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2. GBA1 inactivation in oligodendrocytes affects myelination and induces neurodegenerative hallmarks and lipid dyshomeostasis in mice

Author

Ilaria Gregorio, Loris Russo, Enrica Torretta, Pietro Barbacini, Gabriella Contarini, Giada Pacinelli, Dario Bizzotto, Manuela Moriggi, Paola Braghetta, Francesco Papaleo, Cecilia Gelfi, Enrico Moro, and Matilde Cescon

Subjects
Parkinson’s disease, Gaucher disease, Oligodendrocyte, White matter, β-glucocerebrosidase, Myelination, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Abstract Background Mutations in the β-glucocerebrosidase (GBA1) gene do cause the lysosomal storage Gaucher disease (GD) and are among the most frequent genetic risk factors for Parkinson’s disease (PD). So far, studies on both neuronopathic GD and PD primarily focused on neuronal manifestations, besides the evaluation of microglial and astrocyte implication. White matter alterations were described in the central nervous system of paediatric type 1 GD patients and were suggested to sustain or even play a role in the PD process, although the contribution of oligodendrocytes has been so far scarcely investigated. Methods We exploited a system to study the induction of central myelination in vitro, consisting of Oli-neu cells treated with dibutyryl-cAMP, in order to evaluate the expression levels and function of β-glucocerebrosidase during oligodendrocyte differentiation. Conduritol-B-epoxide, a β-glucocerebrosidase irreversible inhibitor was used to dissect the impact of β-glucocerebrosidase inactivation in the process of myelination, lysosomal degradation and α-synuclein accumulation in vitro. Moreover, to study the role of β-glucocerebrosidase in the white matter in vivo, we developed a novel mouse transgenic line in which β-glucocerebrosidase function is abolished in myelinating glia, by crossing the Cnp1-cre mouse line with a line bearing loxP sequences flanking Gba1 exons 9–11, encoding for β-glucocerebrosidase catalytic domain. Immunofluorescence, western blot and lipidomic analyses were performed in brain samples from wild-type and knockout animals in order to assess the impact of genetic inactivation of β-glucocerebrosidase on myelination and on the onset of early neurodegenerative hallmarks, together with differentiation analysis in primary oligodendrocyte cultures. Results Here we show that β-glucocerebrosidase inactivation in oligodendrocytes induces lysosomal dysfunction and inhibits myelination in vitro. Moreover, oligodendrocyte-specific β-glucocerebrosidase loss-of-function was sufficient to induce in vivo demyelination and early neurodegenerative hallmarks, including axonal degeneration, α-synuclein accumulation and astrogliosis, together with brain lipid dyshomeostasis and functional impairment. Conclusions Our study sheds light on the contribution of oligodendrocytes in GBA1-related diseases and supports the need for better characterizing oligodendrocytes as actors playing a role in neurodegenerative diseases, also pointing at them as potential novel targets to set a brake to disease progression.

Published
2024
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3. Nitrosative Stress in Astronaut Skeletal Muscle in Spaceflight

Author

Dieter Blottner, Manuela Moriggi, Gabor Trautmann, Sandra Furlan, Katharina Block, Martina Gutsmann, Enrica Torretta, Pietro Barbacini, Daniele Capitanio, Joern Rittweger, Ulrich Limper, Pompeo Volpe, Cecilia Gelfi, and Michele Salanova

Subjects
spaceflight, nitric oxide synthase, microgravity, RONS, nitrosated proteins, Therapeutics. Pharmacology, RM1-950
Abstract

Long-duration mission (LDM) astronauts from the International Space Station (ISS) (>180 ISS days) revealed a close-to-normal sarcolemmal nitric oxide synthase type-1 (NOS1) immunoexpression in myofibers together with biochemical and quantitative qPCR changes in deep calf soleus muscle. Nitro-DIGE analyses identified functional proteins (structural, metabolic, mitochondrial) that were over-nitrosylated post- vs. preflight. In a short-duration mission (SDM) astronaut (9 ISS days), s-nitrosylation of a nodal protein of the glycolytic flux, specific proteins in tricarboxylic acid (TCA) cycle, respiratory chain, and over-nitrosylation of creatine kinase M-types as signs of impaired ATP production and muscle contraction proteins were seen. S-nitrosylation of serotransferrin (TF) or carbonic anhydrase 3 (CA3b and 3c) represented signs of acute response microgravity muscle maladaptation. LDM nitrosoprofiles reflected recovery of mitochondrial activity, contraction proteins, and iron transporter TF as signs of muscle adaptation to microgravity. Nitrosated antioxidant proteins, alcohol dehydrogenase 5/S-nitrosoglutathione reductase (ADH5/GSNOR), and selenoprotein thioredoxin reductase 1 (TXNRD1) levels indicated signs of altered redox homeostasis and reduced protection from nitrosative stress in spaceflight. This work presents a novel spaceflight-generated dataset on s-nitrosylated muscle protein signatures from astronauts that helps both to better understand the structural and molecular networks associated to muscular nitrosative stress and to design countermeasures to dysfunction and impaired performance control in human spaceflight missions.

Published
2024
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4. Comparative proteomic analyses of Duchenne muscular dystrophy and Becker muscular dystrophy muscles: changes contributing to preserve muscle function in Becker muscular dystrophy patients

Author

Daniele Capitanio, Manuela Moriggi, Enrica Torretta, Pietro Barbacini, Sara De Palma, Agnese Viganò, Hanns Lochmüller, Francesco Muntoni, Alessandra Ferlini, Marina Mora, and Cecilia Gelfi

Subjects
Proteomics, Mechanotransduction, Bioenergetics, Duchenne muscular dystrophy, Becker muscular dystrophy, Reactive oxygen species, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are characterized by muscle wasting leading to loss of ambulation in the first or third decade, respectively. In DMD, the lack of dystrophin hampers connections between intracellular cytoskeleton and cell membrane leading to repeated cycles of necrosis and regeneration associated with inflammation and loss of muscle ordered structure. BMD has a similar muscle phenotype but milder. Here, we address the question whether proteins at variance in BMD compared with DMD contribute to the milder phenotype in BMD, thus identifying a specific signature to be targeted for DMD treatment. Methods Proteins extracted from skeletal muscle from DMD/BMD patients and young healthy subjects were either reduced and solubilized prior two‐dimensional difference in gel electrophoresis/mass spectrometry differential analysis or tryptic digested prior label‐free liquid chromatography with tandem mass spectrometry. Statistical analyses of proteins and peptides were performed by DeCyder and Perseus software and protein validation and verification by immunoblotting. Results Proteomic results indicate minor changes in the extracellular matrix (ECM) protein composition in BMD muscles with retention of mechanotransduction signalling, reduced changes in cytoskeletal and contractile proteins. Conversely, in DMD patients, increased levels of several ECM cytoskeletal and contractile proteins were observed whereas some proteins of fast fibres and of Z‐disc decreased. Detyrosinated alpha‐tubulin was unchanged in BMD and increased in DMD although neuronal nitric oxide synthase was unchanged in BMD and greatly reduced in DMD. Metabolically, the tissue is characterized by a decrement of anaerobic metabolism both in DMD and BMD compared with controls, with increased levels of the glycogen metabolic pathway in BMD. Oxidative metabolism is severely compromised in DMD with impairment of malate shuttle; conversely, it is active in BMD supporting the tricarboxylic acid cycle and respiratory chain. Adipogenesis characterizes DMD, whereas proteins involved in fatty acids beta‐oxidation are increased in BMD. Proteins involved in protein/amino acid metabolism, cell development, calcium handling, endoplasmic reticulum/sarcoplasmic reticulum stress response, and inflammation/immune response were increased in DMD. Both disorders are characterized by the impairment of N‐linked protein glycosylation in the endoplasmic reticulum. Authophagy was decreased in DMD whereas it was retained in BMD. Conclusions The mechanosensing and metabolic disruption are central nodes of DMD/BMD phenotypes. The ECM proteome composition and the metabolic rewiring in BMD lead to preservation of energy levels supporting autophagy and cell renewal, thus promoting the retention of muscle function. Conversely, DMD patients are characterized by extracellular and cytoskeletal protein dysregulation and by metabolic restriction at the level of α‐ketoglutarate leading to shortage of glutamate‐derived molecules that over time triggers lipogenesis and lipotoxicity.

Published
2020
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5. Effects of Omega-3 and Antioxidant Cocktail Supplement on Prolonged Bed Rest: Results from Serum Proteome and Sphingolipids Analysis

Author

Pietro Barbacini, Dieter Blottner, Daniele Capitanio, Gabor Trautmann, Katharina Block, Enrica Torretta, Manuela Moriggi, Michele Salanova, and Cecilia Gelfi

Subjects
bed rest, S-nitrosylation, RONS, antioxidant, omega-3, serum apolipoproteins, Cytology, QH573-671
Abstract

Physical inactivity or prolonged bed rest (BR) induces muscle deconditioning in old and young subjects and can increase the cardiovascular disease risk (CVD) with dysregulation of the lipemic profile. Nutritional interventions, combining molecules such as polyphenols, vitamins and essential fatty acids, can influence some metabolic features associated with physical inactivity and decrease the reactive oxidative and nitrosative stress (RONS). The aim of this study was to detect circulating molecules correlated with BR in serum of healthy male subjects enrolled in a 60-day BR protocol to evaluate a nutritional intervention with an antioxidant cocktail as a disuse countermeasure (Toulouse COCKTAIL study). The serum proteome, sphingolipidome and nitrosoproteome were analyzed adopting different mass spectrometry-based approaches. Results in placebo-treated BR subjects indicated a marked decrease of proteins associated with high-density lipoproteins (HDL) involved in lipemic homeostasis not found in the cocktail-treated BR group. Moreover, long-chain ceramides decreased while sphingomyelin increased in the BR cocktail-treated group. In placebo, the ratio of S-nitrosylated/total protein increased for apolipoprotein D and several proteins were over-nitrosylated. In cocktail-treated BR subjects, the majority of protein showed a pattern of under-nitrosylation, except for ceruloplasmin and hemopexin, which were over-nitrosylated. Collectively, data indicate a positive effect of the cocktail in preserving lipemic and RONS homeostasis in extended disuse conditions.

Published
2022
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6. Phenotypic Modulation of Biofilm Formation in a Staphylococcus epidermidis Orthopedic Clinical Isolate Grown Under Different Mechanical Stimuli: Contribution From a Combined Proteomic Study

Author

Marta Bottagisio, Pietro Barbacini, Alessandro Bidossi, Enrica Torretta, Elinor deLancey-Pulcini, Cecilia Gelfi, Garth A. James, Arianna B. Lovati, and Daniele Capitanio

Subjects
proteomics, orthopedics, prosthetic joint infections, biofilm, extracellular polymeric substance, Staphylococcus epidermidis, Microbiology, QR1-502
Abstract

One of the major causes of prosthetic joint failure is infection. Recently, coagulase negative Staphylococcus epidermidis has been identified as an emergent, nosocomial pathogen involved in subclinical prosthetic joint infections (PJIs). The diagnosis of PJIs mediated by S. epidermidis is usually complex and difficult due to the absence of acute clinical signs derived from the host immune system response. Therefore, analysis of protein patterns in biofilm-producing S. epidermidis allows for the examination of the molecular basis of biofilm formation. Thus, in the present study, the proteome of a clinical isolate S. epidermidis was analyzed when cultured in its planktonic or sessile form to examine protein expression changes depending on culture conditions. After 24 h of culture, sessile bacteria exhibited increased gene expression for ribosomal activity and for production of proteins related to the initial attachment phase, involved in the capsular polysaccharide/adhesin, surface associated proteins and peptidoglycan biosynthesis. Likewise, planktonic S. epidermidis was able to aggregate after 24 h, synthesizing the accumulation associate protein and cell-wall molecules through the activation of the YycFG and ArlRS, two component regulatory pathways. Prolonged culture under vigorous agitation generated a stressful growing environment triggering aggregation in a biofilm-like matrix as a mechanism to survive harsh conditions. Further studies will be essential to support these findings in order to further delineate the complex mechanisms of biofilm formation of S. epidermidis and they could provide the groundwork for the development of new drugs against biofilm-related infections, as well as the identification of novel biomarkers of subclinical or chronic infections mediated by these emerging, low virulence pathogens.

Published
2020
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7. Molecular Fingerprint of BMD Patients Lacking a Portion in the Rod Domain of Dystrophin

Author

Daniele Capitanio, Manuela Moriggi, Pietro Barbacini, Enrica Torretta, Isabella Moroni, Flavia Blasevich, Lucia Morandi, Marina Mora, and Cecilia Gelfi

Subjects
muscle dystrophy, sarcopenia, muscle regeneration, muscle–bone interaction, LC-ESI-MS/MS, 2-D DIGE, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

BMD is characterized by a marked heterogeneity of gene mutations resulting in many abnormal dystrophin proteins with different expression and residual functions. The smaller dystrophin molecules lacking a portion around exon 48 of the rod domain, named the D8 region, are related to milder phenotypes. The study aimed to determine which proteins might contribute to preserving muscle function in these patients. Patients were subdivided, based on the absence or presence of deletions in the D8 region, into two groups, BMD1 and BMD2. Muscle extracts were analyzed by 2-D DIGE, label-free LC-ESI-MS/MS, and Ingenuity pathway analysis (IPA). Increased levels of proteins typical of fast fibers and of proteins involved in the sarcomere reorganization characterize BMD2. IPA of proteomics datasets indicated in BMD2 prevalence of glycolysis and gluconeogenesis and a correct flux through the TCA cycle enabling them to maintain both metabolism and epithelial adherens junction. A 2-D DIGE analysis revealed an increase of acetylated proteoforms of moonlighting proteins aldolase, enolase, and glyceraldehyde-3-phosphate dehydrogenase that can target the nucleus promoting stem cell recruitment and muscle regeneration. In BMD2, immunoblotting indicated higher levels of myogenin and lower levels of PAX7 and SIRT1/2 associated with a set of proteins identified by proteomics as involved in muscle homeostasis maintenance.

Published
2022
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8. Novel Insight into the Serum Sphingolipid Fingerprint Characterizing Longevity

Author

Pietro Barbacini, Enrica Torretta, Beatrice Arosio, Evelyn Ferri, Daniele Capitanio, Manuela Moriggi, and Cecilia Gelfi

Subjects
sphingolipids, mass spectrometry, nitric oxide, ROS, longevity, aging, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Sphingolipids (SLs) are structural components of the lipid bilayer regulating cell functions. In biological fluids, their distribution is sex-specific and is at variance in aging and many disorders. The aim of this study is to identify SL species associated with the decelerated aging of centenarians. SLs, extracted from serum of adults (Ad, 35–37 years old), aged (Ag, 75–77 years old) and centenarian (C, 105–107 years old) women were analyzed by LC-MS/MS in combination with mRNA levels in peripheral blood mononuclear cells (PBMCs) of SL biosynthetic enzymes. Results indicated in Ag and C vs. Ad a comparable ceramides (Cers) increase, whereas dihydroceramide (dhCer) decreased in C vs. Ad. Hexosylceramides (HexCer) species, specifically HexCer 16:0, 22:0 and 24:1 acyl chains, increased in C vs. Ag representing a specific trait of C. Sphingosine (Sph), dihydrosphingosine (dhSph), sphingosine-1-phosphate (S1P) and dihydrosphingosine-1-phosphate (dhS1P), increased both in Ag and C vs. Ad, with higher levels in Ag, indicating a SL fine-tuning associated with a reduced physiological decline in C. mRNA levels of enzymes involved in ceramide de novo biosynthesis increased in Ag whereas enzymes involved in sphingomyelin (SM) degradation increased in C. Collectively, results suggest that Ag produce Cers by de novo synthesis whereas C activate a protective mechanism degrading SMs to Cers converting it into glycosphingolipids.

Published
2022
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11. Novel Insight in Idiopathic Normal Pressure Hydrocephalus (iNPH) Biomarker Discovery in CSF

Author

Enrica Torretta, Beatrice Arosio, Pietro Barbacini, Daniele Capitanio, Paolo Dionigi Rossi, Manuela Moriggi, Mario Clerici, Daniela Mari, Matteo Cesari, and Cecilia Gelfi

Subjects
idiopathic normal pressure hydrocephalus, sphingolipids, proteome, csf, mass spectrometry, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Idiopathic normal pressure hydrocephalus (iNPH) is a potentially reversible neurological disease, causing motor and cognitive dysfunction and dementia. iNPH and Alzheimer’s disease (AD) share similar molecular characteristics, including amyloid deposition, t-tau and p-tau dysregulation; however, the disease is under-diagnosed and under-treated. The aim was to identify a panel of sphingolipids and proteins in CSF to diagnose iNPH at onset compared to aged subjects with cognitive integrity (C) and AD patients by adopting multiple reaction monitoring mass spectrometry (MRM-MS) for sphingolipid quantitative assessment and advanced high-resolution liquid chromatography–tandem mass spectrometry (LC–MS/MS) for proteomic analysis. The results indicated that iNPH are characterized by an increase in very long chains Cer C22:0, Cer C24:0 and Cer C24:1 and of acute-phase proteins, immunoglobulins and complement component fragments. Proteins involved in synaptic signaling, axogenesis, including BACE1, APP, SEZ6L and SEZ6L2; secretory proteins (CHGA, SCG3 and VGF); glycosylation proteins (POMGNT1 and DAG1); and proteins involved in lipid metabolism (APOH and LCAT) were statistically lower in iNPH. In conclusion, at the disease onset, several factors contribute to maintaining cell homeostasis, and the protective role of very long chains sphingolipids counteract overexpression of amyloidogenic and neurotoxic proteins. Monitoring specific very long chain Cers will improve the early diagnosis and can promote patient follow-up.

Published
2021
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12. Skeletal Muscle Proteomic Profile Revealed Gender-Related Metabolic Responses in a Diet-Induced Obesity Animal Model

Author

Manuela Moriggi, Sara Belloli, Pietro Barbacini, Valentina Murtaj, Enrica Torretta, Linda Chaabane, Tamara Canu, Silvia Penati, Maria Luisa Malosio, Antonio Esposito, Cecilia Gelfi, Rosa Maria Moresco, and Daniele Capitanio

Subjects
insulin resistance, obesity, proteomics, sarcopenia, skeletal muscle, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Obesity is a chronic, complex pathology associated with a risk of developing secondary pathologies, including cardiovascular diseases, cancer, type 2 diabetes (T2DM) and musculoskeletal disorders. Since skeletal muscle accounts for more than 70% of total glucose disposal, metabolic alterations are strictly associated with the onset of insulin resistance and T2DM. The present study relies on the proteomic analysis of gastrocnemius muscle from 15 male and 15 female C56BL/J mice fed for 14 weeks with standard, 45% or 60% high-fat diets (HFD) adopting a label-free LC–MS/MS approach followed by bioinformatic pathway analysis. Results indicate changes in males due to HFD, with increased muscular stiffness (Col1a1, Col1a2, Actb), fiber-type switch from slow/oxidative to fast/glycolytic (decreased Myh7, Myl2, Myl3 and increased Myh2, Mylpf, Mybpc2, Myl1), increased oxidative stress and mitochondrial dysfunction (decreased respiratory chain complex I and V and increased complex III subunits). At variance, females show few alterations and activation of compensatory mechanisms to counteract the increase of fatty acids. Bioinformatics analysis allows identifying upstream molecules involved in regulating pathways identified at variance in our analysis (Ppargc1a, Pparg, Cpt1b, Clpp, Tp53, Kdm5a, Hif1a). These findings underline the presence of a gender-specific response to be considered when approaching obesity and related comorbidities.

Published
2021
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13. Nitrosative Redox Homeostasis and Antioxidant Response Defense in Disused Vastus lateralis Muscle in Long-Term Bedrest (Toulouse Cocktail Study)

Author

Dieter Blottner, Daniele Capitanio, Gabor Trautmann, Sandra Furlan, Guido Gambara, Manuela Moriggi, Katharina Block, Pietro Barbacini, Enrica Torretta, Guillaume Py, Angèle Chopard, Imre Vida, Pompeo Volpe, Cecilia Gelfi, and Michele Salanova

Subjects
oxidative stress, skeletal muscle redox homeostasis, antioxidant systems, RNS in cell signaling, bedrest muscle disuse, sarcopenia, Therapeutics. Pharmacology, RM1-950
Abstract

Increased oxidative stress by reactive oxygen species (ROS) and reactive nitrogen species (RNS) is a major determinant of disuse-induced muscle atrophy. Muscle biopsies (thigh vastus lateralis, VL) obtained from healthy male subjects enrolled in the Toulouse Cocktail bedrest (BR) study were used to assess efficacy of an antioxidant cocktail (polyphenols, omega-3, vitamin E, and selenium) to counteract the increased redox homeostasis and enhance the antioxidant defense response by using label-free LC–MS/MS and NITRO-DIGE (nitrosated proteins), qPCR, and laser confocal microscopy. Label-free LC–MS/MS indicated that treatment prevented the redox homeostasis dysregulation and promoted structural remodeling (TPM3, MYH7, MYBPC, MYH1, MYL1, HRC, and LUM), increment of RyR1, myogenesis (CSRP3), and skeletal muscle development (MUSTN1, LMNA, AHNAK). These changes were absent in the Placebo group. Glycolysis, tricarboxylic acid cycle (TCA), oxidative phosphorylation, fatty acid beta-oxidation, and mitochondrial transmembrane transport were normalized in treated subjects. Proteins involved in protein folding were also normalized, whereas protein entailed in ion homeostasis decreased. NITRO-DIGE analysis showed significant protein nitrosylation changes for CAT, CA3, SDHA, and VDAC2 in Treatment vs. Placebo. Similarly, the nuclear factor erythroid 2-related factor 2 (Nrf-2) antioxidant response element (Nrf-2 ARE) signaling pathway showed an enhanced response in the Treatment group. Increased nitrosative redox homeostasis and decreased antioxidant defense response were found in post-BR control (Placebo, n = 10) vs. the antioxidant cocktail treated group (Treatment, n = 10). Taken together, increased nitrosative redox homeostasis and muscle deterioration during BR-driven physical inactivity were prevented, whereas decreased antioxidant nitrosative stress defense response was attenuated by Treatment suggesting positive effects of the nutritional intervention protocol in bedrest.

Published
2021
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14. Muscle Proteomic Profile before and after Enzyme Replacement Therapy in Late-Onset Pompe Disease

Author

Manuela Moriggi, Daniele Capitanio, Enrica Torretta, Pietro Barbacini, Cinzia Bragato, Patrizia Sartori, Maurizio Moggio, Lorenzo Maggi, Marina Mora, and Cecilia Gelfi

Subjects
pompe disease, sarcopenia, autophagy, rare disease, proteomics, mass spectrometry, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Mutations in the acidic alpha-glucosidase (GAA) coding gene cause Pompe disease. Late-onset Pompe disease (LOPD) is characterized by progressive proximal and axial muscle weakness and atrophy, causing respiratory failure. Enzyme replacement therapy (ERT), based on recombinant human GAA infusions, is the only available treatment; however, the efficacy of ERT is variable. Here we address the question whether proteins at variance in LOPD muscle of patients before and after 1 year of ERT, compared withhealthy age-matched subjects (CTR), reveal a specific signature. Proteins extracted from skeletal muscle of LOPD patients and CTR were analyzed by combining gel based (two-dimensional difference gel electrophoresis) and label-free (liquid chromatography-mass spectrometry) proteomic approaches, and ingenuity pathway analysis. Upstream regulators targeting autophagy and lysosomal tethering were assessed by immunoblotting. 178 proteins were changed in abundance in LOPD patients, 47 of them recovered normal level after ERT. Defects in oxidative metabolism, muscle contractile protein regulation, cytoskeletal rearrangement, and membrane reorganization persisted. Metabolic changes, ER stress and UPR (unfolded protein response) contribute to muscle proteostasis dysregulation with active membrane remodeling (high levels of LC3BII/LC3BI) and accumulation of p62, suggesting imbalance in the autophagic process. Active lysosome biogenesis characterizes both LOPD PRE and POST, unparalleled by molecules involved in lysosome tethering (VAMP8, SNAP29, STX17, and GORASP2) and BNIP3. In conclusion this study reveals a specific signature that suggests ERT prolongation and molecular targets to ameliorate patient’s outcome.

Published
2021
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16. Can Serum Nitrosoproteome Predict Longevity of Aged Women?

Author

Daniele Capitanio, Pietro Barbacini, Beatrice Arosio, Franca Rosa Guerini, Enrica Torretta, Fabio Trecate, Matteo Cesari, Daniela Mari, Mario Clerici, and Cecilia Gelfi

Subjects
proteomics, nitrosative stress, aging, cardiovascular disease, muscle atrophy, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Aging is characterized by increase in reactive oxygen (ROS) and nitrogen (RNS) species, key factors of cardiac failure and disuse-induced muscle atrophy. This study focused on serum nitroproteome as a trait of longevity by adopting two complementary gel-based techniques: two-dimensional differential in gel electrophoresis (2-D DIGE) and Nitro-DIGE coupled with mass spectrometry of albumin-depleted serum of aged (A, n = 15) and centenarian (C, n = 15) versus young females (Y, n = 15). Results indicate spots differently expressed in A and C compared to Y and spots changed in A vs. C. Nitro-DIGE revealed nitrosated protein spots in A and C compared to Y and spots changed in A vs. C only (p-value < 0.01). Nitro-proteoforms of alpha-1-antitripsin (SERPINA1), alpha-1-antichimotripsin (SERPINA3), ceruloplasmin (CP), 13 proteoforms of haptoglobin (HP), and inactive glycosyltransferase 25 family member 3 (CERCAM) increased in A vs. Y and C. Conversely, nitrosation levels decreased in C vs. Y and A, for immunoglobulin light chain 1 (IGLC1), serotransferrin (TF), transthyretin (TTR), and vitamin D-binding protein (VDBP). Immunoblottings of alcohol dehydrogenase 5/S-nitrosoglutathione reductase (ADH5/GSNOR) and thioredoxin reductase 1 (TRXR1) indicated lower levels of ADH5 in A vs. Y and C, whereas TRXR1 decreased in A and C in comparison to Y. In conclusion, the study identified putative markers in C of healthy aging and high levels of ADH5/GSNOR that can sustain the denitrosylase activity, promoting longevity.

Published
2020
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17. Skeletal muscle proteomic profile revealed gender-related metabolic responses in a diet-induced obesity animal model

Author

Moriggi, M, Belloli, S, Barbacini, P, Murtaj, V, Torretta, E, Chaabane, L, Canu, T, Penati, S, Malosio, M, Esposito, A, Gelfi, C, Moresco, R, Capitanio, D, Moriggi M., Belloli S., Barbacini P., Murtaj V., Torretta E., Chaabane L., Canu T., Penati S., Malosio M. L., Esposito A., Gelfi C., Moresco R. M., Capitanio D., Moriggi, M, Belloli, S, Barbacini, P, Murtaj, V, Torretta, E, Chaabane, L, Canu, T, Penati, S, Malosio, M, Esposito, A, Gelfi, C, Moresco, R, Capitanio, D, Moriggi M., Belloli S., Barbacini P., Murtaj V., Torretta E., Chaabane L., Canu T., Penati S., Malosio M. L., Esposito A., Gelfi C., Moresco R. M., and Capitanio D.

Abstract

Obesity is a chronic, complex pathology associated with a risk of developing secondary pathologies, including cardiovascular diseases, cancer, type 2 diabetes (T2DM) and musculoskeletal disorders. Since skeletal muscle accounts for more than 70% of total glucose disposal, metabolic alterations are strictly associated with the onset of insulin resistance and T2DM. The present study relies on the proteomic analysis of gastrocnemius muscle from 15 male and 15 female C56BL/J mice fed for 14 weeks with standard, 45% or 60% high-fat diets (HFD) adopting a label-free LC–MS/MS approach followed by bioinformatic pathway analysis. Results indicate changes in males due to HFD, with increased muscular stiffness (Col1a1, Col1a2, Actb), fiber-type switch from slow/oxida-tive to fast/glycolytic (decreased Myh7, Myl2, Myl3 and increased Myh2, Mylpf, Mybpc2, Myl1), increased oxidative stress and mitochondrial dysfunction (decreased respiratory chain complex I and V and increased complex III subunits). At variance, females show few alterations and activation of compensatory mechanisms to counteract the increase of fatty acids. Bioinformatics analysis allows identifying upstream molecules involved in regulating pathways identified at variance in our analysis (Ppargc1a, Pparg, Cpt1b, Clpp, Tp53, Kdm5a, Hif1a). These findings underline the presence of a gender-specific response to be considered when approaching obesity and related comor-bidities.

Published
2021

18. Muscle proteomic profile before and after enzyme replacement therapy in late-onset pompe disease

Author

Moriggi, M, Capitanio, D, Torretta, E, Barbacini, P, Bragato, C, Sartori, P, Moggio, M, Maggi, L, Mora, M, Gelfi, C, Moriggi M., Capitanio D., Torretta E., Barbacini P., Bragato C., Sartori P., Moggio M., Maggi L., Mora M., Gelfi C., Moriggi, M, Capitanio, D, Torretta, E, Barbacini, P, Bragato, C, Sartori, P, Moggio, M, Maggi, L, Mora, M, Gelfi, C, Moriggi M., Capitanio D., Torretta E., Barbacini P., Bragato C., Sartori P., Moggio M., Maggi L., Mora M., and Gelfi C.

Abstract

Mutations in the acidic alpha-glucosidase (GAA) coding gene cause Pompe disease. Late-onset Pompe disease (LOPD) is characterized by progressive proximal and axial muscle weakness and atrophy, causing respiratory failure. Enzyme replacement therapy (ERT), based on recombinant human GAA infusions, is the only available treatment; however, the efficacy of ERT is variable. Here we address the question whether proteins at variance in LOPD muscle of patients before and after 1 year of ERT, compared withhealthy age-matched subjects (CTR), reveal a specific signature. Proteins extracted from skeletal muscle of LOPD patients and CTR were analyzed by combining gel based (two-dimensional difference gel electrophoresis) and label-free (liquid chromatography-mass spectrometry) proteomic approaches, and ingenuity pathway analysis. Upstream regulators targeting autophagy and lysosomal tethering were assessed by immunoblotting. 178 proteins were changed in abundance in LOPD patients, 47 of them recovered normal level after ERT. Defects in oxidative metabolism, muscle contractile protein regulation, cytoskeletal rearrangement, and membrane reorganization persisted. Metabolic changes, ER stress and UPR (unfolded protein response) contribute to muscle proteostasis dysregulation with active membrane remodeling (high levels of LC3BII/LC3BI) and accumulation of p62, suggesting imbalance in the autophagic process. Active lysosome biogenesis characterizes both LOPD PRE and POST, unparalleled by molecules involved in lysosome tethering (VAMP8, SNAP29, STX17, and GORASP2) and BNIP3. In conclusion this study reveals a specific signature that suggests ERT prolongation and molecular targets to ameliorate patient’s outcome.

Published
2021

20. Regulation of Serum Sphingolipids in Andean Children Born and Living at High Altitude (3775 m)

Author

Pietro Barbacini, Josefina Casas, Enrica Torretta, Daniele Capitanio, Gustavo Maccallini, Valeria Hirschler, and Cecilia Gelfi

Subjects
high-altitude hypoxia, dyslipidemia, sphingolipids, ceramides, sphingosine-1-phosphate, sphingomyelins, LC-MS/MS, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Recent studies on Andean children indicate a prevalence of dyslipidemia and hypertension compared to dwellers at lower altitudes, suggesting that despite similar food intake and daily activities, they undergo different metabolic adaptations. In the present study, the sphingolipid pattern was investigated in serum of 7 underweight (UW), 30 normal weight (NW), 13 overweight (OW), and 9 obese (O) Andean children by liquid chromatography-mass spectrometry (LC-MS). Results indicate that levels of Ceramides (Cers) and sphingomyelins (SMs) correlate positively with biochemical parameters (except for Cers and Vitamin D, which correlate negatively), whereas sphingosine-1-phosphate (S1P) correlates negatively. Correlation results and LC-MS data identify the axis high density lipoprotein-cholesterol (HDL-C), Cers, and S1P as related to hypoxia adaptation. Specifically UW children are characterized by increased levels of S1P compared to O and lower levels of Cers compared to NW children. Furthermore, O children show lower levels of S1P and similar levels of Cers and SMs as NW. In conclusion, our results indicate that S1P is the primary target of hypoxia adaptation in Andean children, and its levels are associated with hypoxia tolerance. Furthermore, S1P can act as marker of increased risk of metabolic syndrome and cardiac dysfunction in young Andeans living at altitude.

Published
2019
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21. Nitrosative Redox Homeostasis and Antioxidant Response Defense in Disused Vastus lateralis Muscle in Long-Term Bedrest (Toulouse Cocktail Study)

Author

Blottner, D., Capitanio, D., Trautmann, G., Furlan, S., Gambara, G., Moriggi, M., Block, K., Barbacini, P., Torretta, E., Py, G., Chopard, A., Vida, I., Volpe, P., Gelfi, C., Salanova, M., Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], University of Milan, Institute of Neuroscience [Milan, Italy] (CNR), Center for Space Medicine Berlin, Università degli Studi di Milano, IRCCS Policlinico San Donato, Centro San Giovanni di Dio, Fatebenefratelli, Brescia (IRCCS), Università degli Studi di Brescia [Brescia], Dynamique Musculaire et Métabolisme (DMEM), Université de Montpellier (UM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University Hospital of Padua, Federal Department of Economy and Energy (BMWi) through Deutsches Zentrum fuer Luft-und Raumfahrt (DLR e.V., Bonn-Oberkassel, Germany) 50WB1421/1718, 50WB1826, Agenzia Spaziale Italiana (ASI) 2018-9-U.O STOPBROS, and Charite-Universitatsmedizin Berlin

Subjects
sarcopenia, Antioxidant systems, Bedrest muscle disuse, Oxidative stress, RNS in cell signaling, Sarcopenia, Skeletal muscle redox homeostasis, lcsh:Therapeutics. Pharmacology, skeletal muscle redox homeostasis, lcsh:RM1-950, [SDV.SP.PHARMA]Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, oxidative stress, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, antioxidant systems, bedrest muscle disuse, Article
Abstract

Increased oxidative stress by reactive oxygen species (ROS) and reactive nitrogen species (RNS) is a major determinant of disuse-induced muscle atrophy. Muscle biopsies (thigh vastus lateralis,VL) obtained from healthy male subjects enrolled in the Toulouse Cocktail bedrest (BR) study were used to assess efficacy of an antioxidant cocktail (polyphenols, omega-3, vitamin E, and selenium) to counteract the increased redox homeostasis and enhance the antioxidant defense response by using label-free LC-MS/MS and NITRO-DIGE (nitrosated proteins), qPCR, and laser confocal microscopy. Label-free LC-MS/MS indicated that treatment prevented the redox homeostasis dysregulation and promoted structural remodeling (TPM3, MYH7, MYBPC, MYH1, MYL1, HRC, and LUM), increment of RyR1, myogenesis (CSRP3), and skeletal muscle development (MUSTN1, LMNA, AHNAK). These changes were absent in the Placebo group. Glycolysis, tricarboxylic acid cycle (TCA), oxidative phosphorylation, fatty acid beta-oxidation, and mitochondrial transmembrane transport were normalized in treated subjects. Proteins involved in protein folding were also normalized, whereas protein entailed in ion homeostasis decreased. NITRO-DIGE analysis showed significant protein nitrosylation changes for CAT, CA3, SDHA, and VDAC2 in Treatment vs. Placebo. Similarly, the nuclear factor erythroid 2-related factor 2 (Nrf-2) antioxidant response element (Nrf-2 ARE) signaling pathway showed an enhanced response in the Treatment group. Increased nitrosative redox homeostasis and decreased antioxidant defense response were found in post-BR control (Placebo,n= 10) vs. the antioxidant cocktail treated group (Treatment,n= 10). Taken together, increased nitrosative redox homeostasis and muscle deterioration during BR-driven physical inactivity were prevented, whereas decreased antioxidant nitrosative stress defense response was attenuated by Treatment suggesting positive effects of the nutritional intervention protocol in bedrest.

Published
2021
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28. Abstracts of scientific papers second international symposium on central nervous system monitoring: September 8–9, 1989 Gmunden, Austria

Author

Gaab, M. R., Trost, H. A., Lorenz, M., Seegers, K., Heuser, D., Fitch, W., Baethmann, A., Speckmann, E. -J., Lehmenkühler, A., Pöppelmann, Th., Bingmann, D., Rabow, L., Bergenheim, T., Bålfors, Eva, Urban, G., Keplinger, F., Kohl, F., Kuttner, H., Jobst, G., Pittner, F., Schalkhammer, T., Mann-Buxbaum, E., Litscher, G., Steiler, E., Pfurtschcller, G., Schwarz, G., Hinrichs, H., Feistner, H., Künkel, H., Wieser, H. G., Isler, P., Witztum, A., Siegel, A., Merles, N., Möllmann, M., Penner, M., Schoeppner, H., Hohenberger, K., Daub, D., Freye, E., Grabitz, K., Sandmann, W., Haass, A., Ladurner, G., Teasdale, G., Weis, M., Hilz, M. J., Claus, D., Neundörfer, B., Druschky, K. F., Litscher, G., Pfurtscheller, G., Heinze, H.-J, Künkcl, H., Symon, L., Cooper, Gough, Rampil, I. J., Bosco, M., Adducci, E., Gualtieri, E., Amato, A., Lacava, E., Mascia, A., Bonomo, V., Dinkel, M., Kamp, H.-D, Schweiger, H., Jaksche, H., Schwerdtfeger, K., Loew, F., Rath, S. A., Klein, H. J., Kühn, J., Fritz, W., Thiel, A., Russ, W., Hcmpelmann, G., Morawetz, R. F., Schlager, A., Lugcr, Th. J., Vajsar, J., Hopkins, Anne J., Ronen, G. M., Kuppe, H., Porte, T., Dannenberger, R., Götz, C., Adt, M., Schmucker, P., Landi, A., Colombo, F., De Luca, G. P., Fornezza, U., Benedctti, A., Bruno, R., Zamparctti, N., Engelhardt, W., Drösler, S., Dierks, T., Maurer, K., Hecht, U., Lehmkuhl, P., Pichlmayr, I., Cheng-hui, Li, Shi-ao, Jin, Cheng-hui, Li, Shi-ao, Jin, Theissen, J., Zander, J., Moberg, D., Bell, R., Miller, S. B., Pohl, S., Hühnefeld, D., Henries, H.-J, Jantzen, J.-P, Eberle, B., Dick, W., Wallenfang, T., Fuzes, I., Geissler, C., Schregel, W., Cunitz, G., Fomezza, U., Volpin, L., Zamperetti, N., Demo, P., Digito, A., Barbacini, S., Zamperetti, N., and Lacquaniti, L.

Published
1990
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33. Tension-free vaginal tape (TVT) and intravaginal slingplasty (IVS) for stress urinary incontinence: a multicenter randomized trial.

Author

Meschia M, Pifarotti P, Bernasconi F, Magatti F, Viganò R, Bertozzi R, and Barbacini P

Abstract

OBJECTIVE: This study was undertaken to compare the efficacy and morbidity of 2 minimally invasive procedures for stress urinary incontinence. STUDY DESIGN: This was a prospective randomized multicenter trial; 190 women with primary urodynamic stress incontinence were randomly assigned to tension-free vaginal tape (TVT) (n = 95) or intravaginal slingplasty (IVS) (n = 95). The primary and secondary outcome measures were rates of success and complications. SPSS software was used for data analysis. RESULTS: At 2 years 92 and 87 patients were available in the TVT and IVS group for outcomes analysis. Subjectively, 80 (87%) and 68 (78%) women were cured, respectively. Objectively, a 1-hour pad test was negative in 78 (85%) and 63 (72%) patients. Eight of the patients assigned to IVS (9%) had vaginal erosion/infection, compared with none in the TVT group (P < .01). CONCLUSION: Both procedures were effective for stress incontinence, but 9% of women treated with the IVS required removal of the tape for erosions. [ABSTRACT FROM AUTHOR]

Published
2006
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42. Heart rate variability and severe brain damage: preliminary data

Author

Lacquaniti, Luigi G., Irone, Marco, Barbacini, Stefano, Merlo, Fulgido, Demo, Paolo, Pellegrin, Carlo, and Dan, Maurizio

Abstract

Severe brain damage may cause alterations of cardiovascular function: heart rate, particularly, require the integrity of the vagal, sympathetic and central nervous systems. We studied brain-heart functional relation and neurovegetative modulation by spectral analysis of heart rate variability (HRV). This technique allows separate evaluation of the sympathetic and vagal components of heart rate modulation.

Published
1994
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43. Thyroid Function in Gestational Trophoblastic Tumors

Author

Vergadoro, Franca, Tabacchi, Laura, Barbacini, Pietro, Vassena, Laura, Zanaboni, Flavia, and Bolis, Giorgio

Abstract

Thyroid function was assessed in a total of 15 cases, 7 of whom had choriocarcinoma and 8 hydatidiform mole, by measuring free T3, free T4, thyroxin-binding globulin (TBG), basal thyroid-stimulating hormone (TSH) and after the thyrotropin-releasing hormone test (ΔTSH). Free T3, free T4 and TBG were investigated in the same number of healthy women within the first three months of pregnancy. Only 13.4% of the cases presented elevated levels of free T3 and T4 and TBG; TSH and ΔTSH were within normal limits. Both thyroid hormones and TBG returned to within normal limits when β-human chorionic gonadotropin became undetectable. One patient was found to be hypothyroid. Comparison with the control group showed no significant differences except in TBG levels, which were higher in controls. A significant, direct correlation was found between levels of free T3 and T4 and TBG and the pattern of human chorionic gonadotropin.

Published
1986
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44. IgM anti-hepatitis C virus in patients with chronic non-A, non-B hepatitis and their relationship to viral replication

Author

Mancini, C., Rivanera, D., Lilli, D., Cuonzo, G. Di, Angeletti, S., Lorino, G., Sanctis, G.M. De, Barbacini, I.G., Leonetti, G., Bianchi, P., Chircu, L.V., and Galli, C.

Abstract

Patients with hepatitis C virus (HCV) infection may have different patterns of antibody response to various structural and non-structural viral antigens. We have correlated the serological patterns to the clinical features of chronic infection and to viral replication in 68 HCV-Ab-positive patients with chronic liver disease at different stages (19 with cirrhosis-hepatocellular carcinoma, 38 with chronic active hepatitis and 11 with chronic persistent hepatitis). Serum samples from each patient were assayed for HCV-IgM by enzyme immunoassay and for HCV-RNA by the polymerase chain reaction using primer sets derived from the 5′-non-coding region. The prevalence of HCV-IgM was high (54 patients (79.4%)) and the study showed a good correlation between high values of anti-HCV-IgM and the presence of HCV-RNA in serum, since HCV-RNA was detected in 35 of the 54 IgM-positive patients (64.8%) and notably in 19 of the 20 subjects with high levels of specific IgM. Conversely, all the 35 sera containing HCV-RNA were also reactive for HCV-IgM, while none of the HCV-IgM-negative sera was HCV-RNA reactive. Positivity rates for both HCV-RNA and IgM anti-HCV were higher in the more advanced stages of disease; thus, the clinical pattern of HCV chronic hepatitis seems to be strictly related to the serological pattern and the presence of HCV-RNA.

Published
1995
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47. Muscle Proteomic Profile before and after Enzyme Replacement Therapy in Late-Onset Pompe Disease

Author

Cinzia Bragato, Enrica Torretta, Cecilia Gelfi, Maurizio Moggio, Lorenzo Maggi, Marina Mora, Patrizia Sartori, Daniele Capitanio, Pietro Barbacini, Manuela Moriggi, Moriggi, M, Capitanio, D, Torretta, E, Barbacini, P, Bragato, C, Sartori, P, Moggio, M, Maggi, L, Mora, M, and Gelfi, C

Subjects
Male, Proteome, Muscle Proteins, lcsh:Chemistry, Tandem Mass Spectrometry, Electrophoresis, Gel, Two-Dimensional, lcsh:QH301-705.5, Spectroscopy, mass spectrometry, Glycogen Storage Disease Type II, pompe disease, General Medicine, Enzyme replacement therapy, Recombinant Proteins, Computer Science Applications, medicine.anatomical_structure, Female, Adult, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, autophagy, Difference gel electrophoresis, rare disease, Catalysis, Article, Inorganic Chemistry, sarcopenia, Atrophy, proteomics, Microscopy, Electron, Transmission, Internal medicine, Lysosome, medicine, Humans, Enzyme Replacement Therapy, Physical and Theoretical Chemistry, Muscle, Skeletal, Molecular Biology, business.industry, Organic Chemistry, Autophagy, Skeletal muscle, Proteomic, nutritional and metabolic diseases, medicine.disease, Endocrinology, Proteostasis, lcsh:Biology (General), lcsh:QD1-999, Unfolded protein response, Glucan 1,4-alpha-Glucosidase, business, Lysosomes, Chromatography, Liquid
Abstract

Mutations in the acidic alpha-glucosidase (GAA) coding gene cause Pompe disease. Late-onset Pompe disease (LOPD) is characterized by progressive proximal and axial muscle weakness and atrophy, causing respiratory failure. Enzyme replacement therapy (ERT), based on recombinant human GAA infusions, is the only available treatment, however, the efficacy of ERT is variable. Here we address the question whether proteins at variance in LOPD muscle of patients before and after 1 year of ERT, compared withhealthy age-matched subjects (CTR), reveal a specific signature. Proteins extracted from skeletal muscle of LOPD patients and CTR were analyzed by combining gel based (two-dimensional difference gel electrophoresis) and label-free (liquid chromatography-mass spectrometry) proteomic approaches, and ingenuity pathway analysis. Upstream regulators targeting autophagy and lysosomal tethering were assessed by immunoblotting. 178 proteins were changed in abundance in LOPD patients, 47 of them recovered normal level after ERT. Defects in oxidative metabolism, muscle contractile protein regulation, cytoskeletal rearrangement, and membrane reorganization persisted. Metabolic changes, ER stress and UPR (unfolded protein response) contribute to muscle proteostasis dysregulation with active membrane remodeling (high levels of LC3BII/LC3BI) and accumulation of p62, suggesting imbalance in the autophagic process. Active lysosome biogenesis characterizes both LOPD PRE and POST, unparalleled by molecules involved in lysosome tethering (VAMP8, SNAP29, STX17, and GORASP2) and BNIP3. In conclusion this study reveals a specific signature that suggests ERT prolongation and molecular targets to ameliorate patient’s outcome.

Published
2021
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48. Nitrosative Stress in Astronaut Skeletal Muscle in Spaceflight.

Author

Blottner D, Moriggi M, Trautmann G, Furlan S, Block K, Gutsmann M, Torretta E, Barbacini P, Capitanio D, Rittweger J, Limper U, Volpe P, Gelfi C, and Salanova M

Abstract

Long-duration mission (LDM) astronauts from the International Space Station (ISS) (>180 ISS days) revealed a close-to-normal sarcolemmal nitric oxide synthase type-1 (NOS1) immunoexpression in myofibers together with biochemical and quantitative qPCR changes in deep calf soleus muscle. Nitro-DIGE analyses identified functional proteins (structural, metabolic, mitochondrial) that were over-nitrosylated post- vs. preflight. In a short-duration mission (SDM) astronaut (9 ISS days), s-nitrosylation of a nodal protein of the glycolytic flux, specific proteins in tricarboxylic acid (TCA) cycle, respiratory chain, and over-nitrosylation of creatine kinase M-types as signs of impaired ATP production and muscle contraction proteins were seen. S-nitrosylation of serotransferrin (TF) or carbonic anhydrase 3 (CA3b and 3c) represented signs of acute response microgravity muscle maladaptation. LDM nitrosoprofiles reflected recovery of mitochondrial activity, contraction proteins, and iron transporter TF as signs of muscle adaptation to microgravity. Nitrosated antioxidant proteins, alcohol dehydrogenase 5/S-nitrosoglutathione reductase (ADH5/GSNOR), and selenoprotein thioredoxin reductase 1 (TXNRD1) levels indicated signs of altered redox homeostasis and reduced protection from nitrosative stress in spaceflight. This work presents a novel spaceflight-generated dataset on s-nitrosylated muscle protein signatures from astronauts that helps both to better understand the structural and molecular networks associated to muscular nitrosative stress and to design countermeasures to dysfunction and impaired performance control in human spaceflight missions.

Published
2024
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49. Effects of Omega-3 and Antioxidant Cocktail Supplement on Prolonged Bed Rest: Results from Serum Proteome and Sphingolipids Analysis.

Author

Barbacini P, Blottner D, Capitanio D, Trautmann G, Block K, Torretta E, Moriggi M, Salanova M, and Gelfi C

Subjects
Antioxidants pharmacology, Dietary Supplements, Humans, Male, Proteome, Sphingolipids, Bed Rest, Fatty Acids, Omega-3 pharmacology
Abstract

Physical inactivity or prolonged bed rest (BR) induces muscle deconditioning in old and young subjects and can increase the cardiovascular disease risk (CVD) with dysregulation of the lipemic profile. Nutritional interventions, combining molecules such as polyphenols, vitamins and essential fatty acids, can influence some metabolic features associated with physical inactivity and decrease the reactive oxidative and nitrosative stress (RONS). The aim of this study was to detect circulating molecules correlated with BR in serum of healthy male subjects enrolled in a 60-day BR protocol to evaluate a nutritional intervention with an antioxidant cocktail as a disuse countermeasure (Toulouse COCKTAIL study). The serum proteome, sphingolipidome and nitrosoproteome were analyzed adopting different mass spectrometry-based approaches. Results in placebo-treated BR subjects indicated a marked decrease of proteins associated with high-density lipoproteins (HDL) involved in lipemic homeostasis not found in the cocktail-treated BR group. Moreover, long-chain ceramides decreased while sphingomyelin increased in the BR cocktail-treated group. In placebo, the ratio of S -nitrosylated/total protein increased for apolipoprotein D and several proteins were over-nitrosylated. In cocktail-treated BR subjects, the majority of protein showed a pattern of under-nitrosylation, except for ceruloplasmin and hemopexin, which were over-nitrosylated. Collectively, data indicate a positive effect of the cocktail in preserving lipemic and RONS homeostasis in extended disuse conditions.

Published
2022
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50. Molecular Fingerprint of BMD Patients Lacking a Portion in the Rod Domain of Dystrophin.

Author

Capitanio D, Moriggi M, Barbacini P, Torretta E, Moroni I, Blasevich F, Morandi L, Mora M, and Gelfi C

Subjects
Exons genetics, Humans, Muscles metabolism, Phenotype, Tandem Mass Spectrometry, Dystrophin genetics, Dystrophin metabolism, Muscular Dystrophy, Duchenne genetics
Abstract

BMD is characterized by a marked heterogeneity of gene mutations resulting in many abnormal dystrophin proteins with different expression and residual functions. The smaller dystrophin molecules lacking a portion around exon 48 of the rod domain, named the D8 region, are related to milder phenotypes. The study aimed to determine which proteins might contribute to preserving muscle function in these patients. Patients were subdivided, based on the absence or presence of deletions in the D8 region, into two groups, BMD1 and BMD2. Muscle extracts were analyzed by 2-D DIGE, label-free LC-ESI-MS/MS, and Ingenuity pathway analysis (IPA). Increased levels of proteins typical of fast fibers and of proteins involved in the sarcomere reorganization characterize BMD2. IPA of proteomics datasets indicated in BMD2 prevalence of glycolysis and gluconeogenesis and a correct flux through the TCA cycle enabling them to maintain both metabolism and epithelial adherens junction. A 2-D DIGE analysis revealed an increase of acetylated proteoforms of moonlighting proteins aldolase, enolase, and glyceraldehyde-3-phosphate dehydrogenase that can target the nucleus promoting stem cell recruitment and muscle regeneration. In BMD2, immunoblotting indicated higher levels of myogenin and lower levels of PAX7 and SIRT1/2 associated with a set of proteins identified by proteomics as involved in muscle homeostasis maintenance.

Published
2022
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