Your search keyword '"Alba Minelli"' showing total 9 results

1. Cellular and molecular mechanisms of sarcopenia: the S100B perspective

Author

Francesca Riuzzi, Guglielmo Sorci, Cataldo Arcuri, Ileana Giambanco, Ilaria Bellezza, Alba Minelli, and Rosario Donato

Subjects

Sarcopenia, S100B, Oxidative stress, Myoblast, Brown adipocyte, Myofiber, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695

Abstract

Abstract Primary sarcopenia is a condition of reduced skeletal muscle mass and strength, reduced agility, and increased fatigability and risk of bone fractures characteristic of aged, otherwise healthy people. The pathogenesis of primary sarcopenia is not completely understood. Herein, we review the essentials of the cellular and molecular mechanisms of skeletal mass maintenance; the alterations of myofiber metabolism and deranged properties of muscle satellite cells (the adult stem cells of skeletal muscles) that underpin the pathophysiology of primary sarcopenia; the role of the Ca2+‐sensor protein, S100B, as an intracellular factor and an extracellular signal regulating cell functions; and the functional role of S100B in muscle tissue. Lastly, building on recent results pointing to S100B as to a molecular determinant of myoblast–brown adipocyte transition, we propose S100B as a transducer of the deleterious effects of accumulation of reactive oxygen species in myoblasts and, potentially, myofibers concurring to the pathophysiology of sarcopenia.

Published

2018

2. Denervation does not induce muscle atrophy through oxidative stress

Author

Eva Pigna, Emanuela Greco, Giulio Morozzi, Silvia Grottelli, Alessio Rotini, Alba Minelli, Stefania Fulle, Sergio Adamo, Rosa Mancinelli, Ilaria Bellezza, and Viviana Moresi

Subjects

Denervation, Oxidative stress, Antioxidant drug, Neurogenic muscle atrophy, Medicine, Human anatomy, QM1-695

Abstract

Denervation leads to the activation of the catabolic pathways, such as the ubiquitin-proteasome and autophagy, resulting in skeletal muscle atrophy and weakness. Furthermore, denervation induces oxidative stress in skeletal muscle, which is thought to contribute to the induction of skeletal muscle atrophy. Several muscle diseases are characterized by denervation, but the molecular pathways contributing to muscle atrophy have been only partially described. Our study delineates the kinetics of activation of oxidative stress response in skeletal muscle following denervation. Despite the denervation-dependent induction of oxidative stress in skeletal muscle, treatments with anti-oxidant drugs do not prevent the reduction of muscle mass. Our results indicate that, although oxidative stress may contribute to the activation of the response to denervation, it is not responsible by itself of oxidative damage or neurogenic muscle atrophy.

Published

2017

3. Protective Effects of Commiphora erythraea Resin Constituents Against Cellular Oxidative Damage

Author

Ilaria Bellezza, Anna Lisa Mierla, Anahi Bucchini, Alba Minelli, Laura Giamperi, Maria Carla Marcotullio, Federica Messina, Massimo Curini, Antonio Macchiarulo, Marco Cellanetti, and Donata Ricci

Subjects

Commiphora erythraea (Burseraceae), furanodienone, lipid peroxidation, 5-LOX, antioxidant, Organic chemistry, QD241-441

Abstract

By bioguided fractionation of the hexane extract of Commiphora erythraea resin we isolated four furanosesquiterpenoids that were tested for their protective activity against oxidative stress. Furanodienone and 1,10(15)-furanogermacra-dien-6-ones showed to be potent inhibitors of lipid peroxidation (IC50 of ~0.087 μM), being more active than the methoxylated analogues. Furthermore, using BV2 microglial cells, we found that furanodienone from C. erythraea is able to counteract LPS-induced cell death and decrease LPS-induced NO generation thus protecting microglial cells from LPS-induced cytotoxicity. Finally, docking studies were undertaken to gain insight into the possible binding mode of the isolated compounds at 5-LOX binding site.

Published

2011

4. The Tm7sf2 Gene Deficiency Protects Mice against Endotoxin-Induced Acute Kidney Injury.

Author

Leonardo Gatticchi, Ilaria Bellezza, Rachele Del Sordo, Matthew J Peirce, Angelo Sidoni, Rita Roberti, and Alba Minelli

Subjects

Medicine, Science

Abstract

Cholesterol is essential for diverse cellular functions and cellular and whole-body cholesterol homeostasis is highly controlled. Cholesterol can also influence cellular susceptibility to injury. The connection between cholesterol metabolism and inflammation is exemplified by the Tm7sf2 gene, the absence of which reveals an essential role in cholesterol biosynthesis under stress conditions but also results in an inflammatory phenotype, i.e. NF-κB activation and TNFα up-regulation. Here, by using Tm7sf2+/+and Tm7sf2-/- mice, we investigated whether the Tm7sf2 gene, through its role in cholesterol biosynthesis under stress conditions, is involved in the renal failure induced by the administration of LPS. We found that the loss of Tm7sf2 gene results in significantly reduced blood urea nitrogen levels accompanied by decreased renal inflammatory response and neutral lipid accumulation. The increased expression of fatty acids catabolic enzymes reduces the need of the renal autophagy, a known crucial nutrient-sensing pathway in lipid metabolism. Moreover, we observed that the Tm7sf2 insufficiency is responsible for the inhibition of the NF-κB signalling thus dampening the inflammatory response and leading to a reduced renal damage. These results suggest a pivotal role for Tm7sf2 in renal inflammatory and lipotoxic response under endotoxemic conditions.

Published

2015

5. Natriuretic Peptides: The Case of Prostate Cancer

Author

Letizia Mezzasoma, Matthew J. Peirce, Alba Minelli, and Ilaria Bellezza

Subjects

cardiac hormones, ANP, BNP, inflammation, cancer therapy, Organic chemistry, QD241-441

Abstract

Cardiac natriuretic peptides have long been known to act as main players in the homeostatic control of blood pressure, salt and water balance. However, in the last few decades, new properties have been ascribed to these hormones. A systematic review of English articles using MEDLINE Search terms included prostate cancer, inflammation, cardiac hormones, atrial natriuretic peptide, and brain natriuretic peptide. Most recent publications were selected. Natriuretic peptides are strongly connected to the immune system, whose two branches, innate and adaptive, are finely tuned and organized to kill invaders and repair injured tissues. These peptides control the immune response and act as anti-inflammatory and immune-modulatory agents. In addition, in cancers, natriuretic peptides have anti-proliferative effects by molecular mechanisms based on the inhibition/regulation of several pathways promoting cell proliferation and survival. Nowadays, it is accepted that chronic inflammation is a crucial player in prostate cancer development and progression. In this review, we summarize the current knowledge on the link between prostate cancer and inflammation and the potential use of natriuretic peptides as anti-inflammatory and anticancer agents.

Published

2017

6. A novel role for Tm7sf2 gene in regulating TNFα expression.

Author

Ilaria Bellezza, Rita Roberti, Leonardo Gatticchi, Rachele Del Sordo, Maria Grazia Rambotti, Maria Cristina Marchetti, Angelo Sidoni, and Alba Minelli

Subjects

Medicine, Science

Abstract

We have explored the role of Tm7sf2 gene, which codifies for 3β-hydroxysterol Δ14-reductase, an endoplasmic reticulum resident protein, in the sensitivity to endoplasmic reticulum stress and in the resulting inflammatory response. We used mouse embryonic fibroblasts, derived from Tm7sf2(+/+) and Tm7sf2(-/-) mice, to determine the in vitro effects of thapsigargin on NF-κB activation. Our results show that the Tm7sf2 gene controls the launch of the unfolded protein response and presides an anti-inflammatory loop thus its absence correlates with NF-κB activation and TNFα up-regulation. Our data also show that Tm7sf2 gene regulates liver X receptor activation and its absence inhibits LXR signalling. By expressing the hTm7sf2 gene in KO MEFs and observing a reduced NF-κB activation, we have confirmed that Tm7sf2 gene is linked to NF-κB activation. Finally we used genetically modified mice in an in vivo model of ER stress and of inflammation. Our results show a significant increase in renal TNFα expression after tunicamycin exposure and in the oedematogenic response in Tm7sf2(-/-) mice. In conclusion, we have shown that the Tm7sf2 gene, to date involved only in cholesterol biosynthesis, also controls an anti-inflammatory loop thereby confirming the existence of cross talk between metabolic pathways and inflammatory response.

Published

2013

7. Adenosine A1 receptors contribute to mitochondria vulnerability to pro-oxidant stressors

Author

Alba, Minelli, Silvia, Grottelli, Lanfranco, Corazzi, Ilaria, Bellezza, Grazia, Rambotti Maria, Carla, Emiliani, and Bertil, Fredholm B.

Subjects

*ADENOSINES, *CELL receptors, *MITOCHONDRIAL pathology, *PHYSIOLOGICAL stress, *CENTRAL nervous system, *LABORATORY mice, *MITOCHONDRIA, *CELL culture

Abstract

Abstract: A1 adenosine receptors are highly expressed in the central nervous system. Mitochondrial function is a major player in adenosine receptors-mediated effects. Here, by using mice with genetic deletion of the A1 receptor, we addressed the existence of a relationship between mitochondria functions and adenosine A1 receptor. Mitochondrial functions and effects of MPP+ in primary mixed cultures are influenced by the presence of the A1 receptor, demonstrating, for the first time, the mitochondrial localization of the adenosine A1 receptor and suggesting a role for this receptor as a mitochondrial vulnerability factor. [Copyright &y& Elsevier]

Published

2010

8. Effects of adenosine on prostate adenocarcinoma PC-3 and bladder carcinoma J82 cell lines.

Author

Fabio Nucciarelli, Ettore Mearini, and Alba Minelli

Published

2003

9. Oxidative status and semen characteristics of rabbit buck as affected by dietary.

Author

Cesare Castellini, Paolo Lattaioli, Alessandro Dal Bosco, Alba Minelli, and Cecilia Mugnai

Subjects

*DIETARY supplements, *FATTY acids, *VITAMIN E, *VITAMIN C, *ANTIOXIDANTS, *SEMEN, *BLOOD plasma, *RABBITS

Abstract

The aim of this study was to investigate the effect of dietary supplementation of long chain fatty acids (C $\geq$ 20 LCP) of the n-3 series, vitamin E and vitamin C on the antioxidant capacity of rabbit buck and on semen characteristics. Fifty male rabbits at 30 days were randomly assigned to five different diets: Control (50 mg$\cdot$kg$^{-1}$ diet $\alpha$-tocopheryl acetate), Vitamin E (200 mg$\cdot$kg$^{-1}$ diet $\alpha$-tocopheryl acetate), n-3 (2% ROPUFA oil + 50 mg$\cdot$kg$^{-1}$ diet $\alpha$-tocopheryl acetate), n-3 + E (2% ROPUFA oil + 200 mg$\cdot$kg$^{-1}$ diet $\alpha$-tocopheryl acetate) and n-3 + E C (2% ROPUFA oil + 200 mg$\cdot$kg$^{-1}$ diet $\alpha$-tocopheryl acetate + 0.5 g$\cdot$L$^{-1}$ vitamin C in the drinking water). The levels of vitamins E and C and reactive oxygen metabolites (ROMs) in the blood plasma were evaluated at different ages. The antioxidant capacity and ROMs of seminal plasma, the fatty acid profile of sperm phospholipids, the semen traits and the oxidative processes during storage (24 h at + 4 °C) were carried out weekly for 5 wk starting from the 5th month of age. Vitamin E addition showed enough antioxidant protection only when associated with no lipid enriched diets. The n-3 supplementation modified the fatty acid profile of the spermatozoa membrane and simultaneously enhanced oxidative processes. Only the association with supranutritional levels of vitamins E and C inhibited the oxidative processes and improved the characteristics of fresh and stored rabbit semen. [ABSTRACT FROM AUTHOR]

Published

2003