; NORBERTO, Sonia; VERAS, Mariana Matera; SAAD, Mario Jose Abdalla; SALDIVA, Paulo Hilario Nascimento; KIM, Young-Bum; PRADA, Patricia Oliveira
    IntroductionThe timing of maternal exposure to air pollution is crucial to define metabolic changes in the offspring. Here we aimed to determine the most critical period of maternal exposure to particulate matter (PM2.5) that impairs offspring's energy metabolism and gut microbiota composition. MethodsUnexposed female and male C57BL/6J mice were mated. PM2.5 or filtered air (FA) exposure occurred only in gestation (PM2.5/FA) or lactation (FA/PM2.5). We studied the offspring of both genders. ResultsPM(2.5) exposure during gestation increased body weight (BW) at birth and from weaning to young in male adulthood. Leptin levels, food intake, Agrp, and Npy levels in the hypothalamus were also increased in young male offspring. Ikbke, Tnf increased in male PM2.5/FA. Males from FA/PM2.5 group were protected from these phenotypes showing higher O-2 consumption and Ucp1 in the brown adipose tissue. In female offspring, we did not see changes in BW at weaning. However, adult females from PM2.5/FA displayed higher BW and leptin levels, despite increased energy expenditure and thermogenesis. This group showed a slight increase in food intake. In female offspring from FA/PM2.5, BW, and leptin levels were elevated. This group displayed higher energy expenditure and a mild increase in food intake. To determine if maternal exposure to PM2.5 could affect the offspring's gut microbiota, we analyzed alpha diversity by Shannon and Simpson indexes and beta diversity by the Linear Discriminant Analysis (LDA) in offspring at 30 weeks. Unlike males, exposure during gestation led to higher adiposity and leptin maintenance in female offspring at this age. Gestation exposure was associated with decreased alpha diversity in the gut microbiota in both genders. DiscussionOur data support that exposure to air pollution during gestation is more harmful to metabolism than exposure during lactation. Male offspring had an unfavorable metabolic phenotype at a young age. However, at an older age, only females kept more adiposity. Ultimately, our data highlight the importance of controlling air pollution, especially during gestation.
  • article 45 Citação(ões) na Scopus
    Pre- and postnatal exposure of mice to concentrated urban PM2.5 decreases the number of alveoli and leads to altered lung function at an early stage of life
    (2018) LOPES, Thais de Barros Mendes; GROTH, Espen E.; VERAS, Mariana; FURUYA, Tatiane K.; COSTA, Natalia de Souza Xavier; RIBEIRO JUNIOR, Gabriel; LOPES, Fernanda Degobbi; ALMEIDA, Francine M. de; CARDOSO, Wellington V.; SALDIVA, Paulo Hilario Nascimento; CHAMMAS, Roger; MAUAD, Thais
    Gestational exposure to air pollution is associated with negative outcomes in newborns and children. In a previous study, we demonstrated a synergistic negative effect of pre- and postnatal exposure to PM2.5 on lung development in mice. However, the means by which air pollution affects development of the lung have not yet been identified. In this study, we exposed pregnant BALB/c mice and their offspring to concentrated urban PM2.5 (from Sao Paulo, Brazil; target dose 600 mu g/m(3) for 1 h daily). Exposure was started on embryonic day 5.5 (E5.5, time of placental implantation). Lung tissue of fetuses and offspring was submitted to stereological and transcriptomic analyses at E14.5 (pseudoglandular stage of lung development), E18.5 (saccular stage) and P40 (postnatal day 40, alveolarized lung). Additionally, lung function and cellularity of bronchoalveolar lavage (BAL) fluid were studied in offspring animals at P40. Compared to control animals that were exposed to filtered air throughout gestation and postnatal life, PM-exposed mice exhibited higher lung elastance and a lower alveolar number at P40 whilst the total lung volume and cellularity of BAL fluid were not affected. Glandular and saccular structures of fetal lungs were not altered upon gestational exposure; transcriptomic signatures, however, showed changes related to DNA damage and its regulation, inflammation and regulation of cell proliferation. A differential expression was validated at E14.5 for the candidates Sox8, Angptl4 and Gas1. Our data substantiate the in utero biomolecular effect of gestational exposure to air pollution and provide first-time stereological evidence that pre- and early life-postnatal exposure compromise lung development, leading to a reduced number of alveoli and an impairment of lung function in the adult mouse.
  • article 4 Citação(ões) na Scopus
    Effects of cannabis and its components on the retina: a systematic review
    (2020) ZANTUT, Paulo R. A.; VERAS, Mariana M.; YARIWAKE, Victor Y.; TAKAHASHI, Walter Y.; SALDIVA, Paulo H.; YOUNG, Lucy H.; DAMICO, Francisco Max; FAJERSZTAJN, Lais
    Purpose: Cannabis is the most prevalent drug in the world and its consumption is growing. Cannabinoid receptors are present in the human central nervous system. Recent studies show evidence of the effects of cannabinoids on the retina, and synthesising the results of these studies may be relevant for ophthalmologists. Thus, this review adopts standardised, systematic review methodology to investigate the effects of exposure to cannabis and components on the retina. Methods: We searched five online databases for the combined terms for outcome (""retina"") and exposure (""cannabis""). Eligibility of studies were conducted by two independent reviewers, and risk of bias was assessed. Results: We retrieved 495 studies, screened 229 studies, assessed 52 studies for eligibility, and included 16 studies for qualitative analysis. The cannabinoids most frequently investigated were delta-9-tetrahydrocannabinol (THC), abnormal cannabidiol, synthetic cannabinoid, and cannabidiol (CDB). The outcomes most studied were neuroretinal dysfunction, followed by vascular effects. The studies also included investigation of neuroprotective and anti-inflammatory effects and teratogenic effects. Conclusions: This review suggests that cannabinoids may have an important role in retinal processing and function.
  • article 23 Citação(ões) na Scopus
    Immune-pineal axis protects rat lungs exposed to polluted air
    (2020) CARVALHO-SOUSA, Claudia Emanuele; PEREIRA, Eliana P.; KINKER, Gabriela S.; VERAS, Mariana; FERREIRA, Zulma S.; BARBOSA-NUNES, Fernanda P.; MARTINS, Joilson O.; SALDIVA, Paulo H. N.; REITER, Russel J.; FERNANDES, Pedro A.; CRUZ-MACHADO, Sanseray da Silveira; MARKUS, Regina P.
    Environmental pollution in the form of particulate matter <2.5 mu m (PM2.5) is a major risk factor for diseases such as lung cancer, chronic respiratory infections, and major cardiovascular diseases. Our goal was to show that PM2.5 eliciting a proinflammatory response activates the immune-pineal axis, reducing the pineal synthesis and increasing the extrapineal synthesis of melatonin. Herein, we report that the exposure of rats to polluted air for 6 hours reduced nocturnal plasma melatonin levels and increased lung melatonin levels. Melatonin synthesis in the lung reduced lipid peroxidation and increased PM2.5 engulfment and cell viability by activating high-affinity melatonin receptors. Diesel exhaust particles (DEPs) promoted the synthesis of melatonin in a cultured cell line (RAW 264.7 cells) and rat alveolar macrophages via the expression of the gene encoding for AANAT through a mechanism dependent on activation of the NF kappa B pathway. Expression of the genes encoding AANAT, MT1, and MT2 was negatively correlated with cellular necroptosis, as disclosed by analysis of Gene Expression Omnibus (GEO) microarray data from the human alveolar macrophages of nonsmoking subjects. The enrichment score for antioxidant genes obtained from lung gene expression data (GTEx) was significantly correlated with the levels of AANAT and MT1 but not the MT2 melatonin receptor. Collectively, these data provide a systemic and mechanistic rationale for coordination of the pineal and extrapineal synthesis of melatonin by a standard damage-associated stimulus, which activates the immune-pineal axis and provides a new framework for understanding the effects of air pollution on lung diseases.
  • article 40 Citação(ões) na Scopus
    Short-term exposure to air pollution (PM2.5) induces hypothalamic inflammation, and long-term leads to leptin resistance and obesity via Tlr4/Ikbke in mice
    (2020) CAMPOLIM, Clara Machado; WEISSMANN, Lais; FERREIRA, Clilton Krauess de Oliveira; ZORDAO, Olivia Pizetta; DORNELLAS, Ana Paula Segantine; CASTRO, Gisele de; ZANOTTO, Tamires Marques; BOICO, Vitor Ferreira; QUARESMA, Paula Gabriele Fernandes; LIMA, Raquel Patricia Ataide; DONATO, Jose; VERAS, Mariana Matera; SALDIVA, Paulo Hilario Nascimento; KIM, Young-Bum; PRADA, Patricia Oliveira
    A previous study demonstrated that a high-fat diet (HFD), administered for one-three-days, induces hypothalamic inflammation before obesity's established, and the long term affects leptin signaling/action due to inflammation. We investigate whether exposure to particulate matter of a diameter of <= 2.5 mu m (PM2.5) in mice fed with a chow diet leads to similar metabolic effects caused by high-fat feeding. Compared to the filtered air group (FA), one-day-exposure-PM2.5 did not affect adiposity. However, five-days-exposure-PM2.5 increased hypothalamic microglia density, toll-like-receptor-4 (Tlr4), and the inhibitor-NF-kappa-B-kinase-epsilon (Ikbke) expression. Concurrently, fat mass, food intake (FI), and ucp1 expression in brown adipose tissue were also increased. Besides, decreased hypothalamic STAT3-phosphorylation and Pomc expression were found after twelve-weeks-exposure-PM2.5. These were accompanied by increased FI and lower energy expenditure (EE), leading to obesity, along with increased leptin and insulin levels and HOMA. Mechanistically, the deletion of Tlr4 or knockdown of the Ikbke gene in the hypothalamus was sufficient to reverse the metabolic outcomes of twelve-weeks-exposure-PM2.5. These data demonstrated that short-term exposure-PM2.5 increases hypothalamic inflammation, similar to a HFD. Long-term exposure-PM2.5 is even worse, leading to leptin resistance, hyperphagia, and decreased EE. These effects are most likely due to chronic hypothalamic inflammation, which is regulated by Tlr4 and Ikbke signaling.
  • article 3 Citação(ões) na Scopus
    Accumulation of trace element content in the lungs of Sao Paulo city residents and its correlation to lifetime exposure to air pollution
    (2022) SANTOS, Nathalia Villa dos; VIEIRA, Carolina Leticia Zilli; SALDIVA, Paulo Hilario Nascimento; ANDRE, Carmen Diva Saldiva De; MAZZILLI, Barbara Paci; ANDRADE, Maria de Fatima; SAUEIA, Catia Heloisa; SAIKI, Mitiko; VERAS, Mariana Matera; KOUTRAKIS, Petros
    Heavy metals are natural and essential elements of the environment and living beings, produced from natural (e.g. volcanic activity and cosmic ray-induced spallation) and anthropogenic processes (e.g. industrial and fossil fuel combustion). High-concentrations of heavy metals and radionuclides are also originated from anthropogenic activities in urban and industrial areas. In this preliminary study, we analyzed the levels of heavy metals and Polonium-210 (Po-210) in lung tissues in autopsies from residents of the city of Sao Paulo, SP, Brazil. In order to identify the link among sources of the heavy metals in lungs, factor analysis was performed. Of the first four factors, which explain 66% of the total variability, three were associated with vehicular sources. The fitting of a regression model with Po-210 as the response variable and with the four factors as explanatory variables, controlling for age, sex and tobacco, showed a significant association between the concentration of polonium and the first factor that is generated by catalysts and brakes (coefficient = 0.90, standard error = 0.33, p = 0.016). Our findings suggest an association between traffic-related trace metals and Po-210 in lung autopsies.
  • article 2 Citação(ões) na Scopus
    A method to assess heart rate variability in neonate rats: validation in normotensive and hypertensive animals
    (2020) FREITAS, S. C. F.; SANTOS, C. Paixao dos; ARNOLD, A.; STOYELL-CONTI, F. F.; DUTRA, M. R. H.; VERAS, M.; IRIGOYEN, M. C.; ANGELIS, K. De
    Several studies have focused on the heart rate variability (HRV) of murine species, while studies discussing HRV in murine neonates and infants remain scarce, since recording hemodynamic signals through invasive methods in small animals has been found to be quite challenging. Thus, this study aimed at describing and validating a novel method to assess HRV in newborn rats. An electrocardiogram (ECG) system was used to determine RR intervals in awake newborns and evaluate HRV in normotensive (Wistar) and hypertensive (SHR) neonate rats. After birth, ECG was recorded in the awake newborns, and they were allowed to rest on a heated surface, restricted only by the weight of the adhesive ECG electrodes. The electrodes were cut and adapted to provide more comfort to the animal, and gently placed on the newborn's skin. RR intervals were recorded over a 30-min period using an ECG system together with LabChart software (4 KHz). Three sequences of 5 min each from the ECG recording period were analyzed in time and frequency domains, using CardioSeries software. ECG data resulted in a clearly interpretable signal that was used to generate an RR interval sequence through time for the analysis of HRV. SHR neonates presented increased cardiac sympathovagal balance compared to Wistar neonates (low frequency/high frequency: 3.85 +/- 0.71 vs 0.90 +/- 0.09). In conclusion, the ECG setup here described may be used to record RR intervals to assess HRV in neonate rats, thus detecting early impairment of HRV in hypertensive newborns.