Your search keyword '"Claudio, Luchinat"' showing total 867 results

1. Cerebrospinal fluid lipoproteins inhibit α-synuclein aggregation by interacting with oligomeric species in seed amplification assays

Author

Giovanni Bellomo, Silvia Paciotti, Luis Concha-Marambio, Domenico Rizzo, Anna Lidia Wojdaƚa, Davide Chiasserini, Leonardo Gatticchi, Linda Cerofolini, Stefano Giuntini, Chiara Maria Giulia De Luca, Yihua Ma, Carly M. Farris, Giuseppe Pieraccini, Sara Bologna, Marta Filidei, Enrico Ravera, Moreno Lelli, Fabio Moda, Marco Fragai, Lucilla Parnetti, and Claudio Luchinat

Subjects

α-synuclein, Lipoproteins, Cerebrospinal fluid, Seed amplification assays, RT-QuIC, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract Background Aggregation of α-synuclein (α-syn) is a prominent feature of Parkinson’s disease (PD) and other synucleinopathies. Currently, α-syn seed amplification assays (SAAs) using cerebrospinal fluid (CSF) represent the most promising diagnostic tools for synucleinopathies. However, CSF itself contains several compounds that can modulate the aggregation of α-syn in a patient-dependent manner, potentially undermining unoptimized α-syn SAAs and preventing seed quantification. Methods In this study, we characterized the inhibitory effect of CSF milieu on detection of α-syn aggregates by means of CSF fractionation, mass spectrometry, immunoassays, transmission electron microscopy, solution nuclear magnetic resonance spectroscopy, a highly accurate and standardized diagnostic SAA, and different in vitro aggregation conditions to evaluate spontaneous aggregation of α-syn. Results We found the high-molecular weight fraction of CSF (> 100,000 Da) to be highly inhibitory on α-syn aggregation and identified lipoproteins to be the main drivers of this effect. Direct interaction between lipoproteins and monomeric α-syn was not detected by solution nuclear magnetic resonance spectroscopy, on the other hand we observed lipoprotein-α-syn complexes by transmission electron microscopy. These observations are compatible with hypothesizing an interaction between lipoproteins and oligomeric/proto-fibrillary α-syn intermediates. We observed significantly slower amplification of α-syn seeds in PD CSF when lipoproteins were added to the reaction mix of diagnostic SAA. Additionally, we observed a decreased inhibition capacity of CSF on α-syn aggregation after immunodepleting ApoA1 and ApoE. Finally, we observed that CSF ApoA1 and ApoE levels significantly correlated with SAA kinetic parameters in n = 31 SAA-negative control CSF samples spiked with preformed α-syn aggregates. Conclusions Our results describe a novel interaction between lipoproteins and α-syn aggregates that inhibits the formation of α-syn fibrils and could have relevant implications. Indeed, the donor-specific inhibition of CSF on α-syn aggregation explains the lack of quantitative results from analysis of SAA-derived kinetic parameters to date. Furthermore, our data show that lipoproteins are the main inhibitory components of CSF, suggesting that lipoprotein concentration measurements could be incorporated into data analysis models to eliminate the confounding effects of CSF milieu on α-syn quantification efforts.

Published

2023

2. COVID-19: A complex disease with a unique metabolic signature.

Author

Veronica Ghini, Walter Vieri, Tommaso Celli, Valentina Pecchioli, Nunzia Boccia, Tania Alonso-Vásquez, Lorenzo Pelagatti, Marco Fondi, Claudio Luchinat, Laura Bertini, Vieri Vannucchi, Giancarlo Landini, and Paola Turano

Subjects

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

Abstract

Plasma of COVID-19 patients contains a strong metabolomic/lipoproteomic signature, revealed by the NMR analysis of a cohort of >500 patients sampled during various waves of COVID-19 infection, corresponding to the spread of different variants, and having different vaccination status. This composite signature highlights common traits of the SARS-CoV-2 infection. The most dysregulated molecules display concentration trends that scale with disease severity and might serve as prognostic markers for fatal events. Metabolomics evidence is then used as input data for a sex-specific multi-organ metabolic model. This reconstruction provides a comprehensive view of the impact of COVID-19 on the entire human metabolism. The human (male and female) metabolic network is strongly impacted by the disease to an extent dictated by its severity. A marked metabolic reprogramming at the level of many organs indicates an increase in the generic energetic demand of the organism following infection. Sex-specific modulation of immune response is also suggested.

Published

2023

3. Novel metabolomics-biohumoral biomarkers model for predicting survival of metastatic soft-tissue sarcomas

Author

Alessia Vignoli, Gianmaria Miolo, Leonardo Tenori, Angela Buonadonna, Davide Lombardi, Agostino Steffan, Simona Scalone, Claudio Luchinat, and Giuseppe Corona

Subjects

Systems biology, Cancer, Metabolomics, Science

Abstract

Summary: Soft tissue sarcomas (STSs) are rare malignant tumors that are difficult to prognosticate using currently available instruments. Omics sciences could provide more accurate and individualized survival predictions for patients with metastatic STS. In this pilot, hypothesis-generating study, we integrated clinicopathological variables with proton nuclear magnetic resonance (1H NMR) plasma metabolomic and lipoproteomic profiles, capturing both tumor and host characteristics, to identify novel prognostic biomarkers of 2-year survival. Forty-five metastatic STS (mSTS) patients with prevalent leiomyosarcoma and liposarcoma histotypes receiving trabectedin treatment were enrolled. A score combining acetate, triglycerides low-density lipoprotein (LDL)-2, and red blood cell count was developed, and it predicts 2-year survival with optimal results in the present cohort (84.4% sensitivity, 84.6% specificity). This score is statistically significant and independent of other prognostic factors such as age, sex, tumor grading, tumor histotype, frailty status, and therapy administered. A nomogram based on these 3 biomarkers has been developed to inform the clinical use of the present findings.

Published

2023

4. Metabolite and lipoprotein profiles reveal sex-related oxidative stress imbalance in de novo drug-naive Parkinson’s disease patients

Author

Gaia Meoni, Leonardo Tenori, Sebastian Schade, Cristina Licari, Chiara Pirazzini, Maria Giulia Bacalini, Paolo Garagnani, Paola Turano, PROPAG-AGEING Consortium, Claudia Trenkwalder, Claudio Franceschi, Brit Mollenhauer, and Claudio Luchinat

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Parkinson’s disease (PD) is the neurological disorder showing the greatest rise in prevalence from 1990 to 2016. Despite clinical definition criteria and a tremendous effort to develop objective biomarkers, precise diagnosis of PD is still unavailable at early stage. In recent years, an increasing number of studies have used omic methods to unveil the molecular basis of PD, providing a detailed characterization of potentially pathological alterations in various biological specimens. Metabolomics could provide useful insights to deepen our knowledge of PD aetiopathogenesis, to identify signatures that distinguish groups of patients and uncover responsive biomarkers of PD that may be significant in early detection and in tracking the disease progression and drug treatment efficacy. The present work is the first large metabolomic study based on nuclear magnetic resonance (NMR) with an independent validation cohort aiming at the serum characterization of de novo drug-naive PD patients. Here, NMR is applied to sera from large training and independent validation cohorts of German subjects. Multivariate and univariate approaches are used to infer metabolic differences that characterize the metabolite and the lipoprotein profiles of newly diagnosed de novo drug-naive PD patients also in relation to the biological sex of the subjects in the study, evidencing a more pronounced fingerprint of the pathology in male patients. The presence of a validation cohort allowed us to confirm altered levels of acetone and cholesterol in male PD patients. By comparing the metabolites and lipoproteins levels among de novo drug-naive PD patients, age- and sex-matched healthy controls, and a group of advanced PD patients, we detected several descriptors of stronger oxidative stress.

Published

2022

5. Risk assessment of disease recurrence in early breast cancer: A serum metabolomic study focused on elderly patients

Author

Emanuela Risi, Camilla Lisanti, Alessia Vignoli, Chiara Biagioni, Agnese Paderi, Silvia Cappadona, Francesca Del Monte, Erica Moretti, Giuseppina Sanna, Luca Livraghi, Luca Malorni, Matteo Benelli, Fabio Puglisi, Claudio Luchinat, Leonardo Tenori, and Laura Biganzoli

Subjects

Metabolomics, Breast cancer, Prognosis, NMR spectroscopy, Elderly, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: We previously showed that metabolomics predicts relapse in early breast cancer (eBC) patients, unselected by age. This study aims to identify a “metabolic signature” that differentiates eBC from advanced breast cancer (aBC) patients, and to investigate its potential prognostic role in an elderly population. Methods: Serum samples from elderly breast cancer (BC) patients enrolled in 3 onco-geriatric trials, were retrospectively analyzed via proton nuclear magnetic resonance (1H NMR) spectroscopy. Three nuclear magnetic resonance (NMR) spectra were acquired for each serum sample: NOESY1D, CPMG, Diffusion-edited. Random Forest (RF) models to predict BC relapse were built on NMR spectra, and resulting RF risk scores were evaluated by Kaplan–Meier curves. Results: Serum samples from 140 eBC patients and 27 aBC were retrieved. In the eBC cohort, median age was 76 years; 77% of patients had luminal, 10% HER2-positive and 13% triple negative (TN) BC. Forty-two percent of patients had tumors >2 cm, 43% had positive axillary nodes. Using NOESY1D spectra, the RF classifier discriminated free-from-recurrence eBC from aBC with sensitivity, specificity and accuracy of 81%, 67% and 70% respectively. We tested the NOESY1D spectra of each eBC patient on the RF models already calculated. We found that patients classified as ''high risk'' had higher risk of disease recurrence (hazard ratio (HR) 3.42, 95% confidence interval (CI) 1.58–7.37) than patients at low-risk. Conclusions: This analysis suggests that a “metabolic signature”, identified employing NMR fingerprinting, is able to predict the risk of disease recurrence in elderly patients with eBC independently from standard clinicopathological features.

Published

2023

6. A framework for validating AI in precision medicine: considerations from the European ITFoC consortium

Author

Rosy Tsopra, Xose Fernandez, Claudio Luchinat, Lilia Alberghina, Hans Lehrach, Marco Vanoni, Felix Dreher, O.Ugur Sezerman, Marc Cuggia, Marie de Tayrac, Edvins Miklasevics, Lucian Mihai Itu, Marius Geanta, Lesley Ogilvie, Florence Godey, Cristian Nicolae Boldisor, Boris Campillo-Gimenez, Cosmina Cioroboiu, Costin Florian Ciusdel, Simona Coman, Oliver Hijano Cubelos, Alina Itu, Bodo Lange, Matthieu Le Gallo, Alexandra Lespagnol, Giancarlo Mauri, H.Okan Soykam, Bastien Rance, Paola Turano, Leonardo Tenori, Alessia Vignoli, Christoph Wierling, Nora Benhabiles, and Anita Burgun

Subjects

Artificial intelligence, Precision medicine, Personalized medicine, Computerized decision support systems, Cancer, Oncology, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Artificial intelligence (AI) has the potential to transform our healthcare systems significantly. New AI technologies based on machine learning approaches should play a key role in clinical decision-making in the future. However, their implementation in health care settings remains limited, mostly due to a lack of robust validation procedures. There is a need to develop reliable assessment frameworks for the clinical validation of AI. We present here an approach for assessing AI for predicting treatment response in triple-negative breast cancer (TNBC), using real-world data and molecular -omics data from clinical data warehouses and biobanks. Methods The European “ITFoC (Information Technology for the Future Of Cancer)” consortium designed a framework for the clinical validation of AI technologies for predicting treatment response in oncology. Results This framework is based on seven key steps specifying: (1) the intended use of AI, (2) the target population, (3) the timing of AI evaluation, (4) the datasets used for evaluation, (5) the procedures used for ensuring data safety (including data quality, privacy and security), (6) the metrics used for measuring performance, and (7) the procedures used to ensure that the AI is explainable. This framework forms the basis of a validation platform that we are building for the “ITFoC Challenge”. This community-wide competition will make it possible to assess and compare AI algorithms for predicting the response to TNBC treatments with external real-world datasets. Conclusions The predictive performance and safety of AI technologies must be assessed in a robust, unbiased and transparent manner before their implementation in healthcare settings. We believe that the consideration of the ITFoC consortium will contribute to the safe transfer and implementation of AI in clinical settings, in the context of precision oncology and personalized care.

Published

2021

7. Prediagnostic circulating metabolites in female breast cancer cases with low and high mammographic breast density

Author

Benedetta Bendinelli, Alessia Vignoli, Domenico Palli, Melania Assedi, Daniela Ambrogetti, Claudio Luchinat, Saverio Caini, Calogero Saieva, Paola Turano, and Giovanna Masala

Subjects

Medicine, Science

Abstract

Abstract Mammographic breast density (MBD) is a strong independent risk factor for breast cancer (BC). We designed a matched case–case study in the EPIC Florence cohort, to evaluate possible associations between the pre-diagnostic metabolomic profile and the risk of BC in high- versus low-MBD women who developed BC during the follow-up. A case–case design with 100 low-MBD (MBD ≤ 25%) and 100 high-MDB BC cases (MBD > 50%) was performed. Matching variables included age, year and type of mammographic examination. 1H NMR metabolomic spectra were available for 87 complete case–case sets. The conditional logistic analyses showed an inverse association between serum levels of alanine, leucine, tyrosine, valine, lactic acid, pyruvic acid, triglycerides lipid main fraction and 11 VLDL lipid subfractions and high-MBD cases. Acetic acid was directly associated with high-MBD cases. In models adjusted for confounding variables, tyrosine remained inversely associated with high-MBD cases while 3 VLDL subfractions of free cholesterol emerged as directly associated with high-MBD cases. A pathway analysis showed that the “phenylalanine, tyrosine and tryptophan pathway” emerged and persisted after applying the FDR procedure. The supervised OPLS-DA analysis revealed a slight but significant separation between high- and low-MBD cases. This case–case study suggested a possible role for pre-diagnostic levels of tyrosine in modulating the risk of BC in high- versus low-MBD women. Moreover, some differences emerged in the pre-diagnostic concentration of other metabolites as well in the metabolomic fingerprints among the two groups of patients.

Published

2021

8. Profiling metabolites and lipoproteins in COMETA, an Italian cohort of COVID-19 patients

Author

Veronica Ghini, Gaia Meoni, Lorenzo Pelagatti, Tommaso Celli, Francesca Veneziani, Fabrizia Petrucci, Vieri Vannucchi, Laura Bertini, Claudio Luchinat, Giancarlo Landini, and Paola Turano

Subjects

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

Abstract

Metabolomics and lipidomics have been used in several studies to define the biochemical alterations induced by COVID-19 in comparison with healthy controls. Those studies highlighted the presence of a strong signature, attributable to both metabolites and lipoproteins/lipids. Here, 1H NMR spectra were acquired on EDTA-plasma from three groups of subjects: i) hospitalized COVID-19 positive patients (≤21 days from the first positive nasopharyngeal swab); ii) hospitalized COVID-19 positive patients (>21 days from the first positive nasopharyngeal swab); iii) subjects after 2–6 months from SARS-CoV-2 eradication. A Random Forest model built using the EDTA-plasma spectra of COVID-19 patients ≤21 days and Post COVID-19 subjects, provided a high discrimination accuracy (93.6%), indicating both the presence of a strong fingerprint of the acute infection and the substantial metabolic healing of Post COVID-19 subjects. The differences originate from significant alterations in the concentrations of 16 metabolites and 74 lipoprotein components. The model was then used to predict the spectra of COVID-19>21 days subjects. In this group, the metabolite levels are closer to those of the Post COVID-19 subjects than to those of the COVID-19≤21 days; the opposite occurs for the lipoproteins. Within the acute phase patients, characteristic trends in metabolite levels are observed as a function of the disease severity. The metabolites found altered in COVID-19≤21 days patients with respect to Post COVID-19 individuals overlap with acute infection biomarkers identified previously in comparison with healthy subjects. Along the trajectory towards healing, the metabolome reverts back to the “healthy” state faster than the lipoproteome. Author summary 1H NMR spectra of EDTA-plasma from 246 COVID-19-positive subjects in the acute phase of infection were compared to those of 95 COVID-19-recovered subjects. The two cohorts are largely different (discrimination accuracy > 93%) due to a pool of 16 metabolites and 74 lipoprotein parameters significantly up- or down-regulated in the patients and within the healthy range in the recovered subjects. In 28 post-acute COVID-19-positive patients, the metabolites levels are reverted back to normality whereas the lipoprotein parameters are still altered. Therefore, the metabolite biomarkers might be used as the timeliest sign of the individual response to treatment or spontaneous healing.

Published

2022

9. Metabolomics Fingerprint Predicts Risk of Death in Dilated Cardiomyopathy and Heart Failure

Author

Alessia Vignoli, Alessandra Fornaro, Leonardo Tenori, Gabriele Castelli, Elisabetta Cecconi, Iacopo Olivotto, Niccolò Marchionni, Brunetto Alterini, and Claudio Luchinat

Subjects

metabolomics, heart failure, prognosis, NMR spectroscopy, precision medicine, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

BackgroundHeart failure (HF) is a leading cause of morbidity and mortality worldwide. Metabolomics may help refine risk assessment and potentially guide HF management, but dedicated studies are few. This study aims at stratifying the long-term risk of death in a cohort of patients affected by HF due to dilated cardiomyopathy (DCM) using serum metabolomics via nuclear magnetic resonance (NMR) spectroscopy.MethodsA cohort of 106 patients with HF due to DCM, diagnosed and monitored between 1982 and 2011, were consecutively enrolled between 2010 and 2012, and a serum sample was collected from each participant. Each patient underwent half-yearly clinical assessments, and survival status at the last follow-up visit in 2019 was recorded. The NMR serum metabolomic profiles were retrospectively analyzed to evaluate the patient's risk of death. Overall, 26 patients died during the 8-years of the study.ResultsThe metabolomic fingerprint at enrollment was powerful in discriminating patients who died (HR 5.71, p = 0.00002), even when adjusted for potential covariates. The outcome prediction of metabolomics surpassed that of N-terminal pro b-type natriuretic peptide (NT-proBNP) (HR 2.97, p = 0.005). Metabolomic fingerprinting was able to sub-stratify the risk of death in patients with both preserved/mid-range and reduced ejection fraction [hazard ratio (HR) 3.46, p = 0.03; HR 6.01, p = 0.004, respectively]. Metabolomics and left ventricular ejection fraction (LVEF), combined in a score, proved to be synergistic in predicting survival (HR 8.09, p = 0.0000004).ConclusionsMetabolomic analysis via NMR enables fast and reproducible characterization of the serum metabolic fingerprint associated with poor prognosis in the HF setting. Our data suggest the importance of integrating several risk parameters to early identify HF patients at high-risk of poor outcomes.

Published

2022

10. A protocol to automatically calculate homo-oligomeric protein structures through the integration of evolutionary constraints and NMR ambiguous contacts

Author

Davide Sala, Linda Cerofolini, Marco Fragai, Andrea Giachetti, Claudio Luchinat, and Antonio Rosato

Subjects

Homo-oligomers, Coevolution, NMR, Evolutionary constraints, Protein-protein interactions, Solid-state NMR, Biotechnology, TP248.13-248.65

Abstract

Protein assemblies are involved in many important biological processes. Solid-state NMR (SSNMR) spectroscopy is a technique suitable for the structural characterization of samples with high molecular weight and thus can be applied to such assemblies. A significant bottleneck in terms of both effort and time required is the manual identification of unambiguous intermolecular contacts. This is particularly challenging for homo-oligomeric complexes, where simple uniform labeling may not be effective. We tackled this challenge by exploiting coevolution analysis to extract information on homo-oligomeric interfaces from NMR-derived ambiguous contacts. After removing the evolutionary couplings (ECs) that are already satisfied by the 3D structure of the monomer, the predicted ECs are matched with the automatically generated list of experimental contacts. This approach provides a selection of potential interface residues that is used directly in monomer–monomer docking calculations. We validated the protocol on tetrameric L-asparaginase II and dimeric Sod1.

Published

2020

11. The early reduction of left ventricular mass after sleeve gastrectomy depends on the fall of branched-chain amino acid circulating levels

Author

Lidia Castagneto-Gissey, Giulia Angelini, Geltrude Mingrone, Elena Cavarretta, Leonardo Tenori, Cristina Licari, Claudio Luchinat, Anna Luise Tiepner, Nicola Basso, Stefan R. Bornstein, Deepak L. Bhatt, and Giovanni Casella

Subjects

Bariatric/metabolic surgery, Left ventricular mass, Epicardial fat, Metabolomics, Gene expression, Medicine, Medicine (General), R5-920

Abstract

Summary: Introduction: Body-mass index is a major determinant of left-ventricular-mass (LVM). Bariatric-metabolic surgery (BMS) reduces cardiovascular mortality. Its mechanism of action, however, often encompasses a weight-dependent effect. In this translational study, we aimed at investigating the mechanisms by which BMS leads to LVM reduction and functional improvement. Methods: Twenty patients (45.2 ± 8.5years) were studied with echocardiography at baseline and at 1,6,12 and 48 months after sleeve-gastrectomy (SG). Ten Wistar rats aged 10-weeks received high-fat diet ad libitum for 10 weeks before and 4 weeks after SG or sham-operation. An oral-glucose-tolerance-test was performed to measure whole-body insulin-sensitivity. Plasma metabolomics was analysed in both human and rodent samples. RNA quantitative Real-Time PCR and western blots were performed in rodent heart biopsies. The best-fitted partial-least-square discriminant-analysis model was used to explore the variable importance in the projection score of all metabolites. Findings: Echocardiographic LVM (-12%,-23%,-28% and -43% at 1,6,12 and 48 months, respectively) and epicardial fat decreased overtime after SG in humans while insulin-sensitivity improved. In rats, SG significantly reduced LVM and epicardial fat, enhanced ejection-fraction and improved insulin-sensitivity compared to sham-operation. Metabolomics showed a progressive decline of plasma branched-chain amino-acids (BCAA), alanine, lactate, 3-OH-butyrate, acetoacetate, creatine and creatinine levels in both humans and rodents.Hearts of SG rats had a more efficient BCAA, glucose and fatty-acid metabolism and insulin signaling than sham-operation. BCAAs in cardiomyocyte culture-medium stimulated lipogenic gene transcription and reduced mRNA levels of key mitochondrial β-oxidation enzymes promoting lipid droplet accumulation and glycolysis. Interpretation: After SG a prompt and sustained decrease of the LVM, epicardial fat and insulin resistance was found. Animal and in vitro studies showed that SG improves cardiac BCAA metabolism with consequent amelioration of fat oxidation and insulin signaling translating into decreased intra-myocytic fat accumulation and reduced lipotoxicity.

Published

2022

12. Exploration of Blood Metabolite Signatures of Colorectal Cancer and Polyposis through Integrated Statistical and Network Analysis

Author

Francesca Di Cesare, Alessia Vignoli, Claudio Luchinat, Leonardo Tenori, and Edoardo Saccenti

Subjects

metabolomics, colorectal cancer, polyposis, network inference, mass spectrometry, multivariate data exploration, Microbiology, QR1-502

Abstract

Colorectal cancer (CRC), one of the most prevalent and deadly cancers worldwide, generally evolves from adenomatous polyps. The understanding of the molecular mechanisms underlying this pathological evolution is crucial for diagnostic and prognostic purposes. Integrative systems biology approaches offer an optimal point of view to analyze CRC and patients with polyposis. The present study analyzed the association networks constructed from a publicly available array of 113 serum metabolites measured on a cohort of 234 subjects from three groups (66 CRC patients, 76 patients with polyposis, and 92 healthy controls), which concentrations were obtained via targeted liquid chromatography-tandem mass spectrometry. In terms of architecture, topology, and connectivity, the metabolite-metabolite association network of CRC patients appears to be completely different with respect to patients with polyposis and healthy controls. The most relevant nodes in the CRC network are those related to energy metabolism. Interestingly, phenylalanine, tyrosine, and tryptophan metabolism are found to be involved in both CRC and polyposis. Our results demonstrate that the characterization of metabolite–metabolite association networks is a promising and powerful tool to investigate molecular aspects of CRC.

Published

2023

13. NMR-based metabolomics identifies patients at high risk of death within two years after acute myocardial infarction in the AMI-Florence II cohort

Author

Alessia Vignoli, Leonardo Tenori, Betti Giusti, Panteleimon G. Takis, Serafina Valente, Nazario Carrabba, Daniela Balzi, Alessandro Barchielli, Niccolò Marchionni, Gian Franco Gensini, Rossella Marcucci, Claudio Luchinat, and Anna Maria Gori

Subjects

Acute myocardial infarction, Nuclear magnetic resonance, Serum, Metabolomics, Biomarker, Prognosis, Medicine

Abstract

Abstract Background Risk stratification and management of acute myocardial infarction patients continue to be challenging despite considerable efforts made in the last decades by many clinicians and researchers. The aim of this study was to investigate the metabolomic fingerprint of acute myocardial infarction using nuclear magnetic resonance spectroscopy on patient serum samples and to evaluate the possible role of metabolomics in the prognostic stratification of acute myocardial infarction patients. Methods In total, 978 acute myocardial infarction patients were enrolled in this study; of these, 146 died and 832 survived during 2 years of follow-up after the acute myocardial infarction. Serum samples were analyzed via high-resolution 1H-nuclear magnetic resonance spectroscopy and the spectra were used to characterize the metabolic fingerprint of patients. Multivariate statistics were used to create a prognostic model for the prediction of death within 2 years after the cardiovascular event. Results In the training set, metabolomics showed significant differential clustering of the two outcomes cohorts. A prognostic risk model predicted death with 76.9% sensitivity, 79.5% specificity, and 78.2% accuracy, and an area under the receiver operating characteristics curve of 0.859. These results were reproduced in the validation set, obtaining 72.6% sensitivity, 72.6% specificity, and 72.6% accuracy. Cox models were used to compare the known prognostic factors (for example, Global Registry of Acute Coronary Events score, age, sex, Killip class) with the metabolomic random forest risk score. In the univariate analysis, many prognostic factors were statistically associated with the outcomes; among them, the random forest score calculated from the nuclear magnetic resonance data showed a statistically relevant hazard ratio of 6.45 (p = 2.16×10−16). Moreover, in the multivariate regression only age, dyslipidemia, previous cerebrovascular disease, Killip class, and random forest score remained statistically significant, demonstrating their independence from the other variables. Conclusions For the first time, metabolomic profiling technologies were used to discriminate between patients with different outcomes after an acute myocardial infarction. These technologies seem to be a valid and accurate addition to standard stratification based on clinical and biohumoral parameters.

Published

2019

14. NMR Spectroscopy Combined with Machine Learning Approaches for Age Prediction in Healthy and Parkinson’s Disease Cohorts through Metabolomic Fingerprints

Author

Giovanna Maria Dimitri, Gaia Meoni, Leonardo Tenori, Claudio Luchinat, and Pietro Lió

Subjects

machine learning, metabolomics aging, spectrum, metabolites, lipids, Parkinson’s disease, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Biological aging can be affected by several factors such as drug treatments and pathological conditions. Metabolomics can help in the estimation of biological age by analyzing the differences between predicted and actual chronological age in different subjects. In this paper, we compared three different and well-known machine learning approaches—SVM, ElasticNet, and PLS—to build a model based on the 1H-NMR metabolomic data of serum samples, able to predict chronological age in control individuals. Then, we tested these models in two pathological cohorts of de novo and advanced PD patients. The discrepancies observed between predicted and actual age in patients are interpreted as a sign of a (pathological) biological aging process.

Published

2022

15. Molecular Engineering of Self-Immolative Bioresponsive MR Probes

Author

Jian-Hong Tang, Hao Li, Chaonan Yuan, Giacomo Parigi, Claudio Luchinat, and Thomas J. Meade

Subjects

Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Published

2023

16. Paramagnetism in Experimental Biomolecular NMR

Author

Claudio Luchinat, Giacomo Parigi, Enrico Ravera, Claudio Luchinat, Giacomo Parigi, Enrico Ravera

Published

2018

17. Metabolomic/lipidomic profiling of COVID-19 and individual response to tocilizumab.

Author

Gaia Meoni, Veronica Ghini, Laura Maggi, Alessia Vignoli, Alessio Mazzoni, Lorenzo Salvati, Manuela Capone, Anna Vanni, Leonardo Tenori, Paolo Fontanari, Federico Lavorini, Adriano Peris, Alessandro Bartoloni, Francesco Liotta, Lorenzo Cosmi, Claudio Luchinat, Francesco Annunziato, and Paola Turano

Subjects

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

Abstract

The current pandemic emergence of novel coronavirus disease (COVID-19) poses a relevant threat to global health. SARS-CoV-2 infection is characterized by a wide range of clinical manifestations, ranging from absence of symptoms to severe forms that need intensive care treatment. Here, plasma-EDTA samples of 30 patients compared with age- and sex-matched controls were analyzed via untargeted nuclear magnetic resonance (NMR)-based metabolomics and lipidomics. With the same approach, the effect of tocilizumab administration was evaluated in a subset of patients. Despite the heterogeneity of the clinical symptoms, COVID-19 patients are characterized by common plasma metabolomic and lipidomic signatures (91.7% and 87.5% accuracy, respectively, when compared to controls). Tocilizumab treatment resulted in at least partial reversion of the metabolic alterations due to SARS-CoV-2 infection. In conclusion, NMR-based metabolomic and lipidomic profiling provides novel insights into the pathophysiological mechanism of human response to SARS-CoV-2 infection and to monitor treatment outcomes.

Published

2021

18. Origin of the MRI Contrast in Natural and Hydrogel Formulation of Pineapple Juice

Author

Domenico Rizzo, Enrico Ravera, Marco Fragai, Giacomo Parigi, and Claudio Luchinat

Subjects

Biotechnology, TP248.13-248.65, Inorganic chemistry, QD146-197

Abstract

Magnetic resonance imaging (MRI) often requires contrast agents to improve the visualization in some tissues and organs, including the gastrointestinal tract. In this latter case, instead of intravascular administration, oral agents can be used. Natural oral contrast agents, such as fruit juice, have the advantages of better taste, tolerability, and lower price with respect to the artificial agents. We have characterized the relaxometry profiles of pineapple juice in order to understand the origin of the increase in relaxation rates (and thus of the MRI contrast) in reference to its content of manganese ions. Furthermore, we have characterized the relaxometry profiles of pineapple juice in the presence of alginate in different amounts; the interaction of the manganese ions with alginate slows down their reorientation time to some extent, with a subsequent increase in the relaxation rates. The relaxometry profiles were also compared with those of manganese(II) solutions in 50 mmol/dm3 sodium acetate solution (same pH of pineapple juice), which revealed sizable differences, mostly in the number of water molecules coordinated to the metal ion, their lifetimes, and in the constant of the Fermi-contact interaction. Finally, the fit of the transverse relaxivity shows that the increased viscosity in the hydrogel formulations can improve significantly the negative contrast of pineapple juice at the magnetic fields relevant for clinical MRI.

Published

2021

19. Different flavors of diffusion in paramagnetic systems: Unexpected NMR signal intensity and relaxation enhancements

Author

Enrico Ravera, Marco Fragai, Giacomo Parigi, and Claudio Luchinat

Subjects

MRI contrast agents, DNP, hyperpolarization, Overhauser, spin diffusion, Medical physics. Medical radiology. Nuclear medicine, R895-920, Physics, QC1-999

Abstract

The NMR community is well acquainted with different kinds of diffusion but, at the same time, there are several effects that are worth a better understanding for an improved design of molecular imaging and dynamic nuclear polarization experiments. Spin diffusion and chemical diffusion are known to play important roles in determining the NMR signal and relaxation enhancements caused by the presence of paramagnetic molecules in solution. Paramagnetic complexes are used as contrast agents in magnetic resonance imaging, due to their efficacy in selectively increase the relaxation rates of solvent water protons, as well as in dynamic nuclear polarization experiments to increase the NMR signal of desired molecules through polarization transfer from unpaired electrons. In this paper we review some recent, unexpected observations in these two areas, which seem related to spin and/or chemical diffusion, and demonstrate the need for a detailed understanding of the interplay of different phenomena. A deeper understanding of spin and chemical diffusion may thus result very important for an improved design of contrast agents for magnetic resonance imaging and for the optimization of hyperpolarization experiments.

Published

2020

20. On the complementarity of X-ray and NMR data

Author

Antonio Schirò, Azzurra Carlon, Giacomo Parigi, Garib Murshudov, Vito Calderone, Enrico Ravera, and Claudio Luchinat

Subjects

Structure refinement, Integrated structural biology, RDC, X-ray, REFMAC, Biology (General), QH301-705.5

Abstract

X-ray crystallography and NMR contain complementary information for the structural characterization of biological macromolecules. X-ray diffraction is primarily sensitive to the overall shape of the molecule, whereas NMR is mostly sensitive to the atomic detail. Their combination can therefore provide a stronger justification for the resulting structure. For their combination we have recently proposed REFMAC-NMR, which relies on primary data from both techniques for joint refinement. This possibility raises the compelling question of how far the complementarity can be extended. In this paper, we describe an integrative approach to the refinement with NMR data of four X-ray structures of hen-egg-white lysozyme, solved at atomic resolution in four different crystal forms, and we demonstrate that the outcome critically depends on the crystal form itself, reflecting the sensitivity of NMR to fine details.

Published

2020

21. Nuclear Magnetic Resonance-Based Metabolomics to Predict Early and Late Adverse Outcomes in Ischemic Stroke Treated with Intravenous Thrombolysis

Author

Cristina Licari, Leonardo Tenori, Francesca Di Cesare, Claudio Luchinat, Betti Giusti, Ada Kura, Rosina De Cario, Domenico Inzitari, Benedetta Piccardi, Mascia Nesi, Cristina Sarti, Francesco Arba, Vanessa Palumbo, Patrizia Nencini, Rossella Marcucci, Anna Maria Gori, and Elena Sticchi

Subjects

Stroke, Magnetic Resonance Spectroscopy, Treatment Outcome, Tissue Plasminogen Activator, Humans, Thrombolytic Therapy, General Chemistry, Biochemistry, Ischemic Stroke, Brain Ischemia

Abstract

Metabolic perturbations and inflammatory mediators play a fundamental role in both early and late adverse post-acute ischemic stroke outcomes. Using data from the observational MAGIC (MArker bioloGici nell'Ictus Cerebrale) study, we evaluated the effect of 130 serum metabolic features, using a nuclear magnetic spectroscopy approach, on the following outcomes: hemorrhagic transformation at 24 h after stroke, non-response to intravenous thrombolytic treatment with the recombinant tissue plasminogen activator (rt-PA), and the 3 month functional outcome. Blood circulating metabolites, lipoproteins, and inflammatory markers were assessed at the baseline and 24 h after rt-PA treatment. Adjusting for the major determinants for unfavorable outcomes (i.e., age, sex, time onset-to-treatment, etc.), we found that acetone and 3-hydroxybutyrate were associated with symptomatic hemorrhagic transformation and with non-response to rt-PA; while 24 h after rt-PA, levels of triglycerides high-density lipoprotein (HDL) and triglycerides low-density lipoprotein (LDL) were associated with 3 month mortality. Cholesterol and phospholipids levels, mainly related to smaller and denser very low-density lipoprotein (VLDL) and LDL subfractions were associated with 3 month poor functional outcomes. We also reported associations between baseline 24 h relative variation (Δ) in VLDL subfractions and ΔC-reactive protein, Δinterleukin-10 levels with hemorrhagic transformation. All observed metabolic changes reflect a general condition of energy failure, oxidative stress, and systemic inflammation that characterize the development of adverse outcomes.

Published

2022

22. Phenotyping Green and Roasted Beans of Nicaraguan Coffea Arabica Varieties Processed with Different Post-Harvest Practices

Author

Gaia Meoni, Claudio Luchinat, Enrico Gotti, Alejandro Cadena, and Leonardo Tenori

Subjects

metabolomics, phenotyping, nuclear magnetic resonance spectroscopy, coffee beans, coffee processing, coffee varieties, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Metabolomic tecniques have already been used to characterize two of the most common coffee species, C. arabica and C. canephora, but no studies have focused on the characterization of green and roasted coffee varieties of a certain species. We aim to provide, using NMR-based metabolomics, detailed and comprehensive information regarding the compositional differences of seven coffee varieties (C. arabica) of green and roasted coffee bean batches from Nicaragua. We also evaluated how different varieties react to the same post-harvest procedures such as fermentation time, type of drying and roasting. The characterization of the metabolomic profile of seven different Arabica varieties (Bourbon-typica), allowed us also to assess the possible use of an NMR spectra of bean aqueous extracts to recognize the farm of origin, even considering different farms from the same geographical area (Nueva Segovia). Here, we also evaluated the effect of post-harvest procedures such as fermentation time and type of drying on green and roasted coffee, suggesting that post-harvest procedures can be responsible for different flavours. This study provides proof of concept for the ability of NMR to phenotype coffee, helping to authenticate and optimise the best way of processing coffee.

Published

2021

23. Exploring Serum NMR-Based Metabolomic Fingerprint of Colorectal Cancer Patients: Effects of Surgery and Possible Associations with Cancer Relapse

Author

Alessia Vignoli, Elena Mori, Samantha Di Donato, Luca Malorni, Chiara Biagioni, Matteo Benelli, Vanessa Calamai, Stefano Cantafio, Annamaria Parnofiello, Maddalena Baraghini, Alessia Garzi, Francesca Del Monte, Dario Romagnoli, Ilenia Migliaccio, Claudio Luchinat, Leonardo Tenori, and Laura Biganzoli

Subjects

metabolomics, colorectal cancer, nuclear magnetic resonance, surgery, relapse, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Background: Colorectal cancer (CRC) is the fourth most commonly diagnosed and third most deadly cancer worldwide. Surgery is the main treatment option for early disease; however, a relevant proportion of CRC patients relapse. Here, variations among preoperative and postoperative serum metabolomic fingerprint of CRC patients were studied, and possible associations between metabolic variations and cancer relapse were explored. Methods: A total of 41 patients with stage I-III CRC, planned for radical resection, were enrolled. Serum samples, collected preoperatively (t0) and 4–6 weeks after surgery before the start of any treatment (t1), were analyzed via NMR spectroscopy. NMR data were analyzed using multivariate and univariate statistical approaches. Results: Serum metabolomic fingerprints show differential clustering between t0 and t1 (82–85% accuracy). Pyruvate, HDL-related parameters, acetone, and 3-hydroxybutyrate appear to be the major players in this discrimination. Eight out of the 41 CRC patients enrolled developed cancer relapse. Postoperative, relapsed patients show an increase of pyruvate and HDL-related parameters, and a decrease of Apo-A1 Apo-B100 ratio and VLDL-related parameters. Conclusions: Surgery significantly alters the metabolomic fingerprint of CRC patients. Some metabolic changes seem to be associated with the development of cancer relapse. These data, if validated in a larger cohort, open new possibilities for risk stratification in patients with early-stage CRC.

Published

2021

24. NMR for Single Ion Magnets

Author

Lucia Gigli, Silvia Di Grande, Enrico Ravera, Giacomo Parigi, and Claudio Luchinat

Subjects

Single Ion Magnets, NMR, electronic structure, susceptibility, computational methods, Chemistry, QD1-999

Abstract

Nuclear Magnetic Resonance is particularly sensitive to the electronic structure of matter and is thus a powerful tool to characterize in-depth the magnetic properties of a system. NMR is indeed increasingly recognized as an ideal tool to add precious structural information for the development of Single Ion Magnets, small complexes that are recently gaining much popularity due to their quantum computing and spintronics applications. In this review, we recall the theoretical principles of paramagnetic NMR, with particular attention to lanthanoids, and we give an overview of the recent advances in this field.

Published

2021

25. Deconvoluting interrelationships between concentrations and chemical shifts in urine provides a powerful analysis tool

Author

Panteleimon G. Takis, Hartmut Schäfer, Manfred Spraul, and Claudio Luchinat

Subjects

Science

Abstract

The NMR chemical shifts of a substance in urine strongly depend on the composition of the mixture itself, and this makes automatic assignment for quantification very difficult. Here the authors show the chemical shifts of signals and the concentration of NMR-invisible inorganic ions in urine, are predictable.

Published

2017

26. Exploration of Blood Lipoprotein and Lipid Fraction Profiles in Healthy Subjects through Integrated Univariate, Multivariate, and Network Analysis Reveals Association of Lipase Activity and Cholesterol Esterification with Sex and Age

Author

Yasmijn Balder, Alessia Vignoli, Leonardo Tenori, Claudio Luchinat, and Edoardo Saccenti

Subjects

analysis of biological networks, lipid metabolism, lipidomics, metabolomics, nuclear magnetic resonance, Microbiology, QR1-502

Abstract

In this study, we investigated blood lipoprotein and lipid fraction profiles, quantified using nuclear magnetic resonance, in a cohort of 844 healthy blood donors, integrating standard univariate and multivariate analysis with predictive modeling and network analysis. We observed a strong association of lipoprotein and lipid main fraction profiles with sex and age. Our results suggest an age-dependent remodulation of lipase lipoprotein activity in men and a change in the mechanisms controlling the ratio between esterified and non-esterified cholesterol in both men and women.

Published

2021

27. Epitope Mapping and Binding Assessment by Solid-State NMR Provide a Way for the Development of Biologics under the Quality by Design Paradigm

Author

Domenico Rizzo, Linda Cerofolini, Stefano Giuntini, Luisa Iozzino, Carlo Pergola, Francesca Sacco, Angelo Palmese, Enrico Ravera, Claudio Luchinat, Fabio Baroni, and Marco Fragai

Subjects

Biological Products, Magnetic Resonance Spectroscopy, Colloid and Surface Chemistry, Antibodies, Epitope Mapping, Proteins, General Chemistry, Biochemistry, Catalysis

Abstract

Multispecific biologics are an emerging class of drugs, in which antibodies and/or proteins designed to bind pharmacological targets are covalently linked or expressed as fusion proteins to increase both therapeutic efficacy and safety. Epitope mapping on the target proteins provides key information to improve the affinity and also to monitor the manufacturing process and drug stability. Solid-state NMR has been here used to identify the pattern of the residues of the programmed cell death ligand 1 (PD-L1) ectodomain that are involved in the interaction with a new multispecific biological drug. This is possible because the large size and the intrinsic flexibility of the complexes are not limiting factors for solid-state NMR.

Published

2022

28. KODAMA: an R package for knowledge discovery and data mining.

Author

Stefano Cacciatore, Leonardo Tenori, Claudio Luchinat, Phillip R. Bennett, and David MacIntyre

Published

2017

29. The evolution of paramagnetic NMR as a tool in structural biology

Author

Letizia Fiorucci, Giacomo Parigi, Claudio Luchinat, Enrico Ravera, and LUCIA GIGLI

Subjects

Magnetic Resonance Spectroscopy, Cryoelectron Microscopy, Metalloproteins, Molecular Conformation, General Physics and Astronomy, Physical and Theoretical Chemistry, Biology

Abstract

Paramagnetic NMR data contain extremely accurate long-range information on metalloprotein structures and, when used in the frame of integrative structural biology approaches, they allow for the retrieval of structural details to a resolution that is not achievable using other techniques. Paramagnetic data thus represent an extremely powerful tool to refine protein models in solution, especially when coupled to X-ray or cryoelectron microscopy data, to monitor the formation of complexes and determine the relative arrangements of their components, and to highlight the presence of conformational heterogeneity. More recently, theoretical and computational advancements in quantum chemical calculations of paramagnetic NMR observables are progressively opening new routes in structural biology, because they allow for the determination of the structure within the coordination sphere of the metal center, thus acting as a loupe on sites that are difficult to observe but very important for protein function.

Published

2022

30. Nuclear magnetic resonance spectroscopy to investigate the association between milk metabolites and udder quarter health status in dairy cows

Author

Mauro Penasa, Martino Cassandro, Tania Bobbo, Leonardo Tenori, Gaia Meoni, Giovanni Niero, and Claudio Luchinat

Subjects

Magnetic Resonance Spectroscopy, Health Status, Metabolite, Mammary gland, Cattle Diseases, Cell Count, Riboflavin, Biology, mastitis, chemistry.chemical_compound, Mammary Glands, Animal, Animal science, Genetics, Metabolome, medicine, Animals, Udder, Lactose, Mastitis, Bovine, food and beverages, medicine.disease, Mastitis, nuclear magnetic resonance, Milk, medicine.anatomical_structure, chemistry, biomarker, Cattle, Female, metabolome, Animal Science and Zoology, biomarker, mastitis, metabolome, nuclear magnetic resonance, nuclear magnetic resonancemetabolomemastitisbiomarker, Somatic cell count, Food Science

Abstract

Nuclear magnetic resonance spectroscopy was applied to investigate the association between milk metabolome and udder quarter health status in dairy cows. Mammary gland health status was defined by combining information provided by traditional somatic cell count (SCC) and differential SCC (DSCC), which expresses the percentage of neutrophils and lymphocytes over total SCC. Quarter milk samples were collected in triplicate (d 1 to 3) from 10 Simmental cows, 5 defined as cases and 5 defined as controls according to SCC levels at d 0. A total of 120 samples were collected and analyzed for bacteriology, milk composition, SCC, DSCC, and milk metabolome. Bacteriological analysis revealed the presence of mostly coagulase-negative staphylococci in quarter milk samples of cows defined as cases. Nuclear magnetic resonance spectra of all quarter samples were first analyzed using the unsupervised multivariate approach principal component analysis, which revealed a specific metabolomic fingerprint of each cow. Then, the supervised cross-validated orthogonal projections to latent structures discriminant analysis unquestionably showed that each cow could be very well identified according to its milk metabolomic fingerprint (accuracy = 95.8%). The comparison of 12 different models, built on bucketed 1-dimensional NOESY spectra (noesygppr1d, Bruker BioSpin) using different SCC and DSCC thresholds, corroborated the assumption of improved udder health status classification ability by joining information provided by both SCC and DSCC. Univariate analysis performed on the 34 quantitated metabolites revealed lower levels of riboflavin, galactose, galactose-1-phosphate, dimethylsulfone, carnitine, hippurate, orotate, lecithin, succinate, glucose, and lactose, and greater levels of lactate, phenylalanine, choline, acetate, O-acetylcarnitine, 2-oxoglutarate, and valine, in milk samples with high somatic cells. In the 5 cases, results of the udder quarter with the highest SCC compared with its symmetrical relative were in line with quarter-level findings. Our study suggests that increased SCC is associated with changes in milk metabolite fingerprint and highlights the potential use of different metabolites as novel indicators of udder health status and milk quality.

Published

2022

31. Supplementary figure S1 from Serum Metabolomic Profiles Identify ER-Positive Early Breast Cancer Patients at Increased Risk of Disease Recurrence in a Multicenter Population

Author

Angelo Di Leo, Claudio Luchinat, Richard R. Love, Emanuela Risi, Laura Biganzoli, Syed Mozammel Hossain, Clement Adebamowo, Ta Van To, Gemma Leonora Uy, Leonardo Tenori, Alessia Vignoli, and Christopher D. Hart

Abstract

Receiver operator characteristic (ROC) analysis of the RF risk score as a predictor of relapse in the initial cohort, for CPMG spectra: A) training set; B) validation set.

Published

2023

32. Data from Serum Metabolomic Profiles Identify ER-Positive Early Breast Cancer Patients at Increased Risk of Disease Recurrence in a Multicenter Population

Author

Angelo Di Leo, Claudio Luchinat, Richard R. Love, Emanuela Risi, Laura Biganzoli, Syed Mozammel Hossain, Clement Adebamowo, Ta Van To, Gemma Leonora Uy, Leonardo Tenori, Alessia Vignoli, and Christopher D. Hart

Abstract

Purpose: Detecting signals of micrometastatic disease in patients with early breast cancer (EBC) could improve risk stratification and allow better tailoring of adjuvant therapies. We previously showed that postoperative serum metabolomic profiles were predictive of relapse in a single-center cohort of estrogen receptor (ER)–negative EBC patients. Here, we investigated this further using preoperative serum samples from ER-positive, premenopausal women with EBC who were enrolled in an international phase III trial.Experimental Design: Proton nuclear magnetic resonance (NMR) spectroscopy of 590 EBC samples (319 with relapse or ≥6 years clinical follow-up) and 109 metastatic breast cancer (MBC) samples was performed. A Random Forest (RF) classification model was built using a training set of 85 EBC and all MBC samples. The model was then applied to a test set of 234 EBC samples, and a risk of recurrence score was generated on the basis of the likelihood of the sample being misclassified as metastatic.Results: In the training set, the RF model separated EBC from MBC with a discrimination accuracy of 84.9%. In the test set, the RF recurrence risk score correlated with relapse, with an AUC of 0.747 in ROC analysis. Accuracy was maximized at 71.3% (sensitivity, 70.8%; specificity, 71.4%). The model performed independently of age, tumor size, grade, HER2 status and nodal status, and also of Adjuvant! Online risk of relapse score.Conclusions: In a multicenter group of EBC patients, we developed a model based on preoperative serum metabolomic profiles that was prognostic for disease recurrence, independent of traditional clinicopathologic risk factors. Clin Cancer Res; 23(6); 1422–31. ©2017 AACR.

Published

2023

33. Supplementary Table S2 from Serum Metabolomic Profiles Identify ER-Positive Early Breast Cancer Patients at Increased Risk of Disease Recurrence in a Multicenter Population

Author

Angelo Di Leo, Claudio Luchinat, Richard R. Love, Emanuela Risi, Laura Biganzoli, Syed Mozammel Hossain, Clement Adebamowo, Ta Van To, Gemma Leonora Uy, Leonardo Tenori, Alessia Vignoli, and Christopher D. Hart

Abstract

Comparison of individual metabolite concentrations in arbitrary units in the serum NMR spectra of relapsing and non-relapsing EBC patients. Adjusted P-values for the comparison of relapsing and non-relapsing EBC Adjusted P-values are for the significance of any difference between EBC and MBC. MAD = median absolute deviation.

Published

2023

34. Supplementary Figure Legend from Serum Metabolomic Profiles Identify ER-Positive Early Breast Cancer Patients at Increased Risk of Disease Recurrence in a Multicenter Population

Author

Angelo Di Leo, Claudio Luchinat, Richard R. Love, Emanuela Risi, Laura Biganzoli, Syed Mozammel Hossain, Clement Adebamowo, Ta Van To, Gemma Leonora Uy, Leonardo Tenori, Alessia Vignoli, and Christopher D. Hart

Abstract

Supplementary Figure Legend

Published

2023

35. Supplementary Methods, Tables 1-3 from Metabolomic NMR Fingerprinting to Identify and Predict Survival of Patients with Metastatic Colorectal Cancer

Author

Paola Turano, Dorte L. Nielsen, Claudio Luchinat, Mogens Kruhøffer, Julia S. Johansen, Jakob V. Schou, Benny V. Jensen, Stefano Cacciatore, and Ivano Bertini

Abstract

PDF file - 99K, Supplementary Methods and Supplementary Tables S1-S3.

Published

2023

36. On the Mechanism of Bioinspired Formation of Inorganic Oxides: Structural Evidence of the Electrostatic Nature of the Interaction between a Mononuclear Inorganic Precursor and Lysozyme

Author

Lucia Gigli, Enrico Ravera, Vito Calderone, and Claudio Luchinat

Subjects

lysozyme, titanium, biomineralization, inorganic oxides, Microbiology, QR1-502

Abstract

Nature has evolved several molecular machineries to promote the formation at physiological conditions of inorganic materials, which would otherwise be formed in extreme conditions. The molecular determinants of this process have been established over the last decade, identifying a strong role of electrostatics in the first steps of the precipitation. However, no conclusive, structure-based evidence has been provided so far. In this manuscript, we test the binding of lysozyme with silica and titania potential precursors. In contrast with the absence of structural information about the interaction with the silica precursor, we observe the interaction with a mononuclear titanium(IV) species, which is found to occur in a region rich of positive charges.

Published

2020

37. Effects of Probiotics Administration on Human Metabolic Phenotype

Author

Veronica Ghini, Leonardo Tenori, Marco Pane, Angela Amoruso, Giada Marroncini, Diletta Francesca Squarzanti, Barbara Azzimonti, Roberta Rolla, Paola Savoia, Mirko Tarocchi, Andrea Galli, and Claudio Luchinat

Subjects

probiotics, metabolomics, nuclear magnetic resonance spectroscopy, gut microflora, Microbiology, QR1-502

Abstract

The establishment of the beneficial interactions between the host and its microbiota is essential for the correct functioning of the organism, since microflora alterations can lead to many diseases. Probiotics improve balanced microbial communities, exerting substantial health-promoting effects. Here we monitored the molecular outcomes, obtained by gut microflora modulation through probiotic treatment, on human urine and serum metabolic profiles, with a metabolomic approach. Twenty-two subjects were enrolled in the study and administered with two different probiotic types, both singularly and in combination, for 8 weeks. Urine and serum samples were collected before and during the supplementation and were analyzed by nuclear magnetic resonance (NMR) spectroscopy and statistical analyses. After eight weeks of treatment, probiotics deeply influence the urinary metabolic profiles of the volunteers, without significantly altering their single phenotypes. Anyway, bacteria supplementation tends to reduce the differences in metabolic phenotypes among individuals. Overall, the effects are recipient-dependent, and in some individuals, robust effects are already well visible after four weeks. Modifications in metabolite levels, attributable to each type of probiotic administration, were also monitored. Metabolomic analysis of biofluids turns out to be a powerful technique to monitor the dynamic interactions between the microflora and the host, and the individual response to probiotic assumption.

Published

2020

38. Breathomics for Assessing the Effects of Treatment and Withdrawal With Inhaled Beclomethasone/Formoterol in Patients With COPD

Author

Paolo Montuschi, Giuseppe Santini, Nadia Mores, Alessia Vignoli, Francesco Macagno, Rugia Shoreh, Leonardo Tenori, Gina Zini, Leonello Fuso, Chiara Mondino, Corrado Di Natale, Arnaldo D'Amico, Claudio Luchinat, Peter J. Barnes, and Tim Higenbottam

Subjects

breathomics, inhaled corticosteroids, long-acting β2-agonists, COPD, pharmacotherapy, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Prospective pharmacological studies on breathomics profiles in COPD patients have not been previously reported. We assessed the effects of treatment and withdrawal of an extrafine inhaled corticosteroid (ICS)-long-acting β2-agonist (LABA) fixed dose combination (FDC) using a multidimensional classification model including breathomics.Methods: A pilot, proof-of-concept, pharmacological study was undertaken in 14 COPD patients on maintenance treatment with inhaled fluticasone propionate/salmeterol (500/50 μg b.i.d.) for at least 8 weeks (visit 1). Patients received 2-week treatment with inhaled beclomethasone dipropionate/formoterol (100/6 μg b.i.d.) (visit 2), 4-week treatment with formoterol alone (6 μg b.i.d.) (visit 3), and 4-week treatment with beclomethasone/formoterol (100/6 μg b.i.d.) (visit 4). Exhaled breath analysis with two e-noses, based on different technologies, and exhaled breath condensate (EBC) NMR-based metabolomics were performed. Sputum cell counts, sputum supernatant and EBC prostaglandin E2 (PGE2) and 15-F2t-isoprostane, fraction of exhaled nitric oxide, and spirometry were measured.Results: Compared with formoterol alone, EBC acetate and sputum PGE2, reflecting airway inflammation, were reduced after 4-week beclomethasone/formoterol. Three independent breathomics techniques showed that extrafine beclomethasone/formoterol short-term treatment was associated with different breathprints compared with regular fluticasone propionate/salmeterol. Either ICS/LABA FDC vs. formoterol alone was associated with increased pre-bronchodilator FEF25−75% and FEV1/FVC (P = 0.008–0.029). The multidimensional model distinguished fluticasone propionate/salmeterol vs. beclomethasone/formoterol, fluticasone propionate/salmeterol vs. formoterol, and formoterol vs. beclomethasone/formoterol (accuracy > 70%, P < 0.01).Conclusions: Breathomics could be used for assessing ICS treatment and withdrawal in COPD patients. Large, controlled, prospective pharmacological trials are required to clarify the biological implications of breathomics changes. EUDRACT number: 2012-001749-42.

Published

2018

39. Fecal metabolomic profiles: A comparative study of patients with colorectal cancer vs adenomatous polyps

Author

Edda Russo, Elena Niccolai, Gaia Meoni, Claudio Luchinat, Leonardo Tenori, Giulia Nannini, Maria Novella Ringressi, Antonio Taddei, Simone Baldi, and Amedeo Amedei

Subjects

medicine.medical_specialty, Adenomatous polyps, business.industry, Colorectal cancer, Gastroenterology, General Medicine, medicine.disease, digestive system diseases, surgical procedures, operative, fluids and secretions, Metabolomics, Internal medicine, otorhinolaryngologic diseases, Medicine, business, neoplasms, Feces

Abstract

Fecal metabolomic profiles: A comparative study of patients with colorectal cancer vs adenomatous polyps

Published

2021

40. Review for 'Monitoring Live Mitochondrial Metabolism in Real‐Time Using NMR Spectroscopy'

Author

null Claudio Luchinat

Published

2022

41. NMR-Based Metabolomics to Evaluate Individual Response to Treatments

Author

Alessia, Vignoli, Gaia, Meoni, Veronica, Ghini, Francesca, Di Cesare, Leonardo, Tenori, Claudio, Luchinat, and Paola, Turano

Abstract

The aim of this chapter is to highlight the various aspects of metabolomics in relation to health and diseases, starting from the definition of metabolic space and of how individuals tend to maintain their own position in this space. Physio-pathological stimuli may cause individuals to lose their position and then regain it, or move irreversibly to other positions. By way of examples, mostly selected from our own work using

Published

2022

42. Association of Plasma Metabolites and Lipoproteins with Rh and ABO Blood Systems in Healthy Subjects

Author

Francesca Di Cesare, Leonardo Tenori, Claudio Luchinat, and Edoardo Saccenti

Subjects

Male, Systeem en Synthetische Biologie, robust linear models, HDL, Lipoproteins, Cholesterol, HDL, General Chemistry, Biochemistry, metabolomics, Healthy Volunteers, LDL, ABO Blood-Group System, Cholesterol, Humans, Systems and Synthetic Biology, lipoproteomics, Female, Triglycerides, Apolipoproteins B

Abstract

This study investigated the associations between the levels of 27 plasma metabolites, 114 lipoprotein parameters, determined using nuclear magnetic resonance spectroscopy, and the ABO blood groups and the Rhesus (Rh) blood system in a cohort of n = 840 Italian healthy blood donors of both sexes. We observed good multivariate discrimination between the metabolomic and lipoproteomic profiles of subjects with positive and negative Rh. In contrast, we did not observe significant discrimination for the ABO blood group pairwise comparisons, suggesting only slight metabolic differences between these group-specific metabolic profiles. We report univariate associations (P-value < 0.05) between the subfraction HDL1 related to Apo A1, the subfraction HDL2 related to cholesterol and phospholipids, and the particle number of LDL2 related to free cholesterol, cholesterol, phospholipids, and Apo B and the ABO blood groups; we observed association of the lipid main fraction LDL4 related to free cholesterol, triglycerides, and Apo B; creatine; the particle number of LDL5; the subfraction LDL5 related to Apo B; the particle number of LDL4; and the subfraction LDL4 related to Apo B with Rh blood factors. These results suggest blood group-dependent (re)shaping of lipoprotein metabolism in healthy subjects, which may provide relevant information to explain the differential susceptibility to certain diseases observed in different blood groups.

Published

2022

43. Elucidating the concentration-dependent effects of thiocyanate binding to carbonic anhydrase

Author

José Malanho Silva, Linda Cerofolini, Ana Luísa Carvalho, Enrico Ravera, Marco Fragai, Giacomo Parigi, Anjos L. Macedo, Carlos F.G.C. Geraldes, and Claudio Luchinat

Subjects

Inorganic Chemistry, Biochemistry

Published

2023

44. Practical considerations for rapid and quantitative NMR-based metabolomics

Author

Frans A.A. Mulder, Leonardo Tenori, Cristina Licari, and Claudio Luchinat

Subjects

Nuclear and High Energy Physics, Biophysics, Condensed Matter Physics, Biochemistry

Published

2023

45. Structure and Dynamics Perturbations in Ubiquitin Adsorbed or Entrapped in Silica Materials Are Related to Disparate Surface Chemistries Resolved by Solid-State NMR Spectroscopy

Author

Eli Ohaion, Merav Nadav-Tsubery, Massimo Lucci, Tammy Lublin-Tennenbaum, Avital Schremer, Claudio Luchinat, Gil Goobes, Keren Keinan-Adamsky, Enrico Ravera, Gilit Verner, and Nurit Adiram-Filiba

Subjects

In situ, Work (thermodynamics), Magnetic Resonance Spectroscopy, Materials science, Polymers and Plastics, Resolution (mass spectrometry), Ubiquitin, Proteins, Bioengineering, Silicon Dioxide, Catalysis, Biomaterials, Residue (chemistry), Immobilized Proteins, Adsorption, Solid-state nuclear magnetic resonance, Chemical engineering, Materials Chemistry, Spectroscopy

Abstract

Protein immobilization on material surfaces is emerging as a powerful tool in the design of devices and active materials for biomedical and pharmaceutical applications as well as for catalysis. Preservation of the protein's biological functionality is crucial to the design process and is dependent on the ability to maintain its structural and dynamical integrity while removed from the natural surroundings. The scientific techniques to validate the structure of immobilized proteins are scarce and usually provide limited information as a result of poor resolution. In this work, we benchmarked the ability of standard solid-state NMR techniques to resolve the effects of binding to dissimilar silica materials on a model protein. In particular, the interactions between ubiquitin and the surfaces of MCM41, SBA15, and silica formed in situ were tested for their influence on the structure and dynamics of the protein. It is shown that the protein's globular fold in the free state is only slightly perturbed in the three silica materials. Local motions on a residue level that are quenched by immobilization or, conversely, that arise from the process are also detailed. NMR measurements show that these perturbations are unique to each silica material and can serve as reporters of the characteristic surface chemistry.

Published

2021

46. Cerebrospinal fluid lipoproteins inhibit α-synuclein aggregation by interacting with oligomeric species in seed amplification assays

Author

Giovanni Bellomo, Silvia Paciotti, Luis Concha-Marambio, Domenico Rizzo, Leonardo Gatticchi, Linda Cerofolini, Stefano GIuntini, Chiara Maria Giulia De Luca, Yihua Ma, Carly M. Farris, Giuseppe Pieraccini, Sara Bologna, Marta Filidei, Enrico Ravera, Moreno Lelli, Fabio Moda, Marco Fragai, Lucilla Parnetti, and Claudio Luchinat

Abstract

Background: Aggregation of α-synuclein (α-syn) is a prominent feature of Parkinson’s disease (PD) and other synucleinopathies. In these diseases, the extracellular spreading of misfolded α-syn significantly contributes to the cell-to-cell propagation of the α-syn misfolding pathology in a prion-like fashion. Therefore, extracellular α-syn aggregates are considered primary targets both for diagnostics and for novel disease modifying therapies. Currently, α-syn seed amplification assays (SAAs) using cerebrospinal fluid (CSF) represent the most promising diagnostic tools for synucleinopathies. However, CSF itself contains several compounds that can modulate the aggregation of α-syn in a patient-dependent manner, potentially sabotaging unoptimized α-syn SAAs and preventing seed quantification. Methods: In this study, we characterized the inhibitory effect of CSF on in vitro α-syn aggregation by means of CSF fractionation, mass spectrometry, dot-blot, Western blot, transmission electron microscopy, solution nuclear magnetic resonance spectroscopy, a highly accurate and standardized diagnostic SAA, and different in vitro aggregation conditions to evaluate spontaneous aggregation of α-syn. Results: We found the high-molecular weight fraction of CSF (>100,000 Da) to be highly inhibitory and identified lipoproteins to be the main drivers of this effect. We evaluated direct interaction between lipoprotein and α-syn and observed lipoprotein-α-syn complexes by transmission electron microscopy. Direct interaction between lipoproteins and monomeric α-syn was not detected by solution nuclear magnetic resonance spectroscopy, suggesting interaction between lipoproteins and oligomeric/proto-fibrillary α-syn intermediates instead. Lastly, we observed significantly slower amplification of α-syn seeds in PD CSF when lipoproteins were added to the reaction mix of a highly accurate diagnostic SAA. Conclusions: Our results describe a novel interaction between lipoproteins and α-syn aggregates that inhibits the formation of α-syn fibrils and could have relevant biological and translational implications. Indeed, the donor-specific inhibition of CSF on α-syn aggregation explains the lack of quantitative results so far obtained by the analysis of SAA-derived kinetic parameters. Furthermore, our data show that apolipoproteins are the main inhibitory components of CSF, suggesting that lipoprotein concentration measurements could be incorporated into data analysis models to eliminate the confounding effects of CSF milieu on α-syn quantification efforts.

Published

2022

47. Prediagnostic circulating metabolites in female breast cancer cases with low and high mammographic breast density

Author

Paola Turano, Claudio Luchinat, Alessia Vignoli, Domenico Palli, Melania Assedi, Saverio Caini, D. Ambrogetti, Calogero Saieva, Benedetta Bendinelli, and Giovanna Masala

Subjects

0301 basic medicine, Adult, medicine.medical_specialty, Very low-density lipoprotein, Lipoproteins, Science, Phenylalanine, Breast Neoplasms, Article, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, metabolomics, breast cancer, mammographic breast density, NMR, Valine, Internal medicine, medicine, Humans, Tyrosine, Risk factor, Least-Squares Analysis, Breast Density, Principal Component Analysis, Multidisciplinary, business.industry, Confounding, Discriminant Analysis, Middle Aged, medicine.disease, Lipids, 030104 developmental biology, Endocrinology, Metabolic pathways, 030220 oncology & carcinogenesis, Metabolome, Medicine, Female, Leucine, business, Biomarkers, Mammography

Abstract

Mammographic breast density (MBD) is a strong independent risk factor for breast cancer (BC). We designed a matched case–case study in the EPIC Florence cohort, to evaluate possible associations between the pre-diagnostic metabolomic profile and the risk of BC in high- versus low-MBD women who developed BC during the follow-up. A case–case design with 100 low-MBD (MBD ≤ 25%) and 100 high-MDB BC cases (MBD > 50%) was performed. Matching variables included age, year and type of mammographic examination. 1H NMR metabolomic spectra were available for 87 complete case–case sets. The conditional logistic analyses showed an inverse association between serum levels of alanine, leucine, tyrosine, valine, lactic acid, pyruvic acid, triglycerides lipid main fraction and 11 VLDL lipid subfractions and high-MBD cases. Acetic acid was directly associated with high-MBD cases. In models adjusted for confounding variables, tyrosine remained inversely associated with high-MBD cases while 3 VLDL subfractions of free cholesterol emerged as directly associated with high-MBD cases. A pathway analysis showed that the “phenylalanine, tyrosine and tryptophan pathway” emerged and persisted after applying the FDR procedure. The supervised OPLS-DA analysis revealed a slight but significant separation between high- and low-MBD cases. This case–case study suggested a possible role for pre-diagnostic levels of tyrosine in modulating the risk of BC in high- versus low-MBD women. Moreover, some differences emerged in the pre-diagnostic concentration of other metabolites as well in the metabolomic fingerprints among the two groups of patients.

Published

2021

48. Paramagnetic NMR restraints for the characterization of protein structural rearrangements

Author

Giacomo Parigi, Enrico Ravera, Mario Piccioli, and Claudio Luchinat

Subjects

Structural Biology, Molecular Biology

Published

2023

49. Origin of the MRI Contrast in Natural and Hydrogel Formulation of Pineapple Juice

Author

Enrico Ravera, Claudio Luchinat, Giacomo Parigi, Marco Fragai, and Domenico Rizzo

Subjects

Relaxometry, Article Subject, media_common.quotation_subject, chemistry.chemical_element, 02 engineering and technology, Manganese, 010402 general chemistry, 01 natural sciences, Biochemistry, Inorganic Chemistry, chemistry.chemical_compound, Viscosity, Contrast (vision), QD146-197, media_common, Chromatography, Organic Chemistry, Relaxation (NMR), 021001 nanoscience & nanotechnology, 0104 chemical sciences, PINEAPPLE JUICE, chemistry, Fruit juice, 0210 nano-technology, Sodium acetate, TP248.13-248.65, Biotechnology, Research Article

Abstract

Magnetic resonance imaging (MRI) often requires contrast agents to improve the visualization in some tissues and organs, including the gastrointestinal tract. In this latter case, instead of intravascular administration, oral agents can be used. Natural oral contrast agents, such as fruit juice, have the advantages of better taste, tolerability, and lower price with respect to the artificial agents. We have characterized the relaxometry profiles of pineapple juice in order to understand the origin of the increase in relaxation rates (and thus of the MRI contrast) in reference to its content of manganese ions. Furthermore, we have characterized the relaxometry profiles of pineapple juice in the presence of alginate in different amounts; the interaction of the manganese ions with alginate slows down their reorientation time to some extent, with a subsequent increase in the relaxation rates. The relaxometry profiles were also compared with those of manganese(II) solutions in 50 mmol/dm3 sodium acetate solution (same pH of pineapple juice), which revealed sizable differences, mostly in the number of water molecules coordinated to the metal ion, their lifetimes, and in the constant of the Fermi-contact interaction. Finally, the fit of the transverse relaxivity shows that the increased viscosity in the hydrogel formulations can improve significantly the negative contrast of pineapple juice at the magnetic fields relevant for clinical MRI.

Published

2021

50. Risk assessment of disease recurrence in early breast cancer: A serum metabolomic study focused on elderly patients

Author

Emanuela Risi, Camilla Lisanti, Alessia Vignoli, Chiara Biagioni, Agnese Paderi, Silvia Cappadona, Francesca Del Monte, Erica Moretti, Giuseppina Sanna, Luca Livraghi, Luca Malorni, Matteo Benelli, Fabio Puglisi, Claudio Luchinat, Leonardo Tenori, and Laura Biganzoli

Subjects

Cancer Research, Oncology

Abstract

We previously showed that metabolomics predicts relapse in early breast cancer (eBC) patients, unselected by age. This study aims to identify a "metabolic signature" that differentiates eBC from advanced breast cancer (aBC) patients, and to investigate its potential prognostic role in an elderly population.Serum samples from elderly breast cancer (BC) patients enrolled in 3 onco-geriatric trials, were retrospectively analyzed via proton nuclear magnetic resonance (1H NMR) spectroscopy. Three nuclear magnetic resonance (NMR) spectra were acquired for each serum sample: NOESY1D, CPMG, Diffusion-edited. Random Forest (RF) models to predict BC relapse were built on NMR spectra, and resulting RF risk scores were evaluated by Kaplan-Meier curves.Serum samples from 140 eBC patients and 27 aBC were retrieved. In the eBC cohort, median age was 76 years; 77% of patients had luminal, 10% HER2-positive and 13% triple negative (TN) BC. Forty-two percent of patients had tumors2 cm, 43% had positive axillary nodes. Using NOESY1D spectra, the RF classifier discriminated free-from-recurrence eBC from aBC with sensitivity, specificity and accuracy of 81%, 67% and 70% respectively. We tested the NOESY1D spectra of each eBC patient on the RF models already calculated. We found that patients classified as "high risk" had higher risk of disease recurrence (hazard ratio (HR) 3.42, 95% confidence interval (CI) 1.58-7.37) than patients at low-risk.This analysis suggests that a "metabolic signature", identified employing NMR fingerprinting, is able to predict the risk of disease recurrence in elderly patients with eBC independently from standard clinicopathological features.

Published

2022