Your search keyword '"Alessandro Usiello"' showing total 13 results

1. Serum dysregulation of serine and glycine metabolism as predictive biomarker for cognitive decline in frail elderly subjects

Author

Alberto Imarisio, Isar Yahyavi, Clara Gasparri, Amber Hassan, Micol Avenali, Anna Di Maio, Gabriele Buongarzone, Caterina Galandra, Marta Picascia, Asia Filosa, Maria Cristina Monti, Claudio Pacchetti, Francesco Errico, Mariangela Rondanelli, Alessandro Usiello, and Enza Maria Valente

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Frailty is a common age-related clinical syndrome characterized by a decline in the function of multiple organ systems, increased vulnerability to stressors, and a huge socio-economic burden. Despite recent research efforts, the physiopathological mechanisms underlying frailty remain elusive and biomarkers able to predate its occurrence in the early stages are still lacking. Beyond its physical component, cognitive decline represents a critical domain of frailty associated with higher risk of adverse health outcomes. We measured by High-Performance Liquid Chromatography (HPLC) a pool of serum amino acids including L-glutamate, L-aspartate, glycine, and D-serine, as well as their precursors L-glutamine, L-asparagine, and L-serine in a cohort of elderly subjects encompassing the entire continuum from fitness to frailty. These amino acids are known to orchestrate excitatory and inhibitory neurotransmission, and in turn, to play a key role as intermediates of energy homeostasis and in liver, kidney, muscle, and immune system metabolism. To comprehensively assess frailty, we employed both the Edmonton Frail Scale (EFS), as a practical tool to capture the multidimensionality of frailty, and the frailty phenotype, as a measure of physical function. We found that D-serine and D-/Total serine ratio were independent predictors of EFS but not of physical frailty. Furthermore, higher levels of glycine, glycine/L-serine and D-/Total serine were associated with worse cognition and depressive symptoms in the frail group. These findings suggest that changes in peripheral glycine and serine enantiomers homeostasis may represent a novel biochemical correlate of frailty.

Published

2024

2. Decreased free D-aspartate levels in the blood serum of patients with schizophrenia

Author

Martina Garofalo, Giuseppe De Simone, Zoraide Motta, Tommaso Nuzzo, Elisa De Grandis, Claudio Bruno, Silvia Boeri, Maria Pia Riccio, Lucio Pastore, Carmela Bravaccio, Felice Iasevoli, Francesco Salvatore, Loredano Pollegioni, Francesco Errico, Andrea de Bartolomeis, and Alessandro Usiello

Subjects

D-serine, D-aspartate, treatment-resistant, antipsychotics, schizophrenia, autism spectrum disorder, Psychiatry, RC435-571

Abstract

IntroductionSchizophrenia (SCZ) and autism spectrum disorder (ASD) are neurodevelopmental diseases characterized by different psychopathological manifestations and divergent clinical trajectories. Various alterations at glutamatergic synapses have been reported in both disorders, including abnormal NMDA and metabotropic receptor signaling.MethodsWe conducted a bicentric study to assess the blood serum levels of NMDA receptors-related glutamatergic amino acids and their precursors, including L-glutamate, L-glutamine, D-aspartate, L-aspartate, L-asparagine, D-serine, L-serine and glycine, in ASD, SCZ patients and their respective control subjects. Specifically, the SCZ patients were subdivided into treatment-resistant and non-treatment-resistant SCZ patients, based on their responsivity to conventional antipsychotics.ResultsD-serine and D-aspartate serum reductions were found in SCZ patients compared to controls. Conversely, no significant differences between cases and controls were found in amino acid concentrations in the two ASD cohorts analyzed.DiscussionThis result further encourages future research to evaluate the predictive role of selected D-amino acids as peripheral markers for SCZ pathophysiology and diagnosis.

Published

2024

3. SMN deficiency perturbs monoamine neurotransmitter metabolism in spinal muscular atrophy

Author

Valeria Valsecchi, Francesco Errico, Valentina Bassareo, Carmen Marino, Tommaso Nuzzo, Paola Brancaccio, Giusy Laudati, Antonella Casamassa, Manuela Grimaldi, Adele D’Amico, Manolo Carta, Enrico Bertini, Giuseppe Pignataro, Anna Maria D’Ursi, and Alessandro Usiello

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Beyond motor neuron degeneration, homozygous mutations in the survival motor neuron 1 (SMN1) gene cause multiorgan and metabolic defects in patients with spinal muscular atrophy (SMA). However, the precise biochemical features of these alterations and the age of onset in the brain and peripheral organs remain unclear. Using untargeted NMR-based metabolomics in SMA mice, we identify cerebral and hepatic abnormalities related to energy homeostasis pathways and amino acid metabolism, emerging already at postnatal day 3 (P3) in the liver. Through HPLC, we find that SMN deficiency induces a drop in cerebral norepinephrine levels in overt symptomatic SMA mice at P11, affecting the mRNA and protein expression of key genes regulating monoamine metabolism, including aromatic L-amino acid decarboxylase (AADC), dopamine beta-hydroxylase (DβH) and monoamine oxidase A (MAO-A). In support of the translational value of our preclinical observations, we also discovered that SMN upregulation increases cerebrospinal fluid norepinephrine concentration in Nusinersen-treated SMA1 patients. Our findings highlight a previously unrecognized harmful influence of low SMN levels on the expression of critical enzymes involved in monoamine metabolism, suggesting that SMN-inducing therapies may modulate catecholamine neurotransmission. These results may also be relevant for setting therapeutic approaches to counteract peripheral metabolic defects in SMA.

Published

2023

4. Blood D-serine levels correlate with aging and dopaminergic treatment in Parkinson's disease

Author

Alberto Imarisio, Isar Yahyavi, Micol Avenali, Anna Di Maio, Gabriele Buongarzone, Caterina Galandra, Marta Picascia, Asia Filosa, Clara Gasparri, Maria Cristina Monti, Mariangela Rondanelli, Claudio Pacchetti, Francesco Errico, Enza Maria Valente, and Alessandro Usiello

Subjects

Parkinson's disease, D-serine, Serum amino acids, Age at onset, Aging, LEDD, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

We recently described increased D- and L-serine concentrations in the striatum of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated monkeys, the post-mortem caudate-putamen of human Parkinson's disease (PD) brains and the cerebrospinal fluid (CSF) of de novo living PD patients. However, data regarding blood D- and L-serine levels in PD are scarce. Here, we investigated whether the serum profile of D- and L-serine, as well as the other glutamate N-methyl-D-aspartate ionotropic receptor (NMDAR)-related amino acids, (i) differs between PD patients and healthy controls (HC) and (ii) correlates with clinical-demographic features and levodopa equivalent daily dose (LEDD) in PD. Eighty-three consecutive PD patients and forty-one HC were enrolled. PD cohort underwent an extensive clinical characterization. Serum levels of D- and L-serine, L-glutamate, L-glutamine, L-aspartate, L-asparagine and glycine were determined using High Performance Liquid Chromatography.In age- and sex-adjusted analyses, no differences emerged in the serum levels of D-serine, L-serine and other NMDAR-related amino acids between PD and HC. However, we found that D-serine and D−/Total serine ratio positively correlated with age in PD but not in HC, and also with PD age at onset. Moreover, we found that higher LEDD correlated with lower levels of D-serine and the other excitatory amino acids. Following these results, the addition of LEDD as covariate in the analyses disclosed a selective significant increase of D-serine in PD compared to HC (Δ ≈ 38%). Overall, these findings suggest that serum D-serine and D−/Total serine may represent a valuable biochemical signature of PD.

Published

2024

5. Nusinersen mitigates neuroinflammation in severe spinal muscular atrophy patients

Author

Tommaso Nuzzo, Rosita Russo, Francesco Errico, Adele D’Amico, Awet G. Tewelde, Mariangela Valletta, Amber Hassan, Michele Tosi, Chiara Panicucci, Claudio Bruno, Enrico Bertini, Angela Chambery, Livio Pellizzoni, and Alessandro Usiello

Subjects

Medicine

Abstract

Nuzzo, Russo, Errico, D’Amico et al. investigate neuroinflammation in forty-eight pediatric spinal muscular atrophy patients before and after Nusinersen treatment. They find signatures of neuroinflammation that are specifically associated with severe disease and show that Nusinersen therapy has neuro-immunomodulatory effects.

Published

2023

6. Homeostasis of serine enantiomers is disrupted in the post-mortem caudate putamen and cerebrospinal fluid of living Parkinson's disease patients

Author

Anna Di Maio, Tommaso Nuzzo, Luana Gilio, Marcello Serra, Fabio Buttari, Francesco Errico, Arianna De Rosa, Mario Stampanoni Bassi, Micaela Morelli, Jumpei Sasabe, David Sulzer, Manolo Carta, Diego Centonze, and Alessandro Usiello

Subjects

biomarkers, serine, dopamine, alanine cysteine serine transporter (SLC1A4), Alzheimer's disease, amyotrophic lateral sclerosis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

L-serine generated in astrocytes plays a pivotal role in modulating essential neurometabolic processes, while its enantiomer, D-serine, specifically regulates NMDA receptor (NMDAR) signalling. Despite their physiological relevance in modulating cerebral activity, serine enantiomers metabolism in Parkinson's disease (PD) remains elusive. Using High-Performance Liquid Chromatography (HPLC), we measured D- and L-serine levels along with other amino acids known to modulate NMDAR function, such as L-glutamate, L-aspartate, D-aspartate, and glycine, in the post-mortem caudate putamen (CPu) and superior frontal gyrus (SFG) of PD patients. Moreover, we examined these amino acids in the cerebrospinal fluid (CSF) of de novo living PD, Alzheimer's disease (AD), and amyotrophic lateral sclerosis (ALS) patients versus subjects with other neurological disorders (OND), used as control. We found higher D-serine and L-serine levels in the CPu of PD patients but not in the SFG, a cerebral region that, in contrast to the CPu, is not innervated by nigral dopaminergic terminals. We also highlighted a significant elevation of both serine enantiomers in the CSF samples from PD but not in those of AD and ALS patients, compared with control subjects. By contrast, none or only minor changes were found in the amount of other NMDAR modulating amino acids. Our findings identify D-serine and L-serine level upregulation as a biochemical signature associated with nigrostriatal dopaminergic degeneration in PD.

Published

2023

7. Perturbation of serine enantiomers homeostasis in the striatum of MPTP-lesioned monkeys and mice reflects the extent of dopaminergic midbrain degeneration

Author

Marcello Serra, Anna Di Maio, Valentina Bassareo, Tommaso Nuzzo, Francesco Errico, Federica Servillo, Mario Capasso, Pathik Parekh, Qin Li, Marie-Laure Thiolat, Erwan Bezard, Paolo Calabresi, David Sulzer, Manolo Carta, Micaela Morelli, and Alessandro Usiello

Subjects

Parkinson's disease, caudate putamen, serine racemase, alanine serine cysteine transporter 1 (ASCT1), 3-phosphoglycerate dehydrogenase (PHGDH), ionotropic N-methyl-d-aspartate receptors (NMDAR), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Loss of dopaminergic midbrain neurons perturbs l-serine and d-serine homeostasis in the post-mortem caudate putamen (CPu) of Parkinson's disease (PD) patients. However, it is unclear whether the severity of dopaminergic nigrostriatal degeneration plays a role in deregulating serine enantiomers' metabolism. Here, through high-performance liquid chromatography (HPLC), we measured the levels of these amino acids in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated monkeys and MPTP-plus-probenecid (MPTPp)-treated mice to determine whether and how dopaminergic midbrain degeneration affects the levels of serine enantiomers in various basal ganglia subregions. In addition, in the same brain regions, we measured the levels of key neuroactive amino acids modulating glutamatergic neurotransmission, including l-glutamate, glycine, l-aspartate, d-aspartate, and their precursors l-glutamine, l-asparagine. In monkeys, MPTP treatment produced severe denervation of nigrostriatal dopaminergic fibers (⁓75%) and increased the levels of serine enantiomers in the rostral putamen (rPut), but not in the subthalamic nucleus, and the lateral and medial portion of the globus pallidus. Moreover, this neurotoxin significantly reduced the protein expression of the astrocytic serine transporter ASCT1 and the glycolytic enzyme GAPDH in the rPut of monkeys. Conversely, concentrations of d-serine and l-serine, as well as ASCT1 and GAPDH expression were unaffected in the striatum of MPTPp-treated mice, which showed only mild dopaminergic degeneration (⁓30%). These findings unveil a link between the severity of dopaminergic nigrostriatal degeneration and striatal serine enantiomers concentration, ASCT1 and GAPDH expression. We hypothesize that the up-regulation of d-serine and l-serine levels occurs as a secondary response within a homeostatic loop to support the metabolic and neurotransmission demands imposed by the degeneration of dopaminergic neurons.

Published

2023

8. D-aspartate oxidase gene duplication induces social recognition memory deficit in mice and intellectual disabilities in humans

Author

Barbara Lombardo, Marco Pagani, Arianna De Rosa, Marcella Nunziato, Sara Migliarini, Martina Garofalo, Marta Terrile, Valeria D’Argenio, Alberto Galbusera, Tommaso Nuzzo, Annaluisa Ranieri, Andrea Vitale, Eleonora Leggiero, Anna Di Maio, Noemi Barsotti, Ugo Borello, Francesco Napolitano, Alessandra Mandarino, Marco Carotenuto, Uriel Heresco-Levy, Massimo Pasqualetti, Paolo Malatesta, Alessandro Gozzi, Francesco Errico, Francesco Salvatore, Lucio Pastore, and Alessandro Usiello

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract The D-aspartate oxidase (DDO) gene encodes the enzyme responsible for the catabolism of D-aspartate, an atypical amino acid enriched in the mammalian brain and acting as an endogenous NMDA receptor agonist. Considering the key role of NMDA receptors in neurodevelopmental disorders, recent findings suggest a link between D-aspartate dysmetabolism and schizophrenia. To clarify the role of D-aspartate on brain development and functioning, we used a mouse model with constitutive Ddo overexpression and D-aspartate depletion. In these mice, we found reduced number of BrdU-positive dorsal pallium neurons during corticogenesis, and decreased cortical and striatal gray matter volume at adulthood. Brain abnormalities were associated with social recognition memory deficit at juvenile phase, suggesting that early D-aspartate occurrence influences neurodevelopmental related phenotypes. We corroborated this hypothesis by reporting the first clinical case of a young patient with severe intellectual disability, thought disorders and autism spectrum disorder symptomatology, harboring a duplication of a chromosome 6 region, including the entire DDO gene.

Published

2022

9. Machine Learning algorithm unveils glutamatergic alterations in the post-mortem schizophrenia brain

Author

Arianna De Rosa, Andrea Fontana, Tommaso Nuzzo, Martina Garofalo, Anna Di Maio, Daniela Punzo, Massimiliano Copetti, Alessandro Bertolino, Francesco Errico, Antonio Rampino, Andrea de Bartolomeis, and Alessandro Usiello

Subjects

Psychiatry, RC435-571

Abstract

Abstract Schizophrenia is a disorder of synaptic plasticity and aberrant connectivity in which a major dysfunction in glutamate synapse has been suggested. However, a multi-level approach tackling diverse clusters of interacting molecules of the glutamate signaling in schizophrenia is still lacking. We investigated in the post-mortem dorsolateral prefrontal cortex (DLPFC) and hippocampus of schizophrenia patients and non-psychiatric controls, the levels of neuroactive d- and l-amino acids (l-glutamate, d-serine, glycine, l-aspartate, d-aspartate) by HPLC. Moreover, by quantitative RT-PCR and western blotting we analyzed, respectively, the mRNA and protein levels of pre- and post-synaptic key molecules involved in the glutamatergic synapse functioning, including glutamate receptors (NMDA, AMPA, metabotropic), their interacting scaffolding proteins (PSD-95, Homer1b/c), plasma membrane and vesicular glutamate transporters (EAAT1, EAAT2, VGluT1, VGluT2), enzymes involved either in glutamate-dependent GABA neurotransmitter synthesis (GAD65 and 67), or in post-synaptic NMDA receptor-mediated signaling (CAMKIIα) and the pre-synaptic marker Synapsin-1. Univariable analyses revealed that none of the investigated molecules was differently represented in the post-mortem DLPFC and hippocampus of schizophrenia patients, compared with controls. Nonetheless, multivariable hypothesis-driven analyses revealed that the presence of schizophrenia was significantly affected by variations in neuroactive amino acid levels and glutamate-related synaptic elements. Furthermore, a Machine Learning hypothesis-free unveiled other discriminative clusters of molecules, one in the DLPFC and another in the hippocampus. Overall, while confirming a key role of glutamatergic synapse in the molecular pathophysiology of schizophrenia, we reported molecular signatures encompassing elements of the glutamate synapse able to discriminate patients with schizophrenia and normal individuals.

Published

2022

10. D-Aspartate Depletion Perturbs Steroidogenesis and Spermatogenesis in Mice

Author

Alessandra Santillo, Sara Falvo, Massimo Venditti, Anna Di Maio, Gabriella Chieffi Baccari, Francesco Errico, Alessandro Usiello, Sergio Minucci, and Maria Maddalena Di Fiore

Subjects

steroidogenesis, spermatogenesis, D-aspartate oxidase, D-aspartate, DAAM1, PREP, Microbiology, QR1-502

Abstract

High levels of free D-aspartate (D-Asp) are present in vertebrate testis during post-natal development, coinciding with the onset of testosterone production, which suggests that this atypical amino acid might participate in the regulation of hormone biosynthesis. To elucidate the unknown role of D-Asp on testicular function, we investigated steroidogenesis and spermatogenesis in a one-month-old knockin mouse model with the constitutive depletion of D-Asp levels due to the targeted overexpression of D-aspartate oxidase (DDO), which catalyzes the deaminative oxidation of D-Asp to generate the corresponding α-keto acid, oxaloacetate, hydrogen peroxide, and ammonium ions. In the Ddo knockin mice, we found a dramatic reduction in testicular D-Asp levels, accompanied by a significant decrease in the serum testosterone levels and testicular 17β-HSD, the enzyme involved in testosterone biosynthesis. Additionally, in the testes of these Ddo knockin mice, the expression of PCNA and SYCP3 proteins decreased, suggesting alterations in spermatogenesis-related processes, as well as an increase in the cytosolic cytochrome c protein levels and TUNEL-positive cell number, which indicate an increase in apoptosis. To further investigate the histological and morphometric testicular alterations in Ddo knockin mice, we analyzed the expression and localization of prolyl endopeptidase (PREP) and disheveled-associated activator of morphogenesis 1 (DAAM1), two proteins involved in cytoskeletal organization. Our results showed that the testicular levels of DAAM1 and PREP in Ddo knockin mice were different from those in wild-type animals, suggesting that the deficiency of D-Asp is associated with overall cytoskeletal disorganization. Our findings confirmed that physiological D-Asp influences testosterone biosynthesis and plays a crucial role in germ cell proliferation and differentiation, which are required for successful reproduction.

Published

2023

11. Nusinersen Induces Disease-Severity-Specific Neurometabolic Effects in Spinal Muscular Atrophy

Author

Francesco Errico, Carmen Marino, Manuela Grimaldi, Tommaso Nuzzo, Valentina Bassareo, Valeria Valsecchi, Chiara Panicucci, Elia Di Schiavi, Tommaso Mazza, Claudio Bruno, Adele D’Amico, Manolo Carta, Anna Maria D’Ursi, Enrico Bertini, Livio Pellizzoni, and Alessandro Usiello

Subjects

spinal muscular atrophy (SMA), survival motor neuron (SMN), nusinersen, cerebrospinal fluid (CSF), nuclear magnetic resonance (NMR), Microbiology, QR1-502

Abstract

Intrathecal delivery of Nusinersen–an antisense oligonucleotide that promotes survival motor neuron (SMN) protein induction–is an approved therapy for spinal muscular atrophy (SMA). Here, we employed nuclear magnetic resonance (NMR) spectroscopy to longitudinally characterize the unknown metabolic effects of Nusinersen in the cerebrospinal fluid (CSF) of SMA patients across disease severity. Modulation of amino acid metabolism is a common denominator of biochemical changes induced by Nusinersen, with distinct downstream metabolic effects according to disease severity. In severe SMA1 patients, Nusinersen stimulates energy-related glucose metabolism. In intermediate SMA2 patients, Nusinersen effects are also related to energy homeostasis but involve ketone body and fatty acid biosynthesis. In milder SMA3 patients, Nusinersen mainly modulates amino acid metabolism. Moreover, Nusinersen modifies the CSF metabolome of a more severe clinical group towards the profile of untreated SMA patients with milder disease. These findings reveal disease severity-specific neurometabolic signatures of Nusinersen treatment, suggesting a selective modulation of peripheral organ metabolism by this CNS-directed therapy in severe SMA patients.

Published

2022

12. Abnormal RasGRP1 Expression in the Post-Mortem Brain and Blood Serum of Schizophrenia Patients

Author

Arianna De Rosa, Anna Di Maio, Silvia Torretta, Martina Garofalo, Valentina Giorgelli, Rita Masellis, Tommaso Nuzzo, Francesco Errico, Alessandro Bertolino, Srinivasa Subramaniam, Antonio Rampino, and Alessandro Usiello

Subjects

schizophrenia, RasGRP1, DLPFC, hippocampus, serum, Microbiology, QR1-502

Abstract

Schizophrenia (SCZ) is a polygenic severe mental illness. Genome-wide association studies (GWAS) have detected genomic variants associated with this psychiatric disorder and pathway analyses have indicated immune system and dopamine signaling as core components of risk in dorsolateral-prefrontal cortex (DLPFC) and hippocampus, but the mechanistic links remain unknown. The RasGRP1 gene, encoding for a guanine nucleotide exchange factor, is implicated in dopamine signaling and immune response. RasGRP1 has been identified as a candidate risk gene for SCZ and autoimmune disease, therefore representing a possible point of convergence between mechanisms involving the nervous and the immune system. Here, we investigated RasGRP1 mRNA and protein expression in post-mortem DLPFC and hippocampus of SCZ patients and healthy controls, along with RasGRP1 protein content in the serum of an independent cohort of SCZ patients and control subjects. Differences in RasGRP1 expression between SCZ patients and controls were detected both in DLPFC and peripheral blood of samples analyzed. Our results indicate RasGRP1 may mediate risk for SCZ by involving DLPFC and peripheral blood, thus encouraging further studies to explore its possible role as a biomarker of the disease and/or a target for new medication.

Published

2022

13. Analysis of mRNA and Protein Levels of

Author

Anna, Di Maio, Arianna, De Rosa, Silvia, Pelucchi, Martina, Garofalo, Benedetta, Marciano, Tommaso, Nuzzo, Fabrizio, Gardoni, Andrea M, Isidori, Monica, Di Luca, Francesco, Errico, Andrea, De Bartolomeis, Elena, Marcello, and Alessandro, Usiello

Subjects

Adult, Aged, 80 and over, Male, Membrane Proteins, Parkinson Disease, Middle Aged, Hippocampus, Discs Large Homolog 1 Protein, ADAM10 Protein, Dorsolateral Prefrontal Cortex, Gene Expression Regulation, Alzheimer Disease, Case-Control Studies, Schizophrenia, Humans, Female, Autopsy, Amyloid Precursor Protein Secretases, Adaptor Proteins, Signal Transducing, Aged

Abstract

Schizophrenia (SCZ) is a mental illness characterized by aberrant synaptic plasticity and connectivity. A large bulk of evidence suggests genetic and functional links between postsynaptic abnormalities and SCZ. Here, we performed quantitative PCR and Western blotting analysis in the dorsolateral prefrontal cortex (DLPFC) and hippocampus of SCZ patients to investigate the mRNA and protein expression of three key spine shapers: the actin-binding protein cyclase-associated protein 2 (

Published

2021