Your search keyword '"Massimo Federici"' showing total 339 results

1. Decreased circulating IPA levels identify subjects with metabolic comorbidities: A multi-omics study

Author

Marta Ballanti, Lorenzo Antonetti, Maria Mavilio, Viviana Casagrande, Alessandro Moscatelli, Daniele Pietrucci, Adelaide Teofani, Chiara Internò, Marina Cardellini, Omero Paoluzi, Giovanni Monteleone, Philippe Lefebvre, Bart Staels, Geltrude Mingrone, Rossella Menghini, and Massimo Federici

Subjects

IPA, Gut, Cross-omics, Untargeted metabolomics, Genomics, Diagnostic, Therapeutics. Pharmacology, RM1-950

Abstract

In recent years several experimental observations demonstrated that the gut microbiome plays a role in regulating positively or negatively metabolic homeostasis. Indole-3-propionic acid (IPA), a Tryptophan catabolic product mainly produced by C. Sporogenes, has been recently shown to exert either favorable or unfavorable effects in the context of metabolic and cardiovascular diseases. We performed a study to delineate clinical and multiomics characteristics of human subjects characterized by low and high IPA levels. Subjects with low IPA blood levels showed insulin resistance, overweight, low-grade inflammation, and features of metabolic syndrome compared to those with high IPA. Metabolomics analysis revealed that IPA was negatively correlated with leucine, isoleucine, and valine metabolism. Transcriptomics analysis in colon tissue revealed the enrichment of several signaling, regulatory, and metabolic processes. Metagenomics revealed several OTU of ruminococcus, alistipes, blautia, butyrivibrio and akkermansia were significantly enriched in highIPA group while in lowIPA group Escherichia-Shigella, megasphera, and Desulfovibrio genus were more abundant.Next, we tested the hypothesis that treatment with IPA in a mouse model may recapitulate the observations of human subjects, at least in part. We found that a short treatment with IPA (4 days at 20/mg/kg) improved glucose tolerance and Akt phosphorylation in the skeletal muscle level, while regulating blood BCAA levels and gene expression in colon tissue, all consistent with results observed in human subjects stratified for IPA levels. Our results suggest that treatment with IPA may be considered a potential strategy to improve insulin resistance in subjects with dysbiosis.

Published

2024

2. Macrophage polarization and metabolism in atherosclerosis

Author

Pengbo Hou, Jiankai Fang, Zhanhong Liu, Yufang Shi, Massimiliano Agostini, Francesca Bernassola, Pierluigi Bove, Eleonora Candi, Valentina Rovella, Giuseppe Sica, Qiang Sun, Ying Wang, Manuel Scimeca, Massimo Federici, Alessandro Mauriello, and Gerry Melino

Subjects

Cytology, QH573-671

Abstract

Abstract Atherosclerosis is a chronic inflammatory disease characterized by the accumulation of fatty deposits in the inner walls of vessels. These plaques restrict blood flow and lead to complications such as heart attack or stroke. The development of atherosclerosis is influenced by a variety of factors, including age, genetics, lifestyle, and underlying health conditions such as high blood pressure or diabetes. Atherosclerotic plaques in stable form are characterized by slow growth, which leads to luminal stenosis, with low embolic potential or in unstable form, which contributes to high risk for thrombotic and embolic complications with rapid clinical onset. In this complex scenario of atherosclerosis, macrophages participate in the whole process, including the initiation, growth and eventually rupture and wound healing stages of artery plaque formation. Macrophages in plaques exhibit high heterogeneity and plasticity, which affect the evolving plaque microenvironment, e.g., leading to excessive lipid accumulation, cytokine hyperactivation, hypoxia, apoptosis and necroptosis. The metabolic and functional transitions of plaque macrophages in response to plaque microenvironmental factors not only influence ongoing and imminent inflammatory responses within the lesions but also directly dictate atherosclerotic progression or regression. In this review, we discuss the origin of macrophages within plaques, their phenotypic diversity, metabolic shifts, and fate and the roles they play in the dynamic progression of atherosclerosis. It also describes how macrophages interact with other plaque cells, particularly T cells. Ultimately, targeting pathways involved in macrophage polarization may lead to innovative and promising approaches for precision medicine. Further insights into the landscape and biological features of macrophages within atherosclerotic plaques may offer valuable information for optimizing future clinical treatment for atherosclerosis by targeting macrophages.

Published

2023

3. The potential effect of natural antioxidants on endothelial dysfunction associated with arterial hypertension

Author

Rosamaria Caminiti, Cristina Carresi, Rocco Mollace, Roberta Macrì, Federica Scarano, Francesca Oppedisano, Jessica Maiuolo, Maria Serra, Stefano Ruga, Saverio Nucera, Annamaria Tavernese, Micaela Gliozzi, Vincenzo Musolino, Ernesto Palma, Carolina Muscoli, Speranza Rubattu, Maurizio Volterrani, Massimo Federici, Massimo Volpe, and Vincenzo Mollace

Subjects

natural antioxidants, arterial hypertension, cardiovascular disease, endothelial dysfunction, ROS, NO, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Arterial hypertension represents a leading cause of cardiovascular morbidity and mortality worldwide, and the identification of effective solutions for treating the early stages of elevated blood pressure (BP) is still a relevant issue for cardiovascular risk prevention. The pathophysiological basis for the occurrence of elevated BP and the onset of arterial hypertension have been widely studied in recent years. In addition, consistent progress in the development of novel, powerful, antihypertensive drugs and their appropriate applications in controlling BP have increased our potential for successfully managing disease states characterized by abnormal blood pressure. However, the mechanisms responsible for the disruption of endogenous mechanisms contributing to the maintenance of BP within a normal range are yet to be fully clarified. Recently, evidence has shown that several natural antioxidants containing active ingredients originating from natural plant extracts, used alone or in combination, may represent a valid solution for counteracting the development of arterial hypertension. In particular, there is evidence to show that natural antioxidants may enhance the viability of endothelial cells undergoing oxidative damage, an effect that could play a crucial role in the pathophysiological events accompanying the early stages of arterial hypertension. The present review aims to reassess the role of oxidative stress on endothelial dysfunction in the onset and progression of arterial hypertension and that of natural antioxidants in covering several unmet needs in the treatment of such diseases.

Published

2024

4. Effect of oral melatonin treatment on insulin resistance and diurnal blood pressure variability in night shift workers. A double-blind, randomized, placebo-controlled study

Author

Juliane Hannemann, Anika Laing, Benita Middleton, Edzard Schwedhelm, Nikolaus Marx, Massimo Federici, Mariola Kastner, Debra J. Skene, and Rainer Böger

Subjects

Type 2 diabetes mellitus, Circadian rhythm, Cardiometabolic risk, Diurnal rhythm, 24- hour blood pressure, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Night shift work is associated with sleep disturbances, obesity, and cardiometabolic diseases. Disruption of the circadian clock system has been suggested to be an independent cause of type 2 diabetes and cardiovascular disease in shift workers. We aimed to improve alignment of circadian timing with social and environmental factors with administration of melatonin. Methods: In a randomized, placebo-controlled, prospective study, we analysed the effects of 2 mg of sustained-release melatonin versus placebo on glucose tolerance, insulin resistance indices, sleep quality, circadian profiles of plasma melatonin and cortisol, and diurnal blood pressure profiles in 24 rotating night shift workers during 12 weeks of treatment, followed by 12 weeks of wash-out. In a novel design, the time of melatonin administration (at night or in the morning) depended upon the shift schedule. We also compared the baseline profiles of the night shift (NS) workers with 12 healthy non-night shift (NNS)-working controls. Results: We found significantly impaired indices of insulin resistance at baseline in NS versus NNS (p

Published

2024

5. Sex Related Differences and Factors Associated With Peri-Procedural and One Year Mortality in Chronic Limb Threatening Ischaemia Patients

Author

Eugenio Martelli, Matilde Zamboni, Giovanni Sotgiu, Laura Saderi, Massimo Federici, Giuseppe Sangiorgi, Mariangela Valentina Puci, Allegra Rosa Martelli, Teresa Messina, Paolo Frigatti, Maria Pia Borrelli, Carlo Ruotolo, Ilaria Ficarelli, Paolo Rubino, Francesco Pezzo, Luciano Carbonari, Andrea Angelini, Edoardo Galeazzi, Luca Calia di Pinto, Franco Michelino Fiore, Armando Palmieri, Giorgio Ventoruzzo, Giulia Mazzitelli, Franco Ragni, Antonio Bozzani, Enzo Forliti, Claudio Castagno, Pietro Volpe, Mafalda Massaro, Diego Moniaci, Elisa Pagliasso, Tania Peretti, Mauro Ferrari, Nicola Troisi, Piero Modugno, Maurizio Maiorano, Umberto Marcello Bracale, Marco Panagrosso, Mario Monaco, Giovanni Giordano, Giuseppe Natalicchio, Antonella Biello, Giovanni Maria Celoria, Alessio Amico, Mauro Di Bartolo, Massimiliano Martelli, Roberta Munaò, Davide Razzano, Giovanni Colacchio, Francesco Bussetti, Gaetano Lanza, Antonio Cardini, Bartolomeo Di Benedetto, Mario De Laurentis, Maurizio Taurino, Pasqualino Sirignano, Pierluigi Cappiello, Andrea Esposito, Santi Trimarchi, Silvia Romagnoli, Andrea Padricelli, Giorgio Giudice, Adolfo Crinisio, Giovanni Di Nardo, Giuseppe Battaglia, Rosario Tringale, Salvatore De Vivo, Rita Compagna, Valerio Stefano Tolva, Ilenia D'Alessio, Ruggiero Curci, Simona Giovannetti, Giuseppe D'Arrigo, Giusi Basile, Dalmazio Frigerio, Gianfranco Veraldi, Luca Mezzetto, Arnaldo Ippoliti, Fabio Massimo Oddi, and Alberto Maria Settembrini

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701, Surgery, RD1-811

Published

2024

6. TIMP3 overexpression in myeloid lineage alleviates pancreatic damage and confers resistance to the development of type 1 diabetes in the MLDS -induced model

Author

Viviana Casagrande, Stefano Menini, Chiara Internò, Giuseppe Pugliese, Massimo Federici, and Rossella Menghini

Subjects

pancreas, diabetes, TIMP3, myeloid cells, insulitis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

IntroductionType 1 diabetes mellitus (T1DM) development involves a complex interplay of genetic, environmental, and immunological factors. By modulating the activity of proteases and receptors, the protein tissue inhibitor of metalloproteinase 3 (TIMP3) plays a role in limiting the expression and function of pro-inflammatory cytokines, which have been implicated in the advancement of T1DM. This study was aimed at examining the effect of TIMP3 overexpression in myeloid cells on the development of T1DM.Methods and resultsTwelve weeks after multiple low doses of streptozotocin (MLDS) treatment, diabetic mice overexpressing TIMP3 specifically in myeloid cells under the CD68 promoter (MacT3 mice) showed improved insulin secretion, islet morphology and vascularization, antioxidant defense system, and regulatory factors of mitochondrial biosynthesis and function. To get mechanistic insights into the origin of this protection, the severity of insulitis and inflammatory parameters were evaluated in pancreatic tissues 11 days after MLSD treatment, showing significantly reduced insulitis and levels of the pro-inflammatory cytokine tumor necrosis factor-α, interleukin -1β, and interferon -γ in MacT3 mice.DiscussionThe results indicate that TIMP3 is involved in maintaining islet architecture and functions, at least in part, through modulation of pro-inflammatory cytokine production associated with insulitis and may represent a novel therapeutic strategy for T1DM.

Published

2024

7. Modulation of the nitric oxide/cGMP pathway in cardiac contraction and relaxation: Potential role in heart failure treatment

Author

Rocco Mollace, Federica Scarano, Irene Bava, Cristina Carresi, Jessica Maiuolo, Annamaria Tavernese, Micaela Gliozzi, Vincenzo Musolino, Saverio Muscoli, Ernesto Palma, Carolina Muscoli, Daniela Salvemini, Massimo Federici, Roberta Macrì, and Vincenzo Mollace

Subjects

NO/cGMP signalling, NOS uncoupling, Cardiac contraction/relaxation, Oxidative/nitrosative stress, Heart failure, Therapeutic strategies, Therapeutics. Pharmacology, RM1-950

Abstract

Evidence exists that heart failure (HF) has an overall impact of 1–2 % in the global population being often associated with comorbidities that contribute to increased disease prevalence, hospitalization, and mortality. Recent advances in pharmacological approaches have significantly improved clinical outcomes for patients with vascular injury and HF. Nevertheless, there remains an unmet need to clarify the crucial role of nitric oxide/cyclic guanosine 3',5'-monophosphate (NO/cGMP) signalling in cardiac contraction and relaxation, to better identify the key mechanisms involved in the pathophysiology of myocardial dysfunction both with reduced (HFrEF) as well as preserved ejection fraction (HFpEF). Indeed, NO signalling plays a crucial role in cardiovascular homeostasis and its dysregulation induces a significant increase in oxidative and nitrosative stress, producing anatomical and physiological cardiac alterations that can lead to heart failure. The present review aims to examine the molecular mechanisms involved in the bioavailability of NO and its modulation of downstream pathways. In particular, we focus on the main therapeutic targets and emphasize the recent evidence of preclinical and clinical studies, describing the different emerging therapeutic strategies developed to counteract NO impaired signalling and cardiovascular disease (CVD) development.

Published

2023

8. Safety of metformin continuation in diabetic patients undergoing invasive coronary angiography: the NO-STOP single arm trial

Author

Mauro Chiarito, Jorge Sanz-Sanchez, Raffaele Piccolo, Francesco Condello, Gaetano Liccardo, Matteo Maurina, Marisa Avvedimento, Damiano Regazzoli, Paolo Pagnotta, Hector M. Garcia-Garcia, Roxana Mehran, Massimo Federici, Gianluigi Condorelli, Jose Luis Diez Gil, Bernhard Reimers, Giuseppe Ferrante, and Giulio Stefanini

Subjects

Metformin, Metformin-associated lactic acidosis, Percutaneous coronary intervention, Coronary angiography, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Despite paucity of data, it is common practice to discontinue metformin before invasive coronary angiography due to an alleged risk of Metformin-Associated Lactic Acidosis (M-ALA). We aimed at assessing the safety of metformin continuation in diabetic patients undergoing coronary angiography in terms of significant increase in lactate levels. Methods In this open-label, prospective, multicentre, single-arm trial, all diabetic patients undergoing coronary angiography with or without percutaneous coronary intervention at 3 European centers were screened for enrolment. The primary endpoint was the increase in lactate levels from preprocedural levels at 72-h after the procedure. Secondary endpoints included contrast associated-acute kidney injury (CA-AKI), M-ALA, and all-cause mortality. Results 142 diabetic patients on metformin therapy were included. Median preprocedural lactate level was 1.8 mmol/l [interquartile range (IQR) 1.3–2.3]. Lactate levels at 72 h after coronary angiography were 1.7 mmol/l (IQR 1.3–2.3), with no significant differences as compared to preprocedural levels (p = 0.91; median difference = 0; IQR − 0.5 to 0.4 mmol/l). One patient had 72-h levels ≥ 5 mmol/l (5.3 mmol/l), but no cases of M-ALA were reported. CA-AKI occurred in 9 patients (6.1%) and median serum creatinine and estimated glomerular filtration rate remained similar throughout the periprocedural period. At a median follow-up of 90 days (43–150), no patients required hemodialysis and 2 patients died due to non-cardiac causes. Conclusions In diabetic patients undergoing invasive coronary angiography, metformin continuation throughout the periprocedural period does not increase lactate levels and was not associated with any decline in renal function. Trial registration: The study was registered at Clinicaltrials.gov (NCT04766008). Graphical Abstract

Published

2023

9. Human liver microbiota modeling strategy at the early onset of fibrosis

Author

Camille Champion, Radu M. Neagoe, Maria Effernberger, Daniela T. Sala, Florence Servant, Jeffrey E. Christensen, Maria Arnoriaga-Rodriguez, Jacques Amar, Benjamin Lelouvier, Pascale Loubieres, Vincent Azalbert, Matthieu Minty, Charlotte Thomas, Vincent Blasco-Baque, Fabrice Gamboa, Herbert Tilg, Marina Cardellini, Massimo Federici, Jose-Manuel Fernández-Real, Jean Michel Loubes, and Rémy Burcelin

Subjects

Biomathematics, Liver diseases, Metabolic disease, Microbiota, Tissue microbiota, Microbiology, QR1-502

Abstract

Abstract Background Gut microbiota is involved in the development of liver diseases such as fibrosis. We and others identified that selected sets of gut bacterial DNA and bacteria translocate to tissues, notably the liver, to establish a non-infectious tissue microbiota composed of microbial DNA and a low frequency live bacteria. However, the precise set of bacterial DNA, and thereby the corresponding taxa associated with the early stages of fibrosis need to be identified. Furthermore, to overcome the impact of different group size and patient origins we adapted innovative statistical approaches. Liver samples with low liver fibrosis scores (F0, F1, F2), to study the early stages of the disease, were collected from Romania(n = 36), Austria(n = 10), Italy(n = 19), and Spain(n = 17). The 16S rRNA gene was sequenced. We considered the frequency, sparsity, unbalanced sample size between cohorts to identify taxonomic profiles and statistical differences. Results Multivariate analyses, including adapted spectral clustering with L1-penalty fair-discriminant strategies, and predicted metagenomics were used to identify that 50% of liver taxa associated with the early stage fibrosis were Enterobacteriaceae, Pseudomonadaceae, Xanthobacteriaceae and Burkholderiaceae. The Flavobacteriaceae and Xanthobacteriaceae discriminated between F0 and F1. Predicted metagenomics analysis identified that the preQ0 biosynthesis and the potential pathways involving glucoryranose and glycogen degradation were negatively associated with liver fibrosis F1-F2 vs F0. Conclusions Without demonstrating causality, our results suggest first a role of bacterial translocation to the liver in the progression of fibrosis, notably at the earliest stages. Second, our statistical approach can identify microbial signatures and overcome issues regarding sample size differences, the impact of environment, and sets of analyses. Trial registration TirguMECCH ROLIVER Prospective Cohort for the Identification of Liver Microbiota, registration 4065/2014. Registered 01 01 2014.

Published

2023

10. Relationship between retinal microvascular impairment and subclinical atherosclerosis in SLE

Author

Paola Conigliaro, Massimo Cesareo, Maria Sole Chimenti, Carlo Nucci, Raffaele Mancino, Sara Ferrigno, Stefano Rizza, Susanna Longo, Carolina Nesi, Federico Carlucci, Alberto Bergamini, and Massimo Federici

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Objectives Patients with SLE have higher cardiovascular (CV) risk compared with healthy controls (HC) and are characterised by accelerated atherosclerosis; intima media thickness (IMT), marker of subclinical atherosclerosis, is higher in patients with SLE than in HCs. Retinal microvascular impairment detected through optical coherence tomography angiography (OCTA) was investigated as a marker of systemic vascular involvement in SLE.The aim of the study was to evaluate the relationship between retinal vascular impairment and IMT in SLE.Methods Cross-sectional study recruiting patients with SLE and HCs. Data of the study population were collected. CV risk was evaluated through the American College of Cardiology/American Heart Association (ACC/AHA) guidelines, Framingham and QRESEARCH risk estimator V.3 (QRISK3) scores. Both groups underwent OCTA and carotid ultrasound with IMT assessment.Statistical analysis was accomplished using Pearson/Spearman, t-test/Mann-Whitney or χ2 test. Variables statistically significant at univariate regression analysis were tested in an age-corrected and sex-corrected multivariate regression model.Results 43 patients with SLE and 34 HCs were recruited. Patients with SLE showed higher triglycerides (p=0.019), Triglycerides-Glucose (TyG) Index (p=0.035), ACC/AHA guidelines (p=0.001), Framingham Risk Scores (p=0.008) and a reduced superficial (p

Published

2023

11. Pancreatic beta-cell specific BAG3 knockout results in chronic hyperinsulinemia inducing insulin resistance

Author

Verena Damiani, Alessia Lamolinara, Ilaria Cicalini, Maria Concetta Cufaro, Francesco Del Pizzo, Federica Di Marco, Piero Del Boccio, Beatrice Dufrusine, Michael Hahne, Rossano Lattanzio, Damiana Pieragostino, Manuela Iezzi, Massimo Federici, Maria Caterina Turco, Arianna Maiorana, Carlo Dionisi-Vici, and Vincenzo De Laurenzi

Subjects

Glucose homeostasis, BAG3, Primary hyperinsulinism, Insulin resistance, Chronic kidney disease, Internal medicine, RC31-1245

Abstract

Background: Insulin, secreted from pancreatic islets of Langerhans, is of critical importance in regulating glucose homeostasis. Defective insulin secretion and/or the inability of tissues to respond to insulin results in insulin resistance and to several metabolic and organ alterations. We have previously demonstrated that BAG3 regulates insulin secretion. Herein we explored the consequences of beta-cells specific BAG3 deficiency in an animal model. Methods: We generated a beta-cells specific BAG3 knockout mouse model. Glucose and insulin tolerance tests, proteomics, metabolomics, and immunohistochemical analysis were used to investigate the role of BAG3 in regulating insulin secretion and the effects of chronic exposure to excessive insulin release in vivo. Results: Beta-cells specific BAG3 knockout results in primary hyperinsulinism due to excessive insulin exocytosis finally leading to insulin resistance. We demonstrate that resistance is mainly muscle-dependent while the liver remains insulin sensitive. The chronically altered metabolic condition leads in time to histopathological alterations in different organs. We observe elevated glycogen and lipid accumulation in the liver reminiscent of non-alcoholic fatty liver disease as well as mesangial matrix expansion and thickening of the glomerular basement membrane, resembling the histology of chronic kidney disease. Conclusion: Altogether, this study shows that BAG3 plays a role in insulin secretion and provides a model for the study of hyperinsulinemia and insulin resistance.

Published

2023

12. An Investigation of Metabolic Risk Factors and Gut Microbiota in Unexplained Syncope

Author

Susanna Longo, Federica Del Chierico, Matteo Scanu, Francesca Toto, Jacopo M. Legramante, Stefano Rizza, Lorenza Putignani, and Massimo Federici

Subjects

unexplained syncope, gut microbiota, cardiometabolic risk factors, cardiovascular diseases, Biology (General), QH301-705.5

Abstract

Background: The pathogenesis of many syncopal episodes remains unexplained. Intestinal dysbiosis could be involved in the pathophysiological mechanisms of syncope due to its connection with the central nervous system via the microbiota–gut–brain axis. This pilot study aimed to explore the specific cardiometabolic risk factors and gut microbiota in unexplained syncope (US), compared to other types of syncope, to assess their similarity or verify their different origins. Methods: We studied 86 participants with syncope, who were divided into four groups: an orthostatic syncope group (OH, n = 24), a neuromediated syncope group (NMS, n = 26), a cardiological syncope group (CS, n = 9), and an unexplained syncope group (US, n = 27). We evaluated the anthropometric, clinical, and metabolic characteristics of the four groups; the α- and β-diversity; and the differences in the abundance of the microbial taxa. Results: The US group had a lower incidence of systolic hypertension at the first visit and a lower frequency of patients with nocturnal hypertension than the CS group. Compared to the OH and NMS groups, the US group had a higher incidence of carotid plaques and greater carotid intima–media thickness, respectively. The microbiota differed significantly between the US and CS groups, but not between the US group and the OH or NMS group. Conclusions: We observed significant differences in the gut microbiota between CS and US. Future studies are necessary to evaluate the involvement of the gut microbiota in the complex pathogenesis of syncope and whether its analysis could support the interpretation of the pathophysiological mechasnisms underlying some episodes classifiable as US.

Published

2024

13. Beyond the Cardiovascular Effects of Glucagon-like Peptide-1 Receptor Agonists: Body Slimming and Plaque Stabilization. Are New Statins Born?

Author

Dalgisio Lecis, Francesca Romana Prandi, Lucy Barone, Martina Belli, Domenico Sergi, Susanna Longo, Saverio Muscoli, Francesco Romeo, Massimo Federici, Stamatios Lerakis, and Francesco Barillà

Subjects

GLP-1RAs, diabetes mellitus, cardiovascular disease, prevention, atherosclerosis, Microbiology, QR1-502

Abstract

Atherosclerosis is a chronic inflammatory disease characterized by lipid and inflammatory cell deposits in the inner layer of large- and medium-sized elastic and muscular arteries. Diabetes mellitus (DM) significantly increases the risk of cardiovascular diseases and the overall and cardiovascular mortality, and it is a pro-atherogenic factor that induces atherosclerosis development and/or accelerates its progression through a multifactorial process. Glucagon-like peptide-1 receptor agonists (GLP-1RAs) are a new class of drugs, belonging to the armamentarium to fight type 2 DM, that have shown robust reductions in atherosclerotic events and all-cause mortality in all studies. Preclinical studies have shown that GLP-1RAs play a role in the immunomodulation of atherosclerosis, affecting multiple pathways involved in plaque development and progression. In this review, we wanted to explore the translational power of such preclinical studies by analyzing the most recent clinical trials investigating the atheroprotective effect of GLP-1RAs.

Published

2023

14. Non‐targeted metabolomics identify polyamine metabolite acisoga as novel biomarker for reduced left ventricular function

Author

Andreas Puetz, Anna Artati, Jerzy Adamski, Katharina Schuett, Francesco Romeo, Robert Stoehr, Nikolaus Marx, Massimo Federici, Michael Lehrke, and Ben A. Kappel

Subjects

Heart failure, HFrEF, Ejection fraction, Biomarker, Metabolomics, Polyamine metabolism, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Aims Chronic heart failure with reduced ejection fraction remains a major health issue. To date, no reliable biomarker is available to predict reduced left ventricular ejection fraction (LV‐EF). We aimed to identify novel circulating biomarkers for reduced left ventricular function using untargeted serum metabolomics in two independent patient cohorts. Methods and results Echocardiography and non‐targeted serum metabolomics were conducted in two patient cohorts with varying left ventricular function: (1) 25 patients with type 2 diabetes with established cardiovascular disease or high cardiovascular risk (LV‐EF range 20–66%) (discovery cohort) and (2) 37 patients hospitalized for myocardial infarction (LV‐EF range 25–60%) (validation cohort). In the discovery cohort, untargeted metabolomics revealed seven metabolites performing better than N‐terminal pro‐B‐type natriuretic peptide in the prediction of impaired left ventricular function shown by LV‐EF. For only one of the metabolites, acisoga, the predictive value for LV‐EF could be confirmed in the validation cohort (r = −0.37, P = 0.02). In the discovery cohort, acisoga did not only correlate with LV‐EF (r = −60, P = 0.0016), but also with global circumferential strain (r = 0.67, P = 0.0003) and global longitudinal strain (r = 0.68, P = 0.0002). Similar results could be detected in the discovery cohort in a 6 month follow‐up proofing stability of these results over time. With an area under the curve of 0.86 in the receiver operating characteristic analysis, acisoga discriminated between patients with normal EF and LV‐EF

Published

2022

15. Bergamot Polyphenolic Extract Combined with Albedo and Pulp Fibres Counteracts Changes in Gut Microbiota Associated with High-Fat Diet: Implications for Lipoprotein Size Re-Arrangement

Author

Rocco Mollace, Roberta Macrì, Martina Nicita, Vincenzo Musolino, Micaela Gliozzi, Cristina Carresi, Irene Bava, Jessica Maiuolo, Annamaria Tavernese, Antonio Cardamone, Luigi Tucci, Giuseppe Trunfio, Elzbieta Janda, Ernesto Palma, Carolina Muscoli, Francesco Barillà, Massimo Federici, Federica Scarano, and Vincenzo Mollace

Subjects

gut microbiota, atherosclerotic vascular disease, high-fat diet, lipoprotein assembly, lipid metabolism, bergamot extract, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Evidence exists that the gut microbiota contributes to the alterations of lipid metabolism associated with high-fat diet (HFD). Moreover, the gut microbiota has been found to modulate the metabolism and absorption of dietary lipids, thereby affecting the formation of lipoproteins occurring at the intestinal level as well as systemically, though the pathophysiological implication of altered microbiota composition in HFD and its role in the development of atherosclerotic vascular disease (ATVD) remain to be better clarified. Recently, evidence has been collected indicating that supplementation with natural polyphenols and fibres accounts for an improvement of HFD-associated intestinal dysbiosis, thereby leading to improved lipidaemic profile. This study aimed to investigate the protective effect of a bergamot polyphenolic extract (BPE) containing 48% polyphenols enriched with albedo and pulp-derived micronized fibres (BMF) in the gut microbiota of HFD-induced dyslipidaemia. In particular, rats that received an HFD over a period of four consecutive weeks showed a significant increase in plasma cholesterol, triglycerides and plasma glucose compared to a normal-fat diet (NFD) group. This effect was accompanied by body weight increase and alteration of lipoprotein size and concentration, followed by high levels of MDA, a biomarker of lipid peroxidation. Treatment with a combination of BPE plus BMF (50/50%) resulted in a significant reduction in alterations of the metabolic parameters found in HFD-fed rats, an effect associated with increased size of lipoproteins. Furthermore, the effect of BPE plus BMF treatment on metabolic balance and lipoprotein size re-arrangement was associated with reduced gut-derived lipopolysaccharide (LPS) levels, an effect subsequent to improved gut microbiota as expressed by modulation of the Gram-negative bacteria Proteobacteria, as well as Firmicutes and Bacteroidetes. This study suggests that nutraceutical supplementation of HFD-fed rats with BPE and BMP or with their combination product leads to restored gut microbiota, an effect associated with lipoprotein size re-arrangement and better lipidaemic and metabolic profiles.

Published

2023

16. Gut Microbiota Composition and Cardiovascular Disease: A Potential New Therapeutic Target?

Author

Martina Belli, Lucy Barone, Susanna Longo, Francesca Romana Prandi, Dalgisio Lecis, Rocco Mollace, Davide Margonato, Saverio Muscoli, Domenico Sergi, Massimo Federici, and Francesco Barillà

Subjects

gut microbiota, cardiovascular diseases, trimethylamine N-Oxide, heart failure, atherosclerosis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

A great deal of evidence has revealed an important link between gut microbiota and the heart. In particular, the gut microbiota plays a key role in the onset of cardiovascular (CV) disease, including heart failure (HF). In HF, splanchnic hypoperfusion causes intestinal ischemia resulting in the translocation of bacteria and their metabolites into the blood circulation. Among these metabolites, the most important is Trimethylamine N-Oxide (TMAO), which is responsible, through various mechanisms, for pathological processes in different organs and tissues. In this review, we summarise the complex interaction between gut microbiota and CV disease, particularly with respect to HF, and the possible strategies for influencing its composition and function. Finally, we highlight the potential role of TMAO as a novel prognostic marker and a new therapeutic target for HF.

Published

2023

17. Focus on the Most Common Paucisymptomatic Vasculopathic Population, from Diagnosis to Secondary Prevention of Complications

Author

Eugenio Martelli, Iolanda Enea, Matilde Zamboni, Massimo Federici, Umberto M. Bracale, Giuseppe Sangiorgi, Allegra R. Martelli, Teresa Messina, and Alberto M. Settembrini

Subjects

diagnosis, secondary prevention, complications, abdominal aortic aneurysm, carotid stenosis, lower extremity arterial disease, Medicine (General), R5-920

Abstract

Middle-aged adults can start to be affected by some arterial diseases (ADs), such as abdominal aortic or popliteal artery aneurysms, lower extremity arterial disease, internal carotid, or renal artery or subclavian artery stenosis. These vasculopathies are often asymptomatic or paucisymptomatic before manifesting themselves with dramatic complications. Therefore, early detection of ADs is fundamental to reduce the risk of major adverse cardiovascular and limb events. Furthermore, ADs carry a high correlation with silent coronary artery disease (CAD). This study focuses on the most common ADs, in the attempt to summarize some key points which should selectively drive screening. Since the human and economic possibilities to instrumentally screen wide populations is not evident, deep knowledge of semeiotics and careful anamnesis must play a central role in our daily activity as physicians. The presence of some risk factors for atherosclerosis, or an already known history of CAD, can raise the clinical suspicion of ADs after a careful clinical history and a deep physical examination. The clinical suspicion must then be confirmed by a first-level ultrasound investigation and, if so, adequate treatments can be adopted to prevent dreadful complications.

Published

2023

18. Immunomodulation Therapies for Atherosclerosis: The Past, the Present, and the Future

Author

Dalgisio Lecis, Gianluca Massaro, Daniela Benedetto, Marco Di Luozzo, Giulio Russo, Alessandro Mauriello, Massimo Federici, and Giuseppe Massimo Sangiorgi

Subjects

atherosclerosis, cardiovascular disease, inflammation, immune-modulation therapies, vaccine, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Atherosclerotic cardiovascular disease is the most common cause of morbidity and death worldwide. Recent studies have demonstrated that this chronic inflammatory disease of the arterial wall can be controlled through the modulation of immune system activity. Many patients with cardiovascular disease remain at elevated risk of recurrent events despite receiving current, state-of-the-art preventive medical treatment. Much of this residual risk is attributed to inflammation. Therefore, finding new treatment strategies for this category of patients became of common interest. This review will discuss the experimental and clinical data supporting the possibility of developing immune-based therapies for lowering cardiovascular risk, explicitly focusing on vaccination strategies.

Published

2023

19. The risk of carotid plaque instability in patients with metabolic syndrome is higher in women with hypertriglyceridemia

Author

Francesca Servadei, Lucia Anemona, Marina Cardellini, Manuel Scimeca, Manuela Montanaro, Valentina Rovella, Francesca Di Daniele, Erica Giacobbi, Iacopo Maria Legramante, Annalisa Noce, Rita Bonfiglio, Patrizia Borboni, Nicola Di Daniele, Arnaldo Ippoliti, Massimo Federici, and Alessandro Mauriello

Subjects

Metabolic syndrome, Carotid, Histology, Hypertriglyceridemia, Post‐menopause, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Metabolic syndrome certainly favors growth of carotid plaque; however, it is uncertain if it determines plaque destabilization. Furthermore, it is likely that only some components of metabolic syndrome are associated with increased risk of plaque destabilization. Therefore, we evaluated the effect of different elements of metabolic syndrome, individually and in association, on carotid plaques destabilization. Methods A total of 186 carotid endarterectomies from symptomatic and asymptomatic patients were histologically analysed and correlated with major cardiovascular risk factors. Results Metabolic syndrome, regardless of the cluster of its components, is not associated with a significant increase in risk of plaque destabilization, rather with the presence of stable plaques. The incidence of unstable plaques in patients with metabolic syndrome is quite low (43.9 %), when compared with that seen in the presence of some risk factors, but significantly increases in the subgroup of female patients with hypertriglyceridemia, showing an odds ratio of 3.01 (95% CI, 0.25–36.30). Conclusions Our data may help to identify patients with real increased risk of acute cerebrovascular diseases thus supporting the hypothesis that the control of hypertriglyceridemia should be a key point on prevention of carotid atherosclerotic plaque destabilization, especially in post-menopausal female patients.

Published

2021

20. Iron status influences non-alcoholic fatty liver disease in obesity through the gut microbiome

Author

Jordi Mayneris-Perxachs, Marina Cardellini, Lesley Hoyles, Jèssica Latorre, Francesca Davato, José Maria Moreno-Navarrete, María Arnoriaga-Rodríguez, Matteo Serino, James Abbott, Richard H. Barton, Josep Puig, Xavier Fernández-Real, Wifredo Ricart, Christopher Tomlinson, Mark Woodbridge, Paolo Gentileschi, Sarah A. Butcher, Elaine Holmes, Jeremy K. Nicholson, Vicente Pérez-Brocal, Andrés Moya, Donald Mc Clain, Rémy Burcelin, Marc-Emmanuel Dumas, Massimo Federici, and José-Manuel Fernández-Real

Subjects

Systems medicine, Ferritin, Iron status, Gut microbiome, Non-alcoholic fatty liver disease, Shotgun sequencing, Microbial ecology, QR100-130

Abstract

Abstract Background The gut microbiome and iron status are known to play a role in the pathophysiology of non-alcoholic fatty liver disease (NAFLD), although their complex interaction remains unclear. Results Here, we applied an integrative systems medicine approach (faecal metagenomics, plasma and urine metabolomics, hepatic transcriptomics) in 2 well-characterised human cohorts of subjects with obesity (discovery n = 49 and validation n = 628) and an independent cohort formed by both individuals with and without obesity (n = 130), combined with in vitro and animal models. Serum ferritin levels, as a markers of liver iron stores, were positively associated with liver fat accumulation in parallel with lower gut microbial gene richness, composition and functionality. Specifically, ferritin had strong negative associations with the Pasteurellaceae, Leuconostocaceae and Micrococcaea families. It also had consistent negative associations with several Veillonella, Bifidobacterium and Lactobacillus species, but positive associations with Bacteroides and Prevotella spp. Notably, the ferritin-associated bacterial families had a strong correlation with iron-related liver genes. In addition, several bacterial functions related to iron metabolism (transport, chelation, heme and siderophore biosynthesis) and NAFLD (fatty acid and glutathione biosynthesis) were also associated with the host serum ferritin levels. This iron-related microbiome signature was linked to a transcriptomic and metabolomic signature associated to the degree of liver fat accumulation through hepatic glucose metabolism. In particular, we found a consistent association among serum ferritin, Pasteurellaceae and Micrococcacea families, bacterial functions involved in histidine transport, the host circulating histidine levels and the liver expression of GYS2 and SEC24B. Serum ferritin was also related to bacterial glycine transporters, the host glycine serum levels and the liver expression of glycine transporters. The transcriptomic findings were replicated in human primary hepatocytes, where iron supplementation also led to triglycerides accumulation and induced the expression of lipid and iron metabolism genes in synergy with palmitic acid. We further explored the direct impact of the microbiome on iron metabolism and liver fact accumulation through transplantation of faecal microbiota into recipient’s mice. In line with the results in humans, transplantation from ‘high ferritin donors’ resulted in alterations in several genes related to iron metabolism and fatty acid accumulation in recipient’s mice. Conclusions Altogether, a significant interplay among the gut microbiome, iron status and liver fat accumulation is revealed, with potential significance for target therapies. Video abstract

Published

2021

21. Lipidomics and metabolomics signatures of SARS-CoV-2 mediators/receptors in peripheral leukocytes, jejunum and colon

Author

Jordi Mayneris-Perxachs, José Maria Moreno-Navarrete, Marta Ballanti, Giovanni Monteleone, Omero Alessandro Paoluzi, Geltrude Mingrone, Philippe Lefebvre, Bart Staels, Massimo Federici, Josep Puig, Josep Garre, Rafael Ramos, and José-Manuel Fernández-Real

Subjects

Lipidomics, Metabolomics, Omega-3 fatty acids, SARS-CoV-2, Viral receptors, Biotechnology, TP248.13-248.65

Abstract

Cell surface receptor-mediated viral entry plays a critical role in this infection. Well-established SARS-CoV-2 receptors such as ACE2 and TMPRSS2 are highly expressed in the gastrointestinal tract. In fact, there are evidences that SARS-CoV-2 infects epithelial cells from the digestive system. However, emerging research has identified novel mediators such as DPP9, TYK2, and CCR2, all playing a critical role in inflammation. We evaluated the expression of SARS-CoV-2 receptors in peripheral leukocytes (n = 469), jejunum (n = 30), and colon (n = 37) of three independent cohorts by real-time PCR, RNA-sequencing, and microarray transcriptomics. We also performed HPCL-MS/MS lipidomics and metabolomics analyses to identify signatures linked to SARS-CoV-2 receptors. We found markedly higher peripheral leukocytes ACE2 expression levels in women compared to men, whereas the intestinal expression of TMPRSS2 was positively associated with BMI. Consistent lipidomics signatures associated with the expression of these mediators were found in both tissues and peripheral leukocytes involving n-3 long-chain PUFAs and arachidonic acid-derived eicosanoids, which play a key role in the regulation of inflammation and may interfere with viral entry and replication. Medium- and long-chain hydroxy acids, which have shown to interfere in viral replication, were also liked to SARS-CoV2 receptors. Gonadal steroids were also associated with the expression of some of these receptors, even after controlling for sex. The expression of SARS-CoV2 receptors was associated with several metabolic and nutritional traits in different cell types. This information may be useful in the design of potential therapies targeted at coronavirus entry.

Published

2021

22. ITCH E3 ubiquitin ligase downregulation compromises hepatic degradation of branched-chain amino acids

Author

Rossella Menghini, Lesley Hoyles, Marina Cardellini, Viviana Casagrande, Arianna Marino, Paolo Gentileschi, Francesca Davato, Maria Mavilio, Ivan Arisi, Alessandro Mauriello, Manuela Montanaro, Manuel Scimeca, Richard H. Barton, Francesca Rappa, Francesco Cappello, Manlio Vinciguerra, José Maria Moreno-Navarrete, Wifredo Ricart, Ottavia Porzio, José-Manuel Fernández-Real, Rémy Burcelin, Marc-Emmanuel Dumas, and Massimo Federici

Subjects

NAFLD, Metabolomics, Transcriptomics, BCAA, Internal medicine, RC31-1245

Abstract

Objective: Metabolic syndrome, obesity, and steatosis are characterized by a range of dysregulations including defects in ubiquitin ligase tagging proteins for degradation. The identification of novel hepatic genes associated with fatty liver disease and metabolic dysregulation may be relevant to unravelling new mechanisms involved in liver disease progression Methods: Through integrative analysis of liver transcriptomic and metabolomic obtained from obese subjects with steatosis, we identified itchy E ubiquitin protein ligase (ITCH) as a gene downregulated in human hepatic tissue in relation to steatosis grade. Wild-type or ITCH knockout mouse models of non-alcoholic fatty liver disease (NAFLD) and obesity-related hepatocellular carcinoma were analyzed to dissect the causal role of ITCH in steatosis Results: We show that ITCH regulation of branched-chain amino acids (BCAAs) degradation enzymes is impaired in obese women with grade 3 compared with grade 0 steatosis, and that ITCH acts as a gatekeeper whose loss results in elevation of circulating BCAAs associated with hepatic steatosis. When ITCH expression was specifically restored in the liver of ITCH knockout mice, ACADSB mRNA and protein are restored, and BCAA levels are normalized both in liver and plasma Conclusions: Our data support a novel functional role for ITCH in the hepatic regulation of BCAA metabolism and suggest that targeting ITCH in a liver-specific manner might help delay the progression of metabolic hepatic diseases and insulin resistance.

Published

2022

23. Editorial: Hyperglycemia and Coronary Artery Diseases: Physio-Pathological Findings and Therapeutic Implications

Author

Raffaele Marfella, Massimo Federici, and Giuseppe Paolisso

Subjects

atheroclerosis, hyperglycemia, coronary artery diseas, macro-angiopathy, type 2 diabetes, Therapeutics. Pharmacology, RM1-950

Published

2022

24. Autoantibodies against the glial glutamate transporter GLT1/EAAT2 in Type 1 diabetes mellitus—Clues to novel immunological and non-immunological therapies

Author

Carla Perego, Eliana S. Di Cairano, Alessandra Galli, Stefania Moretti, Elena Bazzigaluppi, Victoria Frolich Centonze, Amalia Gastaldelli, Emma Assi, Paolo Fiorina, Massimo Federici, Ottavia Porzio, Federico Bertuzzi, Alberto M. Davalli, and Franco Folli

Subjects

Autoantibody, Type 1 diabetes mellitus, EAAT2/GLT1, Complement pathway, Glutamate toxicity, Therapeutics. Pharmacology, RM1-950

Abstract

Islet cell surface autoantibodies were previously found in subjects with type 1 diabetes mellitus (T1DM), but their target antigens and pathogenic mechanisms remain elusive. The glutamate transporter solute carrier family 1, member 2 (GLT1/EAAT2) is expressed on the membrane of pancreatic β-cells and physiologically controls extracellular glutamate concentrations thus preventing glutamate-induced β-cell death. We hypothesized that GLT1 could be an immunological target in T1DM and that autoantibodies against GLT1 could be pathogenic. Immunoprecipitation and ELISA experiments showed that sera from T1DM subjects recognized GLT1 expressed in brain, pancreatic islets, and GLT1-transfected COS7-cell extracts. We validated these findings in two cohorts of T1DM patients by quantitative immunofluorescence assays. Analysis of the combined data sets indicated the presence of autoantibodies against GLT1 in 32 of the 87 (37%) T1DM subjects and in none of healthy controls (n = 64) (p

Published

2022

25. Enterocyte superoxide dismutase 2 deletion drives obesity

Author

Oihane Garcia-Irigoyen, Fabiola Bovenga, Marilidia Piglionica, Elena Piccinin, Marica Cariello, Maria Arconzo, Claudia Peres, Paola Antonia Corsetto, Angela Maria Rizzo, Marta Ballanti, Rossella Menghini, Geltrude Mingrone, Philippe Lefebvre, Bart Staels, Takuji Shirasawa, Carlo Sabbà, Gaetano Villani, Massimo Federici, and Antonio Moschetta

Subjects

Obesity medicine, Lipid, Molecular physiology, Science

Abstract

Summary: Compelling evidence support an involvement of oxidative stress and intestinal inflammation as early events in the predisposition and development of obesity and its related comorbidities. Here, we show that deficiency of the major mitochondrial antioxidant enzyme superoxide dismutase 2 (SOD2) in the gastrointestinal tract drives spontaneous obesity. Intestinal epithelium-specific Sod2 ablation in mice induced adiposity and inflammation via phospholipase A2 (PLA2) activation and increased release of omega-6 polyunsaturated fatty acid arachidonic acid. Remarkably, this obese phenotype was rescued when fed an essential fatty acid-deficient diet, which abrogates de novo biosynthesis of arachidonic acid. Data from clinical samples revealed that the negative correlation between intestinal Sod2 mRNA levels and obesity features appears to be conserved between mice and humans. Collectively, our findings suggest a role of intestinal Sod2 levels, PLA2 activity, and arachidonic acid in obesity presenting new potential targets of therapeutic interest in the context of this metabolic disorder.

Published

2022

26. Dynapenia, Muscle Quality, and Hepatic Steatosis in Patients with Obesity and Sarcopenic Obesity

Author

Francesco Frigerio, Maria De Marinis, Francesca Camardella, Vito Cantisani, Alessandro Pinto, Marco Bernardi, Carla Lubrano, Lucio Gnessi, Massimo Federici, Lorenzo Maria Donini, and Eleonora Poggiogalle

Subjects

sarcopenic obesity, handgrip strength, fatty liver disease, muscle quality, NAFLD, insulin resistance, Biology (General), QH301-705.5

Abstract

Accumulating evidence supports a connection between sarcopenic obesity (SO) and NAFLD. The extent to which fatty liver contributes to impaired muscle contractility is not yet well established. The aim of our study was to investigate the effect of NAFLD on dynapenia in patients with SO. In this study, 71 non-diabetic subjects (age 55 (7.8) years, BMI 35.2 kg/m2 (32.6–38.8)) were classified as having SO and non-sarcopenic obesity (NSO). SO patients displayed worse serum lipid profiles, higher body fat, and lower skeletal muscle mass (both total and appendicular) than NSO patients, despite the absence of any significant differences in body weight, glycometabolic parameters, and hepatic steatosis prevalence. A positive correlation between disposition index and muscle quality index (MQI) (r = 0.393, p = 0.013) emerged after controlling for menopause and body fat percentage. Based on multiple linear regression analysis, MQI was significantly positively associated with the disposition index (β: 0.059, SE: 0.002, p = 0.006) after adjustment for menopause, body fat percentage, and the presence of hepatic steatosis according to the hepatorenal index (HRI). Similar findings emerged when including liver enzyme levels in place of hepatic steatosis. Muscle quality was positively associated with β-cell function corrected for insulin resistance among patients with obesity and sarcopenic obesity, irrespective of the presence of fatty liver disease.

Published

2023

27. Effect of deprescribing in elderly patients with type 2 diabetes: iDegLira might improve quality of life

Author

Stefano Rizza, Giacomo Piciucchi, Maria Mavilio, Susanna Longo, Martina Montagna, Riccardo Tatonetti, Alessandro Nucera, and Massimo Federici

Subjects

Diabetes, Elderly, Deprescribing, Quality of life, IDegLira, Therapeutics. Pharmacology, RM1-950

Abstract

Older people with type 2 diabetes (T2D) often have several comorbidities and take multiple drugs. This study tested a deprescribing strategy in older T2D patients, replacing a hypoglycemic therapeutic scheme with a single drug combination (iDegLira). In this 6-month, real-world, single-arm, open interventional study, we enrolled patients ≥ 75 years with T2D taking ≥ 2 medications for diabetes. Patients on a basal-bolus insulin regimen (n = 13), on a basal-insulin regimen plus oral glucose-lowering drugs (n = 9), and those on oral glucose-lowering drugs (n = 18) were switched to daily iDegLira. The primary clinical endpoint of the study was an improvement in CASP-19 and/or DTSQ score after 6 months. We also evaluated changes in glucose metabolism, depression, cognitive function, level of independence, and markers of inflammation. Thirty-five patients (12 women, mean age=81.4 y) completed the protocol. Results shown here are given as estimated mean difference (95%CI). DTSQ score improved [11.08 (7.13/15.02); p = 0.0001], whereas CASP-19 did not after 6 months of iDegLira treatment. We observed reductions in BMI [− 0.81 (− 1.27/0.35); p

Published

2021

28. Sodium-glucose co-transporter2 expression and inflammatory activity in diabetic atherosclerotic plaques: Effects of sodium-glucose co-transporter2 inhibitor treatment

Author

Nunzia D'Onofrio, Celestino Sardu, Maria Consiglia Trotta, Lucia Scisciola, Fabrizio Turriziani, Franca Ferraraccio, Iacopo Panarese, Lella Petrella, Mara Fanelli, Piero Modugno, Massimo Massetti, Ludovica Vittoria Marfella, Ferdinando Carlo Sasso, Maria Rosaria Rizzo, Michelangela Barbieri, Fulvio Furbatto, Fabio Minicucci, Ciro Mauro, Massimo Federici, Maria Luisa Balestrieri, Giuseppe Paolisso, and Raffaele Marfella

Subjects

Atherosclerosis, Type 2 diabetes mellitus, SGLT2, Sirtuin-6, Inflammation, Internal medicine, RC31-1245

Abstract

Objective: We evaluated sodium-glucose co-transporter2 (SGLT2) expression and the effect of SGLT2 inhibitor (SGLT2i) therapies on carotid plaques of asymptomatic diabetic and non-diabetic patients. Methods: Plaques were obtained from 296 non-diabetic patients and 227 patients with type 2 diabetes undergoing carotid endarterectomy. 97 patients with type 2 diabetes were treated with SGLT2 inhibitors for 16 ± 4 months before endarterectomy. After propensity score matching analysis, patients with type 2 diabetes were categorized without (n = 87) and with SGLT2i therapy (n = 87). To investigate SGLT2 expression levels' effects on major adverse endpoints (MACE = stroke, transient ischemic attack, myocardial infarction, and death), we evaluated MACE outcomes at a 2-year follow-up. Results: Compared to plaques from patients without diabetes, plaques from patients with diabetes had higher SGLT2 expression, inflammation, and oxidative stress, along with lower SIRT6 expression and collagen content. Compared with plaques from patients with diabetes, SGLT2i-treated patients with type 2 diabetes presented increased SIRT6 expression and collagen content and lowered inflammation and ion and oxidative stress, thus indicating a more stable plaque phenotype. These results supported in vitro observations on human aorta endothelial cells (EC) (TeloHAEC-cells). Indeed, EC treated with high glucose (25 mM) in the presence of SGLT2i (100 nM canagliflozin) presented higher SIRT6 expression and decreased mRNA and protein SGLT2 levels, nuclear factor-kappa B (NF-B(NF-κB), and matrix metallopeptidase 9 (MMP-9) expression compared to cells treated only with high glucose. After two years following endarterectomy, a multivariable Cox regression analysis showed significantly higher 2-year overall survival from MACE in patients without diabetes (P

Published

2021

29. DPP9 as a Potential Novel Mediator in Gastrointestinal Virus Infection

Author

Ángela del Castillo-Izquierdo, José María Moreno-Navarrete, Jessica Latorre, María Arnoriaga-Rodríguez, Marta Ballanti, Giovanni Monteleone, Omero Alessandro Paoluzi, Geltrude Mingrone, Josep Puig, Rafael Ramos, Josep Garre-Olmo, Mariona Jové, Reinald Pamplona, Manuel Portero-Otín, Joaquim Sol, Philippe Lefebvre, Bart Staels, Massimo Federici, José Manuel Fernández-Real, and Jordi Mayneris-Perxachs

Subjects

viral infection, gastrointestinal tract, transcriptomics, metabolomics, SARS-CoV-2, Therapeutics. Pharmacology, RM1-950

Abstract

Dipeptidyl peptidase 9 (DPP9) is a member of the dipeptidyl peptidase IV family. Inhibition of DPP9 has recently been shown to activate the nucleotide-binding domain leucine-rich repeat 1 (NLRP1) inflammasome. NLRP1 is known to bind nucleic acids with high affinity and directly interact with double stranded RNA, which plays a key role in viral replication. DPP9 has also recently emerged as a key gene related to lung-inflammation in critical SARS-CoV-2 infection. Importantly, DPP9 activity is strongly dependent on the oxidative status. Here, we explored the potential role of DPP9 in the gastrointestinal tract. We performed transcriptomics analyses of colon (microarray, n = 37) and jejunal (RNA sequencing, n = 31) biopsies from two independent cohorts as well as plasma metabolomics analyses in two independent cohorts (n = 37 and n = 795). The expression of DPP9 in the jejunum, colon, and blood was significantly associated with circulating biomarkers of oxidative stress (uric acid, bilirubin). It was also associated positively with the expression of transcription factors (NRF-2) and genes (SOD, CAT, GPX) encoding for antioxidant enzymes, but negatively with that of genes (XDH, NOX) and transcription factors (NF-KB) involved in ROS-generating enzymes. Gene co-expression patterns associated with DPP9 identified several genes participating in antiviral pathways in both tissues. Notably, DPP9 expression in the colon and plasma was strongly positively associated with several circulating nucleotide catabolites (hypoxanthine, uric acid, 3-ureidopropionic acid) with important roles in the generation of ROS and viral infection, as well as other metabolites related to oxidative stress (Resolvin D1, glutamate-containing dipeptides). Gene-drug enrichment analyses identified artenimol, puromycin, anisomycin, 3-phenyllactic acid, and linezolid as the most promising drugs targeting these DPP9-associated genes. We have identified a novel potential pathogenic mechanism of viral infection in the digestive tract and promising existing drugs that can be repositioned against viral infection.

Published

2022

30. Human and mouse non‐targeted metabolomics identify 1,5‐anhydroglucitol as SGLT2‐dependent glycemic marker

Author

Ben A. Kappel, Julia Moellmann, Kirsten Thiele, Matthias Rau, Anna Artati, Jerzy Adamski, Bart Ghesquiere, Katharina Schuett, Francesco Romeo, Robert Stoehr, Nikolaus Marx, Massimo Federici, and Michael Lehrke

Subjects

biomarker, metabolomics, SGLT2, type 2 diabetes, Medicine (General), R5-920

Published

2021

31. The Food Additive Maltodextrin Promotes Endoplasmic Reticulum Stress–Driven Mucus Depletion and Exacerbates Intestinal InflammationSummary

Author

Federica Laudisi, Davide Di Fusco, Vincenzo Dinallo, Carmine Stolfi, Antonio Di Grazia, Irene Marafini, Alfredo Colantoni, Angela Ortenzi, Claudia Alteri, Francesca Guerrieri, Maria Mavilio, Francesca Ceccherini-Silberstein, Massimo Federici, Thomas Thornton MacDonald, Ivan Monteleone, and Giovanni Monteleone

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Food additives, such as emulsifiers, stabilizers, or bulking agents, are present in the Western diet and their consumption is increasing. However, little is known about their potential effects on intestinal homeostasis. In this study we examined the effect of some of these food additives on gut inflammation. Methods: Mice were given drinking water containing maltodextrin (MDX), propylene glycol, or animal gelatin, and then challenged with dextran sulfate sodium or indomethacin. In parallel, mice fed a MDX-enriched diet were given the endoplasmic reticulum (ER) stress inhibitor tauroursodeoxycholic acid (TUDCA). Transcriptomic analysis, real-time polymerase chain reaction, mucin-2 expression, phosphorylated p38 mitogen-activated protein (MAP) kinase quantification, and H&E staining was performed on colonic tissues. Mucosa-associated microbiota composition was characterized by 16S ribosomal RNA sequencing. For the in vitro experiments, murine intestinal crypts and the human mucus-secreting HT29-methotrexate treated cell line were stimulated with MDX in the presence or absence of TUDCA or a p38 MAP kinase inhibitor. Results: Diets enriched in MDX, but not propylene glycol or animal gelatin, exacerbated intestinal inflammation in both models. Analysis of the mechanisms underlying the detrimental effect of MDX showed up-regulation of inositol requiring protein 1β, a sensor of ER stress, in goblet cells, and a reduction of mucin-2 expression with no significant change in mucosa-associated microbiota. Stimulation of murine intestinal crypts and HT29-methotrexate treated cell line cells with MDX induced inositol requiring protein 1β via a p38 MAP kinase–dependent mechanism. Treatment of mice with TUDCA prevented mucin-2 depletion and attenuated colitis in MDX-fed mice. Conclusions: MDX increases ER stress in gut epithelial cells with the downstream effect of reducing mucus production and enhancing colitis susceptibility. Keywords: Colitis, IBD, Unfolded Protein Response, Intestinal Epithelium

Published

2019

32. Restoration of renal TIMP3 levels via genetics and pharmacological approach prevents experimental diabetic nephropathy

Author

Viviana Casagrande, Giulia Iuliani, Stefano Menini, Giuseppe Pugliese, Massimo Federici, and Rossella Menghini

Subjects

chronic kidney disease, diabetes, metalloproteinase, peptide, Medicine (General), R5-920

Abstract

Abstract Background Diabetic nephropathy (DN), one of the major complications of diabetes, is characterized by albuminuria, glomerulosclerosis, and progressive loss of renal function. Loss of TIMP3, an Extracellular Matrix bound protein affecting both inflammation and fibrosis, is a hallmark of DN in human subjects and mouse models. Methods This study was designed to provide evidences that the modulation of the system involving TIMP3 and its target A Disintegrin And Metalloproteinase 17 (ADAM17), may rescue kidney pathology in diabetic mice. Mice with cell‐targeted overexpression of TIMP3 in myeloid cells (MacT3), podocyte‐specific ADAM17 knockout mice (∆PodA17), and DBA/2J mice, were rendered diabetic at 8 weeks of age with a low‐dose streptozotocin protocol. DBA/2J mice were administered new peptides based on the human TIMP3 N‐terminal domain, specifically conjugated with G3C12, a carrier peptide highly selective and efficient for transport to the kidney. Twelve weeks after Streptozotocin injections, 24‐hour albuminuria was determined by ELISA, kidney morphometry was analyzed by periodic acid‐shift staining, and Real Time‐PCR and western blot analysis were performed on mRNA and protein extracted from kidney cortex. Results Our results showed that both genetic modifications and peptides treatment positively affect renal function and structure in diabetic mice, as indicated by a significant and consistent decline in albuminuria along with reduction in glomerular lesions, as indicated by reduced mesangial expansion and glomerular hypertrophy, decreased deposition of extracellular matrix in the mesangium, diminished protein expression of the NADPH oxidases 4 (NOX4), and the improvement of podocyte structural markers such as WT1, nephrin, and podocin. Moreover, the positive effects were exerted through a mechanism independent from glycemic control. Conclusions In diabetic mice the targeting of TIMP3 system improved kidney structure and function, representing a valid approach to develop new avenues to treat this severe complication of diabetes.

Published

2021

33. Autologous Immune Cell-Based Regenerative Therapies to Treat Vasculogenic Erectile Dysfunction: Is the Immuno-Centric Revolution Ready for the Prime Time?

Author

Michela Bonanni, Laura Rehak, Gianluca Massaro, Daniela Benedetto, Andrea Matteucci, Giulio Russo, Francesco Esperto, Massimo Federici, Alessandro Mauriello, and Giuseppe Massimo Sangiorgi

Subjects

erectile dysfunction, cell therapy, stem cell, peripheral blood mononuclear cells, immune centric revolution, macrophages, Biology (General), QH301-705.5

Abstract

About 35% of patients affected by erectile dysfunction (ED) do not respond to oral phosphodiesterase-5 inhibitors (PDE5i) and more severe vasculogenic refractory ED affects diabetic patients. Innovative approaches, such as regenerative therapies, including stem cell therapy (SCT) and platelet-rich plasma (PRP), are currently under investigation. Recent data point out that the regenerative capacity of stem cells is strongly influenced by local immune responses, with macrophages playing a pivotal role in the injury response and as a coordinator of tissue regeneration, suggesting that control of the immune response could be an appealing approach in regenerative medicine. A new generation of autologous cell therapy based on immune cells instead of stem cells, which could change regenerative medicine for good, is discussed. Increasing safety and efficacy data are coming from clinical trials using peripheral blood mononuclear cells to treat no-option critical limb ischemia and diabetic foot. In this review, ongoing phase 1/phase 2 stem cell clinical trials are discussed. In addition, we examine the mechanism of action and rationale, as well as propose a new generation of regenerative therapies, evolving from typical stem cell or growth factor to immune cell-based medicine, based on autologous peripheral blood mononuclear cells (PBMNC) concentrates for the treatment of ED.

Published

2022

34. Night shift work, obesity and cardio-metabolic risk

Author

Stefano Rizza and Massimo Federici

Subjects

Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Published

2020

35. Cross-omics analysis revealed gut microbiome-related metabolic pathways underlying atherosclerosis development after antibiotics treatment

Author

Ben Arpad Kappel, Lorenzo De Angelis, Michael Heiser, Marta Ballanti, Robert Stoehr, Claudia Goettsch, Maria Mavilio, Anna Artati, Omero A. Paoluzi, Jerzy Adamski, Geltrude Mingrone, Bart Staels, Remy Burcelin, Giovanni Monteleone, Rossella Menghini, Nikolaus Marx, and Massimo Federici

Subjects

Atherosclerosis, Antibiotics, Gut microbiota, Dysbiosis, Metabolic diversity, Cross-omics, Internal medicine, RC31-1245

Abstract

Objective: The metabolic influence of gut microbiota plays a pivotal role in the pathogenesis of cardiometabolic diseases. Antibiotics affect intestinal bacterial diversity, and long-term usage has been identified as an independent risk factor for atherosclerosis-driven events. The aim of this study was to explore the interaction between gut dysbiosis by antibiotics and metabolic pathways with the impact on atherosclerosis development. Methods: We combined oral antibiotics with different diets in an Apolipoprotein E-knockout mouse model linking gut microbiota to atherosclerotic lesion development via an integrative cross-omics approach including serum metabolomics and cecal 16S rRNA targeted metagenomic sequencing. We further investigated patients with carotid atherosclerosis compared to control subjects with comparable cardiovascular risk. Results: Here, we show that increased atherosclerosis by antibiotics was connected to a loss of intestinal diversity and alterations of microbial metabolic functional capacity with a major impact on the host serum metabolome. Pathways that were modulated by antibiotics and connected to atherosclerosis included diminished tryptophan and disturbed lipid metabolism. These pathways were related to the reduction of certain members of Bacteroidetes and Clostridia by antibiotics in the gut. Patients with atherosclerosis presented a similar metabolic signature as those induced by antibiotics in our mouse model. Conclusion: Taken together, this work provides insights into the complex interaction between intestinal microbiota and host metabolism. Our data highlight that detrimental effects of antibiotics on the gut flora are connected to a pro-atherogenic metabolic phenotype beyond classical risk factors.

Published

2020

36. The role of obesity in carotid plaque instability: interaction with age, gender, and cardiovascular risk factors

Author

Valentina Rovella, Lucia Anemona, Marina Cardellini, Manuel Scimeca, Andrea Saggini, Giuseppe Santeusanio, Elena Bonanno, Manuela Montanaro, Iacopo Maria Legramante, Arnaldo Ippoliti, Nicola Di Daniele, Massimo Federici, and Alessandro Mauriello

Subjects

Obesity, Stroke, Carotid, Histology, Metabolic syndrome, Age, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background In the last decade, several studies have reported an unexpected and seemingly paradoxical inverse correlation between BMI and incidence of cardiovascular diseases. This so called “obesity paradox effect” has been mainly investigated through imaging methods instead of histologic evaluation, which is still the best method to study the instability of carotid plaque. Therefore, the purpose of our study was to evaluate by histology the role of obesity in destabilization of carotid plaques and the interaction with age, gender and other major cerebrovascular risk factors. Methods A total of 390 carotid plaques from symptomatic and asymptomatic patients submitted to endarterectomy, for whom complete clinical and laboratory assessment of major cardiovascular risk factors was available, were studied by histology. Patients with a BMI ≥ 30.0 kg/m2 were considered as obese. Data were analyzed by multivariate logistic regression and for each variable in the equation the estimated odds ratio (OR) was calculated. Results Unstable carotid plaque OR for obese patients with age

Published

2018

37. High Sensitivity C-Reactive Protein Increases the Risk of Carotid Plaque Instability in Male Dyslipidemic Patients

Author

Manuel Scimeca, Manuela Montanaro, Marina Cardellini, Rita Bonfiglio, Lucia Anemona, Nicoletta Urbano, Elena Bonanno, Rossella Menghini, Viviana Casagrande, Eugenio Martelli, Francesca Servadei, Erica Giacobbi, Arnaldo Ippoliti, Roberto Bei, Vittorio Manzari, Massimo Federici, Orazio Schillaci, and Alessandro Mauriello

Subjects

atherosclerosis, hs-CRP, carotid plaque, cardiovascular risk factors, dyslipidemic patients, Medicine (General), R5-920

Abstract

Background: The aim of this study was to evaluate how the high sensitivity C-reactive protein (hs-CRP) values influence the risk of carotid plaque instability in association with other cardiovascular risk factors. Methods: One hundred and fifty-six carotid plaques from both symptomatic and asymptomatic patients requiring surgical carotid endarterectomy were retrospectively collected. According to the modified American Heart Association, atherosclerosis plaques have been histologically distinguished into unstable and stable. The following anamnestic and hematochemical data were also considered: age, gender, hypertension, diabetes mellitus, smoking habit, therapy, low-density lipoprotein (LDL)-C, kidney failure and hs-CRP. Results: The results of our study clearly show that high levels of hs-CRP significantly increase the carotid plaque instability in dyslipidemic patients. Specifically, a 67% increase of the risk of carotid plaque instability was observed in patients with high LDL-C. Therefore, the highest risk was observed in male dyslipidemic patients 2333 (95% CI 0.73–7.48) and in aged female patients 2713 (95% CI 0.14–53.27). Discussion: These data strongly suggest a biological relationship between the hs-CRP values and the alteration of lipidic metabolism mostly in male patients affected by carotid atherosclerosis. The measurement of hs-CRP might be useful as a potential screening tool in the prevention of atheroscletotic disease.

Published

2021

38. Hepatocyte specific TIMP3 expression prevents diet dependent fatty liver disease and hepatocellular carcinoma

Author

Viviana Casagrande, Alessandro Mauriello, Simone Bischetti, Maria Mavilio, Massimo Federici, and Rossella Menghini

Subjects

Medicine, Science

Abstract

Abstract Non-alcoholic fatty liver disease (NAFLD) encompasses a broad spectrum of conditions, ranging from non-progressive bland steatosis to hepatocarcinoma. Tissue inhibitor of metalloproteinase 3 (Timp3) has a role in the pathogenesis of fatty liver disease associated with obesity and is silenced during metabolic disorders and liver cancer. We generated an hepatocyte-specific TIMP3 ‘gain-of-function’ mouse model under the control of the Albumin promoter (AlbT3) and investigated its effects during high-fat diet (HFD). After 16 weeks of HFD, TIMP3 overexpression significantly improved glucose metabolism, hepatic fatty acid oxidation and cholesterol homeostasis. In AlbT3 mice CYP7A1, MDR3 and MRP2 gene expressions were observed, consistent with higher bile acid synthesis and export. Next, to evaluate the role of A Disintegrin and Metalloproteinase 17 (ADAM17), a crucial target of TIMP3, in these processes, we created mice deficient in Adam17 specifically in hepatocyte (A17LKO) or in myeloid lineage (A17MKO), founding that only A17LKO showed improvement in liver steatosis induced by HFD. Moreover, both, AlbT3 and A17LKO significantly reduced diethylnitrosamine-initiated, HFD-promoted hepatic tumorigenesis assessed by tumor multiplicity and total tumor area. Taken together, these data indicate that hepatic TIMP3 can slow progression of NAFLD, and tumorigenesis, at least in part, through the regulation of ADAM17 activity.

Published

2017

39. Inhibition of Lysine 63 Ubiquitination Prevents the Progression of Renal Fibrosis in Diabetic DBA/2J Mice

Author

Paola Pontrelli, Francesca Conserva, Rossella Menghini, Michele Rossini, Alessandra Stasi, Chiara Divella, Viviana Casagrande, Claudia Cinefra, Mariagrazia Barozzino, Simona Simone, Francesco Pesce, Giuseppe Castellano, Giovanni Stallone, Anna Gallone, Francesco Giorgino, Massimo Federici, and Loreto Gesualdo

Subjects

DBA2/J mice, lysine 63 ubiquitination, microRNA, renal fibrosis, senescence, diabetes, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Diabetic nephropathy (DN) is the most frequent cause of end-stage renal disease. Tubulointerstitial accumulation of lysine 63 (K63)-ubiquitinated (Ub) proteins is involved in the progression of DN fibrosis and correlates with urinary miR-27b-3p downregulation. We explored the renoprotective effect of an inhibitor of K63-Ub (NSC697923), alone or in combination with the ACE-inhibitor ramipril, in vitro and in vivo. Proximal tubular epithelial cells and diabetic DBA/2J mice were treated with NSC697923 and/or ramipril. K63-Ub protein accumulation along with α-SMA, collagen I and III, FSP-1, vimentin, p16INK4A expression, SA-α Gal staining, Sirius Red, and PAS staining were measured. Finally, we measured the urinary albumin to creatinine ratio (uACR), and urinary miR-27b-3p expression in mice. NSC697923, both alone and in association with ramipril, in vitro and in vivo inhibited hyperglycemia-induced epithelial to mesenchymal transition by significantly reducing K63-Ub proteins, α-SMA, collagen I, vimentin, FSP-1 expression, and collagen III along with tubulointerstitial and glomerular fibrosis. Treated mice also showed recovery of urinary miR-27b-3p and restored expression of p16INK4A. Moreover, NSC697923 in combination with ramipril demonstrated a trend in the reduction of uACR. In conclusion, we suggest that selective inhibition of K63-Ub, when combined with the conventional treatment with ACE inhibitors, might represent a novel treatment strategy to prevent the progression of fibrosis and proteinuria in diabetic nephropathy and we propose miR-27b-3p as a biomarker of treatment efficacy.

Published

2021

40. Gut Dysbiosis and Western Diet in the Pathogenesis of Essential Arterial Hypertension: A Narrative Review

Author

Maria Paola Canale, Annalisa Noce, Manuela Di Lauro, Giulia Marrone, Maria Cantelmo, Carmine Cardillo, Massimo Federici, Nicola Di Daniele, and Manfredi Tesauro

Subjects

arterial hypertension, gut microbiota, Western diet, high salt-intake diet, prebiotic, probiotic, Nutrition. Foods and food supply, TX341-641

Abstract

Metabolic syndrome is a cluster of the most dangerous cardiovascular (CV) risk factors including visceral obesity, insulin resistance, hyperglycemia, alterations in lipid metabolism and arterial hypertension (AH). In particular, AH plays a key role in the complications associated with metabolic syndrome. High salt intake is a well-known risk factor for AH and CV diseases. Vasoconstriction, impaired vasodilation, extracellular volume expansion, inflammation, and an increased sympathetic nervous system (SNS) activity are the mechanisms involved in the pathogenesis of AH, induced by Western diet. Gut dysbiosis in AH is associated with reduction of short chain fatty acid-producing bacteria: acetate, butyrate and propionate, which activate different pathways, causing vasoconstriction, impaired vasodilation, salt and water retention and a consequent high blood pressure. Moreover, increased trimethylamine N-oxide and lipopolysaccharides trigger chronic inflammation, which contributes to endothelial dysfunction and target organs damage. Additionally, a high salt-intake diet impacts negatively on gut microbiota composition. A bidirectional neuronal pathway determines the “brain–gut” axis, which, in turn, influences blood pressure levels. Then, we discuss the possible adjuvant novel treatments related to gut microbiota modulation for AH control.

Published

2021

41. Association of Urinary and Plasma Levels of Trimethylamine N-Oxide (TMAO) with Foods

Author

Mauro Lombardo, Giovanni Aulisa, Daniele Marcon, Gianluca Rizzo, Maria Grazia Tarsisano, Laura Di Renzo, Massimo Federici, Massimiliano Caprio, and Antonino De Lorenzo

Subjects

TMAO, trimethylamine N-oxide, foods, fish, meat, eggs, Nutrition. Foods and food supply, TX341-641

Abstract

Introduction: Trimethylamine N-oxide (TMAO) may play a key mediator role in the relationship between the diet, gut microbiota and cardiovascular diseases, particularly in people with kidney failure. The aim of this review is to evaluate which foods have a greater influence on blood or urinary trimethylamine N-oxide (TMAO) levels. Methods: 391 language articles were screened, and 27 were analysed and summarized for this review, using the keywords “TMAO” AND “egg” OR “meat” OR “fish” OR “dairy” OR “vegetables” OR “fruit” OR “food” in December 2020. Results: A strong correlation between TMAO and fish consumption, mainly saltwater fish and shellfish, but not freshwater fish, has been demonstrated. Associations of the consumption of eggs, dairy and meat with TMAO are less clear and may depend on other factors such as microbiota or cooking methods. Plant-based foods do not seem to influence TMAO but have been less investigated. Discussion: Consumption of saltwater fish, dark meat fish and shellfish seems to be associated with an increase in urine or plasma TMAO values. Further studies are needed to understand the relationship between increased risk of cardiovascular disease and plasma levels of TMAO due to fish consumption. Interventions coupled with long-term dietary patterns targeting the gut microbiota seem promising.

Published

2021

42. A Role for Timp3 in Microbiota-Driven Hepatic Steatosis and Metabolic Dysfunction

Author

Maria Mavilio, Valentina Marchetti, Marta Fabrizi, Robert Stöhr, Arianna Marino, Viviana Casagrande, Loredana Fiorentino, Marina Cardellini, Ben Kappel, Ivan Monteleone, Celine Garret, Alessandro Mauriello, Giovanni Monteleone, Alessio Farcomeni, Remy Burcelin, Rossella Menghini, and Massimo Federici

Subjects

Biology (General), QH301-705.5

Abstract

The effect of gut microbiota on obesity and insulin resistance is now recognized, but the underlying host-dependent mechanisms remain poorly undefined. We find that tissue inhibitor of metalloproteinase 3 knockout (Timp3−/−) mice fed a high-fat diet exhibit gut microbiota dysbiosis, an increase in branched chain and aromatic (BCAA) metabolites, liver steatosis, and an increase in circulating soluble IL-6 receptors (sIL6Rs). sIL6Rs can then activate inflammatory cells, such as CD11c+ cells, which drive metabolic inflammation. Depleting the microbiota through antibiotic treatment significantly improves glucose tolerance, hepatic steatosis, and systemic inflammation, and neutralizing sIL6R signaling reduces inflammation, but only mildly impacts glucose tolerance. Collectively, our results suggest that gut microbiota is the primary driver of the observed metabolic dysfunction, which is mediated, in part, through IL-6 signaling. Our findings also identify an important role for Timp3 in mediating the effect of the microbiota in metabolic diseases.

Published

2016

43. TIMP3 interplays with apelin to regulate cardiovascular metabolism in hypercholesterolemic mice

Author

Robert Stöhr, Ben Arpad Kappel, Daniela Carnevale, Michele Cavalera, Maria Mavilio, Ivan Arisi, Valentina Fardella, Giuseppe Cifelli, Viviana Casagrande, Stefano Rizza, Antonino Cattaneo, Alessandro Mauriello, Rossella Menghini, Giuseppe Lembo, and Massimo Federici

Subjects

TIMP3, Heart, Lipid metabolism, Apelin, Arrhythmia, Oxidative stress, Internal medicine, RC31-1245

Abstract

Objective: Tissue inhibitor of metalloproteinase 3 (TIMP3) is an extracellular matrix (ECM) bound protein, which has been shown to be downregulated in human subjects and experimental models with cardiometabolic disorders, including type 2 diabetes mellitus, hypertension and atherosclerosis. The aim of this study was to investigate the effects of TIMP3 on cardiac energy homeostasis during increased metabolic stress conditions. Methods: ApoE−/−TIMP3−/− and ApoE−/− mice on a C57BL/6 background were subjected to telemetric ECG analysis and experimental myocardial infarction as models of cardiac stress induction. We used Western blot, qRT-PCR, histology, metabolomics, RNA-sequencing and in vivo phenotypical analysis to investigate the molecular mechanisms of altered cardiac energy metabolism. Results: ApoE−/−TIMP3−/− revealed decreased lifespan. Telemetric ECG analysis showed increased arrhythmic episodes, and experimental myocardial infarction by left anterior descending artery (LAD) ligation resulted in increased peri-operative mortality together with increased scar formation, ventricular dilatation and a reduction of cardiac function after 4 weeks in the few survivors. Hearts of ApoE−/−TIMP3−/− exhibited accumulation of neutral lipids when fed a chow diet, which was exacerbated by a high fat, high cholesterol diet. Metabolomics analysis revealed an increase in circulating markers of oxidative stress with a reduction in long chain fatty acids. Using whole heart mRNA sequencing, we identified apelin as a putative modulator of these metabolic defects. Apelin is a regulator of fatty acid oxidation, and we found a reduction in the levels of enzymes involved in fatty acid oxidation in the left ventricle of ApoE−/−TIMP3−/− mice. Injection of apelin restored the hitherto identified metabolic defects of lipid oxidation. Conclusion: TIMP3 regulates lipid metabolism as well as oxidative stress response via apelin. These findings therefore suggest that TIMP3 maintains metabolic flexibility in the heart, particularly during episodes of increased cardiac stress.

Published

2015

44. Loss of TIMP3 underlies diabetic nephropathy via FoxO1/STAT1 interplay

Author

Loredana Fiorentino, Michele Cavalera, Stefano Menini, Valentina Marchetti, Maria Mavilio, Marta Fabrizi, Francesca Conserva, Viviana Casagrande, Rossella Menghini, Paola Pontrelli, Ivan Arisi, Mara D'Onofrio, Davide Lauro, Rama Khokha, Domenico Accili, Giuseppe Pugliese, Loreto Gesualdo, Renato Lauro, and Massimo Federici

Subjects

autophagy, diabetic nephropathy, FoxO1, STAT1, TIMP3, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract ADAM17 and its inhibitor TIMP3 are involved in nephropathy, but their role in diabetic kidney disease (DKD) is unclear. Diabetic Timp3−/− mice showed increased albuminuria, increased membrane thickness and mesangial expansion. Microarray profiling uncovered a significant reduction of Foxo1 expression in diabetic Timp3−/− mice compared to WT, along with FoxO1 target genes involved in autophagy, while STAT1, a repressor of FoxO1 transcription, was increased. Re‐expression of Timp3 in Timp3−/− mesangial cells rescued the expression of Foxo1 and its targets, and decreased STAT1 expression to control levels; abolishing STAT1 expression led to a rescue of FoxO1, evoking a role of STAT1 in linking Timp3 deficiency to FoxO1. Studies on kidney biopsies from patients with diabetic nephropathy confirmed a significant reduction in TIMP3, FoxO1 and FoxO1 target genes involved in autophagy compared to controls, while STAT1 expression was strongly increased. Our study suggests that loss of TIMP3 is a hallmark of DKD in human and mouse models and designates TIMP3 as a new possible therapeutic target for diabetic nephropathy.

Published

2013

45. Serum resistin, cardiovascular disease and all-cause mortality in patients with type 2 diabetes.

Author

Claudia Menzaghi, Simonetta Bacci, Lucia Salvemini, Christine Mendonca, Giuseppe Palladino, Andrea Fontana, Concetta De Bonis, Antonella Marucci, Elizabeth Goheen, Sabrina Prudente, Eleonora Morini, Stefano Rizza, Alyssa Kanagaki, Grazia Fini, Davide Mangiacotti, Massimo Federici, Salvatore De Cosmo, Fabio Pellegrini, Alessandro Doria, and Vincenzo Trischitta

Subjects

Medicine, Science

Abstract

BackgroundHigh serum resistin has been associated with increased risk of cardiovascular disease in the general population, Only sparse and conflicting results, limited to Asian individuals, have been reported, so far, in type 2 diabetes. We studied the role of serum resistin on coronary artery disease, major cardiovascular events and all-cause mortality in type 2 diabetes.MethodsWe tested the association of circulating resistin concentrations with coronary artery disease, major cardiovascular events (cardiovascular death, non-fatal myocardial infarction and non-fatal stroke) and all-cause mortality in 2,313 diabetic patients of European ancestry from two cross-sectional and two prospective studies. In addition, the expression of resistin gene (RETN) was measured in blood cells of 68 diabetic patients and correlated with their serum resistin levels.ResultsIn a model comprising age, sex, smoking habits, BMI, HbA1c, and insulin, antihypertensive and antidyslipidemic therapies, serum resistin was associated with coronary artery disease in both cross-sectional studies: OR (95%CI) per SD increment = 1.35 (1.10-1.64) and 1.99 (1.55-2.55). Additionally, serum resistin predicted incident major cardiovascular events (HR per SD increment = 1.31; 1.10-1.56) and all-cause mortality (HR per SD increment = 1.16; 1.06-1.26). Adjusting also for fibrinogen levels affected the association with coronary artery disease and incident cardiovascular events, but not that with all cause-mortality. Finally, serum resistin was positively correlated with RETN mRNA expression (rho = 0.343).ConclusionsThis is the first study showing that high serum resistin (a likely consequence, at least partly, of increased RETN expression) is a risk factor for cardiovascular disease and all-cause mortality in diabetic patients of European ancestry.

Published

2014

46. Toll-like receptor 4 mediates endothelial cell activation through NF-κB but is not associated with endothelial dysfunction in patients with rheumatoid arthritis.

Author

Rossella Menghini, Umberto Campia, Manfredi Tesauro, Arianna Marino, Valentina Rovella, Giuseppe Rodia, Francesca Schinzari, Barbara Tolusso, Nicola di Daniele, Massimo Federici, Angelo Zoli, Gianfranco Ferraccioli, and Carmine Cardillo

Subjects

Medicine, Science

Abstract

ObjectiveTo investigate the effects of TLR4 antagonism on human endothelial cells activation and cytokine expression, and whether the Asp299Gly TLR4 polymorphism is associated with better endothelial function in patients with rheumatoid arthritis (RA).MethodsHuman aortic endothelial cells (HAECs) were treated with lipopolysaccharide (LPS), OxPAPC, and free fatty acids (FFA) at baseline and after incubation with the TLR4 antagonist eritoran (E5564). Cytokine expression was assessed by quantitative real-time PCR. In vivo endothelial function was assessed as brachial artery flow-mediated dilation (FMD) in RA patients with the wild type gene (aa) and with the Asp299Gly TLR4 polymorphic variant (ag).ResultsIn HAEC, TLR4 antagonism with eritoran inhibited LPS-induced mRNA expression of IL-6, IL-8, TNFα, CCL-2, VCAM and ICAM (P0.05). In 30 patients with RA (15 with the ag allele) undergoing measurement of FMD, no differences in FMD and plasma levels of IL-6, IL-8, VCAM, and ICAM were found between the aa and the ag phenotype (P>0.05 for all).ConclusionsTLR4 signaling in endothelial cells may be triggered by LPS and oxidized phospholipids, leading to endothelial activation and inflammation, which are inhibited by eritoran. Our in vivo investigation, however, does not support an association between the Asp299Gly TLR4 polymorphism and improved endothelium-dependent vasodilator function in patients with RA. Further study is needed to better understand the potential role of TLR4 on endothelial dysfunction in this and other patient populations.

Published

2014

47. Age-related different relationships between ectopic adipose tissues and measures of central obesity in sedentary subjects.

Author

Valeria Guglielmi, Luciano Maresca, Monica D'Adamo, Mauro Di Roma, Chiara Lanzillo, Massimo Federici, Davide Lauro, Paolo Preziosi, Alfonso Bellia, and Paolo Sbraccia

Subjects

Medicine, Science

Abstract

Accumulation of fat at ectopic sites has been gaining attention as pivotal contributor of insulin resistance, metabolic syndrome and related cardiovascular complications. Intermuscular adipose tissue (IMAT), located between skeletal muscle bundles and beneath muscle fascia, has been linked to physical inactivity, ageing and body mass index, but little is known about its relationship with the other AT compartments, in particular with increasing age. To address this issue, erector spinae IMAT, epicardial (EAT), intraabdominal (IAAT) and abdominal subcutaneous adipose tissue (SAT) were simultaneously measured by Magnetic Resonance Imaging (MRI) and related to waist circumference measurements and age in 32 sedentary subjects without cardiovascular disease (18 men; 14 women; mean age 48.5 ± 14 years). Fasting glucose, triglycerides and HDL-cholesterol were also assessed. We observed that, after dividing individuals according to age (≤ or > 50 years), IMAT and EAT depots were significantly more expanded in older subjects (63.2 ± 8.3 years) than in the younger ones (38.4 ± 5.2 years) (p < 0.001). Overall, both IMAT and EAT showed stronger positive associations with increasing age (β = 0.63 and 0.67, respectively, p < 0.001 for both) than with waist circumference (β = 0.55 and 0.49, respectively, p < 0.01 for both) after adjusting for gender. In addition, the gender-adjusted associations of IMAT and EAT with waist circumference and IAAT were significant in individuals ≤ 50 years only (p

Published

2014

48. Immunopositivity for histone macroH2A1 isoforms marks steatosis-associated hepatocellular carcinoma.

Author

Francesca Rappa, Azzura Greco, Christine Podrini, Francesco Cappello, Michelangelo Foti, Lucie Bourgoin, Marion Peyrou, Arianna Marino, Nunzia Scibetta, Roger Williams, Gianluigi Mazzoccoli, Massimo Federici, Valerio Pazienza, and Manlio Vinciguerra

Subjects

Medicine, Science

Abstract

BackgroundHepatocellular carcinoma (HCC) is one of the most common cancers worldwide. Prevention and risk reduction are important and the identification of specific biomarkers for early diagnosis of HCC represents an active field of research. Increasing evidence indicates that fat accumulation in the liver, defined as hepatosteatosis, is an independent and strong risk factor for developing an HCC. MacroH2A1, a histone protein generally associated with the repressed regions of chromosomes, is involved in hepatic lipid metabolism and is present in two alternative spliced isoforms, macroH2A1.1 and macroH2A1.2. These isoforms have been shown to predict lung and colon cancer recurrence but to our knowledge, their role in fatty-liver associated HCC has not been investigated previously.MethodsWe examined macroH2A1.1 and macroH2A1.2 protein expression levels in the liver of two murine models of fat-associated HCC, the high fat diet/diethylnistrosamine (DEN) and the phosphatase and tensin homolog (PTEN) liver specific knock-out (KO) mouse, and in human liver samples of subjects with steatosis or HCC, using immunoblotting and immunohistochemistry.ResultsProtein levels for both macroH2A1 isoforms were massively upregulated in HCC, whereas macroH2A1.2 was specifically upregulated in steatosis. In addition, examination of human liver samples showed a significant difference (pConclusionsThese data obtained in mice and humans suggest that both macroH2A1 isoforms may play a role in HCC pathogenesis and moreover may be considered as novel diagnostic markers for human HCC.

Published

2013

49. Correction: Immunopositivity for Histone MacroH2A1 Isoforms Marks Steatosis-Associated Hepatocellular Carcinoma.

Author

Francesca Rappa, Azzura Greco, Christine Podrini, Francesco Cappello, Michelangelo Foti, Lucie Bourgoin, Marion Peyrou, Arianna Marino, Nunzia Scibetta, Roger Williams, Gianluigi Mazzoccoli, Massimo Federici, Valerio Pazienza, and Manlio Vinciguerra

Subjects

Medicine, Science

Published

2013

50. Sildenafil reduces insulin-resistance in human endothelial cells.

Author

Caterina Mammi, Donatella Pastore, Marco F Lombardo, Francesca Ferrelli, Massimiliano Caprio, Claudia Consoli, Manfredi Tesauro, Lucia Gatta, Massimo Fini, Massimo Federici, Paolo Sbraccia, Giulia Donadel, Alfonso Bellia, Giuseppe M Rosano, Andrea Fabbri, and Davide Lauro

Subjects

Medicine, Science

Abstract

BACKGROUND: The efficacy of Phosphodiesterase 5 (PDE5) inhibitors to re-establish endothelial function is reduced in diabetic patients. Recent evidences suggest that therapy with PDE5 inhibitors, i.e. sildenafil, may increase the expression of nitric oxide synthase (NOS) proteins in the heart and cardiomyocytes. In this study we analyzed the effect of sildenafil on endothelial cells in insulin resistance conditions in vitro. METHODOLOGY/PRINCIPAL FINDINGS: Human umbilical vein endothelial cells (HUVECs) were treated with insulin in presence of glucose 30 mM (HG) and glucosamine 10 mM (Gluc-N) with or without sildenafil. Insulin increased the expression of PDE5 and eNOS mRNA assayed by Real time-PCR. Cytofluorimetric analysis showed that sildenafil significantly increased NO production in basal condition. This effect was partially inhibited by the PI3K inhibitor LY 294002 and completely inhibited by the NOS inhibitor L-NAME. Akt-1 and eNOS activation was reduced in conditions mimicking insulin resistance and completely restored by sildenafil treatment. Conversely sildenafil treatment can counteract this noxious effect by increasing NO production through eNOS activation and reducing oxidative stress induced by hyperglycaemia and glucosamine. CONCLUSIONS/SIGNIFICANCE: These data indicate that sildenafil might improve NOS activity of endothelial cells in insulin resistance conditions and suggest the potential therapeutic use of sildenafil for improving vascular function in diabetic patients.

Published

2011