Your search keyword '"Alessandro Mormino"' showing total 6 results

1. Time-dependent phenotypical changes of microglia drive alterations in hippocampal synaptic transmission in acute slices

Author

Laura Ferrucci, Bernadette Basilico, Ingrid Reverte, Francesca Pagani, Giorgia Scaringi, Federica Cordella, Barbara Cortese, Gaia De Propris, Andrea Galeone, Letizia Mazzarella, Alessandro Mormino, Stefano Garofalo, Azka Khan, Valeria De Turris, Valentina Ferretti, Paola Bezzi, Cornelius Gross, Daniele Caprioli, Cristina Limatola, Silvia Di Angelantonio, and Davide Ragozzino

Subjects

microglia, acute slices, synaptic transmission, microglia reactivity, electrophysiology, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

It is widely acknowledged that microglia actively regulate synaptic function in the brain. Remarkably, much of our understanding regarding the role of microglia in synaptic regulation is derived from studies in acute brain slices. However, it is still uncertain to what extent the preparation and maintenance of acute slices can influence microglial function and whether microglial changes may affect synaptic transmission. In this study, we examined the impact of acute slice resting time on hippocampal CA1 microglia, by assessing morphological and functional parameters at two distinct time intervals. We report that after 4 h from slicing microglia undergo morphological, functional, and transcriptional changes, including a decrease in the number of branches and in their movement speed. Furthermore, microglia acquire a reactive phenotype, characterized by increased amplitude of outward rectifying K+ currents, increased expression of the pro-inflammatory cytokine Tnfα and altered expression of the microglial receptors Cx3cr1 and P2y12r. We also examined time-dependent changes of excitatory synaptic transmission in CA1 pyramidal neurons from acute hippocampal slices, reporting time-dependent decrease in both amplitude and frequency of postsynaptic currents (sEPSCs), along with a decrease in spine density. Noticeably, sEPSCs amplitude decrease was absent in slices prepared from PLX5622 microglia-depleted mice, suggesting that this time-dependent effect on synaptic transmission is microglia-dependent. Our findings highlight possible causal relation between microglia phenotypic changes in the hours following slice preparation and concomitant synaptic changes, pointing to the mechanisms of acute synaptic modulation, whose understanding is crucial for unraveling microglia-neurons interplay in nature. Furthermore, they emphasize the potential issues associated with experimental time windows in ex vivo samples.

Published

2024

2. Natural killer cells and innate lymphoid cells 1 tune anxiety-like behavior and memory in mice via interferon-γ and acetylcholine

Author

Stefano Garofalo, Germana Cocozza, Alessandro Mormino, Giovanni Bernardini, Eleonora Russo, Donald Ielpo, Diego Andolina, Rossella Ventura, Katiuscia Martinello, Massimiliano Renzi, Sergio Fucile, Mattia Laffranchi, Eva Piano Mortari, Rita Carsetti, Giuseppe Sciumè, Silvano Sozzani, Angela Santoni, Marie-Eve Tremblay, Richard M. Ransohoff, and Cristina Limatola

Subjects

Science

Abstract

Abstract The mechanisms of communication between the brain and the immune cells are still largely unclear. Here, we characterize the populations of resident natural killer (NK) cells and innate lymphoid cells (ILC) 1 in the meningeal dura layer of adult mice. We describe that ILC1/NK cell-derived interferon-γ and acetylcholine can contribute to the modulation of brain homeostatic functions, shaping synaptic neuronal transmission and neurotransmitter levels with effects on mice behavior. In detail, the interferon-γ plays a role in the formation of non-spatial memory, tuning the frequency of GABAergic neurotransmission on cortical pyramidal neurons, while the acetylcholine is a mediator involved in the modulation of brain circuitries that regulate anxiety-like behavior. These findings disclose mechanisms of immune-to-brain communication that modulate brain functions under physiological conditions.

Published

2023

3. Environmental enrichment counteracts the effects of glioma in primary visual cortex

Author

Maria Amalia Di Castro, Stefano Garofalo, Eleonora De Felice, Nicolò Meneghetti, Erika Di Pietro, Alessandro Mormino, Alberto Mazzoni, Matteo Caleo, Laura Maggi, and Cristina Limatola

Subjects

Peritumoral neurons, Glioma, Synaptic transmission, Environmental enrichment, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Experience-dependent neuronal changes and brain plasticity occur throughout life as animals adapt to their environment. Structural, morphological, and cellular modifications promoted by exposure to environmental enrichment (EE) have been reported to improve neuronal functions, increase hippocampal neurogenesis, ameliorate memory tasks and cognitive performance, and have beneficial effects on several brain diseases, including cancer. We specifically addressed the role of the EE in counteracting neuronal dysfunction in mice bearing glioma in the primary visual cortex. By recording spontaneous and evoked currents with patch clamp techniques in acute slices obtained from standard and enriched-housed mice, we found that the presence of glioma globally reduced the excitatory and inhibitory transmissions in the peritumoral area. The exposure to an enriched environment counteracts the tumor-mediated depression of both excitatory and inhibitory neuronal activities, with a more pronounced impact on evoked transmission. The effect of EE on glioma was also associated with reduced tumor cell proliferation. These results elucidate the impact of EE on excitatory and inhibitory neurotransmission of the primary visual cortex in control and glioma-bearing mice.

Published

2022

4. Enriched Environment Cues Suggest a New Strategy to Counteract Glioma: Engineered rAAV2-IL-15 Microglia Modulate the Tumor Microenvironment

Author

Alessandro Mormino, Giovanni Bernardini, Germana Cocozza, Nicoletta Corbi, Claudio Passananti, Angela Santoni, Cristina Limatola, and Stefano Garofalo

Subjects

glioma, enriched environment, microglia/macrophages, NK cell, IL-15, adeno-associated virus, Immunologic diseases. Allergy, RC581-607

Abstract

Several types of cancer grow differently depending on the environmental stimuli they receive. In glioma, exposure to an enriched environment (EE) increases the overall survival rate of tumor-bearing mice, acting on the cells that participate to define the tumor microenvironment. In particular, environmental cues increase the microglial production of interleukin (IL)-15 which promotes a pro-inflammatory (antitumor) phenotype of microglia and the cytotoxic activity of natural killer (NK) cells, counteracting glioma growth, thus representing a virtuous mechanism of interaction between NK cells and microglia. To mimic the effect of EE on glioma, we investigated the potential of creating engineered microglia as the source of IL-15 in glioma. We demonstrated that microglia modified with recombinant adeno-associated virus serotype 2 (rAAV2) carrying IL-15 (rAAV2-IL-15), to force the production of IL-15, are able to increase the NK cells viability in coculture. Furthermore, the intranasal delivery of rAAV2-IL-15 microglia triggered the interplay with NK cells in vivo, enhancing NK cell recruitment and pro-inflammatory microglial phenotype in tumor mass of glioma-bearing mice, and ultimately counteracted tumor growth. This approach has a high potential for clinical translatability, highlighting the therapeutic efficacy of forced IL-15 production in microglia: the delivery of engineered rAAV2-IL-15 microglia to boost the immune response paves the way to design a new perspective therapy for glioma patients.

Published

2021

5. Histone‐deacetylase 8 drives the immune response and the growth of glioma

Author

Stefano Garofalo, Francesco Fazi, Germana Cocozza, Angela Santoni, Cristina Limatola, Alessandro Mormino, Sergio Valente, Antonio Santoro, Vincenzo Esposito, Giulia Fontemaggi, Giovanni Bernardini, and Antonello Mai

Subjects

microglia, Biology, hdac8, epigenetic, glioma, histone-deacetylase 8 protein, natural killer cell, natural killer group 2D (NKG2D) ligands, PCI-34051, Histone Deacetylases, Natural killer cell, Histones, Cellular and Molecular Neuroscience, Mice, Immune system, Percutaneous Coronary Intervention, Glioma, medicine, Tumor Microenvironment, Animals, Epigenetics, Research Articles, Tumor microenvironment, Immunity, HDAC8, medicine.disease, histone‐deacetylase 8 protein, Histone Deacetylase Inhibitors, medicine.anatomical_structure, Neurology, Acetylation, Cancer research, Histone deacetylase, PCI‐34051, Research Article

Abstract

Many epigenetic modifications occur in glioma, in particular the histone‐deacetylase class proteins play a pivotal role in glioma development, driving the proliferation rate and the invasiveness of tumor cells, and modulating the tumor microenvironment. In this study, we evaluated the role of the histone deacetylase HDAC8 in the regulation of the immune response in glioma and tumor growth. We found that inhibition of HDAC8 by the specific inhibitor PCI‐34051 reduces tumor volume in glioma mouse models. We reported that HDAC8 modulates the viability and the migration of human and murine glioma cells. Interestingly, HDAC8 inhibition increases the acetylation of alpha‐tubulin, suggesting this epigenetic modification controls glioma migration. Furthermore, we identify HDAC8 as a key molecule that supports a poorly immunogenic tumor microenvironment, modulating microglial phenotype and regulating the gene transcription of NKG2D ligands that trigger the Natural Killer cell‐mediated cytotoxicity of tumor cells. Altogether, these results identify HDAC8 as a key actor in glioma growth and tumor microenvironment, and pave the way to a better knowledge of the molecular mechanisms of immune escape in glioma., Main Points HDAC8 modulates the viability of human and murine glioma cells and tumor migration through a–tubulin acetylation.HDAC8 supports a poorly immunogenic tumor microenvironment modulating microglial phenotype and inhibiting NK cell cytotoxic activity.

Published

2021

6. Dialogue among Lymphocytes and Microglia in Glioblastoma Microenvironment

Author

Alessandro Mormino and Stefano Garofalo

Subjects

Cancer Research, cytotoxic lymphocytes, natural killer cells, Oncology, CAR technology, adeno-associated viruses, enriched environment, glioblastoma, microglia

Abstract

Microglia and lymphocytes are fundamental constituents of the glioblastoma microenvironment. In this review, we summarize the current state-of-the-art knowledge of the microglial role played in promoting the development and aggressive hallmarks of this deadly brain tumor. Particularly, we report in vitro and in vivo studies related to glioblastoma models and human patients to outline the symbiotic bidirectional interaction between microglia, lymphocytes, and tumor cells that develops during tumor progression. Furthermore, we highlight the current experimental therapeutic approaches that aim to shape these interplays, such as adeno-associated virus (AAV) delivery and CAR-T and -NK cell infusion, and to modulate the tumor microenvironment in an anti-tumoral way, thus counteracting glioblastoma growth.

Published

2022