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7. Effect of 30 days of ketogenic Mediterranean diet with phytoextracts on athletes' gut microbiome composition

Author

Laura Mancin, Stefano Amatori, Massimiliano Caprio, Eleonora Sattin, Loris Bertoldi, Lorenzo Cenci, Davide Sisti, Antonino Bianco, Antonio Paoli, Mancin L., Amatori S., Caprio M., Sattin E., Bertoldi L., Cenci L., Sisti D., Bianco A., and Paoli A.

Subjects
athletes, exercise, gut microbiota, ketogenic diet, sport nutrition, Nutrition and Dietetics, Endocrinology, Diabetes and Metabolism, Food Science
Abstract

BackgroundRecent research suggest that gut microbiome may play a fundamental role in athlete's health and performance. Interestingly, nutrition can affect athletic performance by influencing the gut microbiome composition. Among different dietary patterns, ketogenic diet represents an efficient nutritional approach to get adequate body composition in athletes, however, some concerns have been raised about its potential detrimental effect on gut microbiome. To the best of our knowledge, only one study investigated the effect of ketogenic diet on the gut microbiome in athletes (elite race walkers), whilst no studies are available in a model of mixed endurance/power sport such as soccer. This study aimed to investigate the influence of a ketogenic Mediterranean diet with phytoextracts (KEMEPHY) diet on gut microbiome composition in a cohort of semi-professional soccer players.Methods16 male soccer players were randomly assigned to KEMEPHY diet (KDP n = 8) or western diet (WD n = 8). Body composition, performance measurements and gut microbiome composition were measured before and after 30 days of intervention by 16S rRNA amplicon sequencing. Alpha-diversity measures and PERMANOVA was used to investigate pre-post differences in the relative abundance of all taxonomic levels (from phylum to genus) and Spearman's correlations was used to investigate associations between microbial composition and macronutrient intake. Linear discriminant analysis was also performed at the different taxonomic levels on the post-intervention data.ResultsNo differences were found between pre and post- dietary intervention for microbial community diversity: no significant effects of time (p = 0.056, ES = 0.486 and p = 0.129, ES = 0.388, respectively for OTUs number and Shannon's ENS), group (p = 0.317, ES = 0.180 and p = 0.809, ES = 0.047) or time × group (p = 0.999, ES = 0.01 and p = 0.230, ES = 0.315). Post-hoc paired Wilcoxon test showed a significant time × group effect for Actinobacteriota (p = 0.021, ES = 0.578), which increased in the WD group (median pre: 1.7%; median post: 2.3%) and decreased in the KEMEPHY group (median pre: 4.3%; median post: 1.7%). At genus level, the linear discriminant analysis in the post intervention differentiated the two groups for Bifidobacterium genus (pertaining to the Actinobacteria phylum), Butyricicoccus and Acidaminococcus genera, all more abundant in the WD group, and for Clostridia UCG-014 (order, family, and genus), Butyricimonas, Odoribacterter genera (pertaining to the Marinifilaceae family), and Ruminococcus genus, all more abundant in the KEMEPHY group.ConclusionsOur results demonstrate that 30 days of KEMEPHY intervention, in contrast with previous research on ketogenic diet and gut microbiome, do not modify the overall composition of gut microbiome in a cohort of athletes. KEMEPHY dietary pattern may represent an alternative and safety tool for maintaining and/or regulating the composition of gut microbiome in athletes practicing regular exercise. Due to the fact that not all ketogenic diets are equal, we hypothesized that each version of ketogenic diet, with different kind of nutrients or macronutrients partitioning, may differently affect the human gut microbiome.

Published
2022

8. Small extracellular vesicles deliver miR‐21 and miR‐217 as pro‐senescence effectors to endothelial cells

Author

Rina Recchioni, Massimo Negrini, Vladia Monsurrò, Gianluca Fulgenzi, Claudia Sala, Maria Giulia Bacalini, Silvia Latini, Paolo Garagnani, Stefano Amatori, Massimiliano Bonafè, Angelica Giuliani, Fiorella Marcheselli, Anna Rita Bonfigli, Deborah Ramini, Maurizio Cardelli, Mirco Fanelli, Giacomo Corleone, Jacopo Sabbatinelli, Cristian Bassi, Michela Battistelli, Francesco Prattichizzo, Gianluca Storci, Emanuela Mensà, Vilberto Stocchi, Antonio Domenico Procopio, Fabiola Olivieri, Manuela Ferracin, Serena Maggio, Michele Guescini, Leonardo Sorci, Antonio Ceriello, Laura Graciotti, Maria Rita Rippo, Luca Magnani, Claudio Franceschi, Maria De Luca, Iva Budimir, Mensa E., Guescini M., Giuliani A., Bacalini M.G., Ramini D., Corleone G., Ferracin M., Fulgenzi G., Graciotti L., Prattichizzo F., Sorci L., Battistelli M., Monsurro V., Bonfigli A.R., Cardelli M., Recchioni R., Marcheselli F., Latini S., Maggio S., Fanelli M., Amatori S., Storci G., Ceriello A., Stocchi V., De Luca M., Magnani L., Rippo M.R., Procopio A.D., Sala C., Budimir I., Bassi C., Negrini M., Garagnani P., Franceschi C., Sabbatinelli J., Bonafe M., and Olivieri F.

Subjects
0301 basic medicine, Histology, sirt1, Biology, Cellular senescence, Exosome, 03 medical and health sciences, SIRT1, 0302 clinical medicine, Gene interaction, dnmt1, microRNA, cellular senescence, Epigenetics, lcsh:QH573-671, micrornas, lcsh:Cytology, DNMT1, Cell Biology, Cell cycle, microRNAs, Cell biology, Endothelial stem cell, 030104 developmental biology, 030220 oncology & carcinogenesis, DNA methylation, extracellular vesicles, extracellular vesicle, Cell aging, Research Article
Abstract

The role of epigenetics in endothelial cell senescence is a cutting-edge topic in ageing research. However, little is known of the relative contribution to pro-senescence signal propagation provided by microRNAs shuttled by extracellular vesicles (EVs) released from senescent cells. Analysis of microRNA and DNA methylation profiles in non-senescent (control) and senescent (SEN) human umbilical vein endothelial cells (HUVECs), and microRNA profiling of their cognate small EVs (sEVs) and large EVs demonstrated that SEN cells released a significantly greater sEV number than control cells. sEVs were enriched in miR-21-5p and miR-217, which target DNMT1 and SIRT1. Treatment of control cells with SEN sEVs induced a miR-21/miR-217-related impairment of DNMT1-SIRT1 expression, the reduction of proliferation markers, the acquisition of a senescent phenotype and a partial demethylation of the locus encoding for miR-21. MicroRNA profiling of sEVs from plasma of healthy subjects aged 40–100 years showed an inverse U-shaped age-related trend for miR-21-5p, consistent with senescence-associated biomarker profiles. Our findings suggest that miR-21-5p/miR-217 carried by SEN sEVs spread pro-senescence signals, affecting DNA methylation and cell replication.

Published
2020
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9. An aza-macrocycle containing maltolic side-arms (maltonis) as potential drug against human pediatric sarcomas

Author

Pier Luigi Lollini, Clara Guerzoni, Mauro Magnani, Piero Picci, Massimo Serra, Loredana Pratelli, Mauro Balducci, Luca Giorgi, Marco Manfrini, Mirco Fanelli, Vieri Fusi, Maria Cristina Manara, Stefano Amatori, Katia Scotlandi, Lorena Landuzzi, Aurora Tassoni, Guerzoni C, Amatori S, Giorgi L, Manara MC, Landuzzi L, Lollini PL, Tassoni A, Balducci M, Manfrini M, Pratelli L, Serra M, Picci P, Magnani M, Fusi V, Fanelli M, and Scotlandi K

Subjects
Cancer Research, Cancer therapy, MACROCYCLES, Antineoplastic Agents, Apoptosis, Cell Line, Inhibitory Concentration 50, Mice, In vivo, Heterocyclic Compounds, Cell Line, Tumor, Genetics, medicine, Animals, Humans, Doxorubicin, Rhabdomyosarcoma, Child, Cell Proliferation, Settore MED/36 - DIAGNOSTICA PER IMMAGINI E RADIOTERAPIA, Cisplatin, Neoplastic, Tumor, Mesenchymal Stromal Cells, Cell growth, business.industry, Animal, Gene Expression Profiling, Cell Cycle, Mesenchymal Stem Cells, Sarcoma, Cell cycle, medicine.disease, Gene Expression Regulation, Neoplastic, Disease Models, Animal, Oncology, Gene Expression Regulation, Immunology, Disease Models, Cancer research, Osteosarcoma, Heterografts, business, Research Article, medicine.drug, DNA Damage
Abstract

Background Identification of new drugs against paediatric sarcomas represents an urgent clinical need that mainly relies on public investments due to the rarity of these diseases. In this paper we evaluated the in vitro and in vivo efficacy of a new maltol derived molecule (maltonis), belonging to the family of molecules named hydroxypyrones. Methods Maltonis was screened for its ability to induce structural alteration of DNA molecules in comparison to another maltolic molecule (malten). In vitro antitumour efficacy was tested using a panel of sarcoma cell lines, representative of Ewing sarcoma, osteosarcoma and rhabdomyosarcoma, the three most common paediatric sarcomas, and in normal human mesenchymal primary cell cultures. In vivo efficacy was tested against TC-71 Ewing sarcoma xenografts. Results Maltonis, a soluble maltol-derived synthetic molecule, was able to alter the DNA structure, inhibit proliferation and induce apoptotic cell death in paediatric sarcoma cells, either sensitive or resistant to some conventional chemotherapeutic drugs, such as doxorubicin and cisplatin. In addition, maltonis was able to induce: i) p21, p15 and Gadd45a mRNA upregulation; ii) Bcl-2, survivin, CDK6 and CDK8 down-regulation; iii) formation of γ-H2AX nuclear foci; iv) cleavage of PARP and Caspase 3. Two independent in vivo experiments demonstrated the tolerability and efficacy of maltonis in the inhibition of tumour growth. Finally maltonis was not extruded by ABCB1, one of the major determinants of chemotherapy failure, nor appeared to be a substrate of the glutathione-related detoxification system. Conclusions Considering that treatment of poorly responsive patients still suffers for the paucity of agents able to revert chemoresistance, maltonis may be considered for the future development of new therapeutic approaches for refractory metastatic patients.

Published
2014

10. DNA binding and antiproliferative activity toward human carcinoma cells of copper(ii) and zinc(ii) complexes of a 2,5-diphenyl[1,3,4]oxadiazole derivative

Author

Mirco Fanelli, Vincenzo Turco Liveri, Vieri Fusi, Gianluca Ambrosi, Stefano Amatori, Giampaolo Barone, Luca Giorgi, Alessio Terenzi, Terenzi, A, Fanelli, M, Ambrosi, G, Amatori, S, Fusi, V, Giorgi, L, Turco Liveri, V, and Barone, G

Subjects
Models, Molecular, Circular dichroism, DNA binding, antiproliferative activity, 2,5-diphenyl[1,3,4]oxadiazole derivative, Stereochemistry, Cell Survival, Oxadiazole, Antineoplastic Agents, Breast Neoplasms, Nucleic Acid Denaturation, Fluorescence spectroscopy, Inorganic Chemistry, chemistry.chemical_compound, Coordination Complexes, Cell Line, Tumor, Humans, Oxazoles, Aqueous solution, DNA, In vitro, Zinc, chemistry, Settore CHIM/03 - Chimica Generale E Inorganica, Titration, Female, Ethidium bromide, Copper
Abstract

The interaction of calf thymus DNA with [CuL(ClO(4))]ClO(4)·H(2)O (1) and [ZnLBr]Br·H(2)O (2) (L = 9,12,15,18,27,28-hexaaza-29-oxatetracyclo[24.2.1.0(2,7).0(20,25)]enneicosa-2,4,6,20,22,24,26,28(1)-octaene) dicationic complexes in aqueous solution at neutral pH, was investigated by variable-temperature UV-vis absorption, circular dichroism and fluorescence spectroscopy. The values of the DNA-binding constants of these complexes, determined by competitive binding spectrofluorimetric titrations of ethidium bromide (EB)-DNA solutions, are (6.7 ± 0.5) × 10(6) M(-1) for CuL(2+) and (4.7 ± 0.5) × 10(5) M(-1) for ZnL(2+). These data together with a through analysis of the spectroscopic behaviour consistently suggest that both compounds are effective DNA binders. Interestingly, the DNA-binding strength of these complexes has been found to be correlated to their in vitro cytotoxic activity toward human breast carcinoma cells, although the complex with lower DNA-binding affinity is more active. In fact, biological studies showed that when the compounds are delivered through the cell membrane by a lipidic carrier, the cell survival is sensibly reduced, up to 58% with 1 and to 31% with 2.

Published
2012

11. Loss of pericentromeric DNA methylation pattern in human Glioblastoma is associated with altered DNA methyltransferases (DNMTs) expression and involves the Stem Cell compartment

Author

F Tomassoni-Ardori, Saverio Minucci, Angela Santoni, Francesca Andreoni, R De Maria, Mauro Magnani, Stefano Amatori, Lucia Ricci-Vitiani, S Caprodossi, Antonio Porcellini, Pier Giuseppe Pelicci, Mirco Fanelli, Fanelli, M., Caprodossi, S., Ricci Vitiani, L., Porcellini, Antonio, Tomassoni Ardori, F., Amatori, S., Andreoni, F., Magnani, M., De Maria, R., Santoni, A., Minucci, S., and Pelicci, P. G.

Subjects
Genome instability, Cancer Research, Methyltransferase, DNMT3B, DNA methyltransferase, DNMT, Biology, DNA, Satellite, medicine.disease_cause, DNA methylation, glioblastoma, Cell Line, DNA Methyltransferase 3A, Epigenesis, Genetic, Genetic, Settore MED/04 - PATOLOGIA GENERALE, stem cells, Cell Line, Tumor, Genetics, medicine, Humans, DNA (Cytosine-5-)-Methyltransferases, Molecular Biology, Neurons, Tumor, Brain Neoplasms, Brain tumor, DNA methyltransferases, Glioblastoma, Stem cells, Neoplastic Stem Cells, DNA Methylation, DNA, Methylation, Cell biology, Satellite, DNMT1, Carcinogenesis, brain tumor, Epigenesis
Abstract

Cancer is generally characterized by loss of CG dinucleo- tides methylation resulting in a global hypomethylation and the consequent genomic instability. The major contribu- tion to the general decreased methylation levels seems to be due to demethylation of heterochromatin repetitive DNA sequences. In human immunodeficiency, centromeric instability and facial anomalies syndrome, demethylation of pericentromeric satellite 2 DNA sequences has been correlated to functional mutations of the de novo DNA methyltransferase 3b (DNMT3b), but the mechanism responsible for the hypomethylated status in tumors is poorly known. Here, we report that human glioblastoma is affected by strong hypomethylation of satellite 2 pericen- tromeric sequences that involves the stem cell compartment. Concomitantly with the integrity of the DNMTs coding sequences, we report aberrations in DNA methyltrasferases expression showing upregulation of the DNA methyltrans- ferase 1 (DNMT1) and downregulation of the de novo DNA methyltransferase 3a (DNMT3a). Moreover, we show that DNMT3a is the major de novo methyltransferase expressed in normal neural progenitor cells (NPCs) and its forced re-expression is sufficient to partially recover the methylation levels of satellite 2 repeats in glioblastoma cell lines. Thus, we speculate that DNMT3a decreased expres- sion may be involved in the early post-natal inheritance of an epigenetically altered NPC population that could be responsible for glioblastoma development later in adult life.

Published
2008

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