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GIADA ZANINI

Assegnista di ricerca
Dipartimento Chirurgico, Medico, Odontoiatrico e di Scienze Morfologiche con interesse Trapiantologico, Oncologico e di Medicina Rigenerativa

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Pubblicazioni

2024 - Vascular "Long COVID": A New Vessel Disease? [Articolo su rivista]
Zanini, Giada; Selleri, Valentina; Roncati, Luca; Coppi, Francesca; Nasi, Milena; Farinetti, Alberto; Manenti, Antonio; Pinti, Marcello; Mattioli, Anna Vittoria
abstract

: Vascular sequelae following (SARS-CoV-2 coronavirus disease) (COVID)-19 infection are considered as "Long Covid (LC)" disease, when occurring 12 weeks after the original infection. The paucity of specific data can be obviated by translating pathophysiological elements from the original Severe Acute Respiratory Syndrome-Corona Virus (SARS-CoV-2) infection (In a microcirculatory system, a first "endotheliitis," is often followed by production of "Neutrophil Extracellular Trap," and can evolve into a more complex leukocytoklastic-like and hyperimmune vasculitis. In medium/large-sized vessels, this corresponds to endothelial dysfunction, leading to an accelerated progression of pre-existing atherosclerotic plaques through an increased deposition of platelets, circulating inflammatory cells and proteins. Associated dysregulated immune and pro-coagulant conditions can directly cause thrombo-embolic arterial or venous complications. In order to implement appropriate treatment, physicians need to consider vascular pathologies observed after SARS-Cov-2 infections as possible "LC" disease.

2023 - Mitochondrial DNA as inflammatory DAMP: a warning of an aging immune system? [Articolo su rivista]
Zanini, Giada; Selleri, Valentina; Lopez Domenech, Sandra; Malerba, Mara; Nasi, Milena; Mattioli, Anna Vittoria; Pinti, Marcello
abstract

Senescence of the immune system is characterized by a state of chronic, subclinical, low-grade inflammation termed 'inflammaging', with increased levels of proinflammatory cytokines, both at the tissue and systemic levels. Age-related inflammation can be mainly driven by self-molecules with immunostimulant properties, named Damage/death Associated Molecular Patterns (DAMPs), released by dead, dying, injured cells or aged cells. Mitochondria are an important source of DAMPs, including mitochondrial DNA - the small, circular, double-stranded DNA molecule found in multiple copies in the organelle. mtDNA can be sensed by at least three molecules: the Toll-like receptor 9, the NLRP3 inflammasomes, and the cyclic GMP-AMP synthase (cGAS). All these sensors can lead to the release of proinflammatory cytokines when engaged. The release of mtDNA by damaged or necrotic cells has been observed in several pathological conditions, often aggravating the course of the disease. Several lines of evidence indicate that the impairment of mtDNA quality control and of the organelle homeostasis associated with aging determines an increase in the leakage of mtDNA from the organelle to the cytosol, from the cell to the extracellular space, and into plasma. This phenomenon, mirrored by an increase in mtDNA circulating levels in elderly people, can lead to the activation of different innate immune cell types, sustaining the chronic inflammatory status that is characteristic of aging.

2023 - Physical Activity and Diet in Older Women: A Narrative Review [Articolo su rivista]
Mattioli, Anna Vittoria; Selleri, Valentina; Zanini, Giada; Nasi, Milena; Pinti, Marcello; Stefanelli, Claudio; Fedele, Francesco; Gallina, Sabina
abstract

2023 - Reply to: Letter on the Recent Paper "Vascular 'Long COVID': A New Vessel Disease?" [Articolo su rivista]
Zanini, Giada; Selleri, Valentina; Roncati, Luca; Coppi, Francesca; Nasi, Milena; Farinetti, Alberto; Manenti, Antonio; Pinti, Marcello; Mattioli, Anna Vittoria
abstract

2023 - The Role of Lonp1 on Mitochondrial Functions during Cardiovascular and Muscular Diseases [Articolo su rivista]
Zanini, G.; Selleri, V.; Malerba, M.; Solodka, K.; Sinigaglia, G.; Nasi, M.; Mattioli, A. V.; Pinti, M.
abstract

The mitochondrial protease Lonp1 is a multifunctional enzyme that regulates crucial mitochondrial functions, including the degradation of oxidized proteins, folding of imported proteins and maintenance the correct number of copies of mitochondrial DNA. A series of recent studies has put Lonp1 at the center of the stage in the homeostasis of cardiomyocytes and muscle skeletal cells. During heart development, Lonp1 allows the metabolic shift from anaerobic glycolysis to mitochondrial oxidative phosphorylation. Knock out of Lonp1 arrests heart development and determines cardiomyocyte apoptosis. In adults, Lonp1 acts as a cardioprotective protein, as its upregulation mitigates cardiac injury by preventing the oxidative damage of proteins and lipids, and by preserving mitochondrial redox balance. In skeletal muscle, Lonp1 is crucial for cell development, as it mediates the activation of PINK1/Parkin pathway needed for proper myoblast differentiation. Skeletal muscle-specific ablation of Lonp1 in mice causes reduced muscle fiber size and strength due to the accumulation of mitochondrial-retained protein in muscle. Lonp1 expression and activity decline with age in different tissues, including skeletal muscle, and are associated with a functional decline and structural impairment of muscle fibers. Aerobic exercise increases unfolded protein response markers including Lonp1 in the skeletal muscle of aged animals and is associated with muscle functional recovery. Finally, mutations of Lonp1 cause a syndrome named CODAS (Cerebral, Ocular, Dental, Auricular, and Skeletal anomalies) characterized by the impaired development of multiple organs and tissues, including myocytes. CODAS patients show hypotonia and ptosis, indicative of skeletal muscle reduced performance. Overall, this body of observations points Lonp1 as a crucial regulator of mitochondrial functions in the heart and in skeletal muscle.

2022 - Cardiovascular Effects of Whole-Body Cryotherapy in Non-professional Athletes [Articolo su rivista]
Coppi, Francesca; Pinti, Marcello; Selleri, Valentina; Zanini, Giada; D'Alisera, Roberta; Latessa, Pasqualino Maietta; Tripi, Ferdinando; Savino, Gustavo; Cossarizza, Andrea; Nasi, Milena; Mattioli, Anna Vittoria
abstract

2022 - Differential Expression of Lonp1 Isoforms in Cancer Cells [Articolo su rivista]
Zanini, Giada; Selleri, Valentina; De Gaetano, Anna; Gibellini, Lara; Malerba, Mara; Mattioli, Anna Vittoria; Nasi, Milena; Apostolova, Nadezda; Pinti, Marcello
abstract

Lonp1 is a mitochondrial protease that degrades oxidized and damaged proteins, assists protein folding, and contributes to the maintenance of mitochondrial DNA. A higher expression of LonP1 has been associated with higher tumour aggressiveness. Besides the full-length isoform (ISO1), we identified two other isoforms of Lonp1 in humans, resulting from alternative splicing: Isoform-2 (ISO2) lacking aa 42-105 and isoform-3 (ISO3) lacking aa 1-196. An inspection of the public database TSVdb showed that ISO1 was upregulated in lung, bladder, prostate, and breast cancer, ISO2 in all the cancers analysed (including rectum, colon, cervical, bladder, prostate, breast, head, and neck), ISO3 did not show significant changes between cancer and normal tissue. We overexpressed ISO1, ISO2, and ISO3 in SW620 cells and found that the ISO1 isoform was exclusively mitochondrial, ISO2 was present in the organelle and in the cytoplasm, and ISO3 was exclusively cytoplasmatic. The overexpression of ISO1 and, at a letter extent, of ISO2 enhanced basal, ATP-linked, and maximal respiration without altering the mitochondria number or network, mtDNA amount. or mitochondrial dynamics. A higher extracellular acidification rate was observed in ISO1 and ISO2, overexpressing cells, suggesting an increase in glycolysis. Cells overexpressing the different isoforms did not show a difference in the proliferation rate but showed a great increase in anchorage-independent growth. ISO1 and ISO2, but not ISO3, determined an upregulation of EMT-related proteins, which appeared unrelated to higher mitochondrial ROS production, nor due to the activation of the MEK ERK pathway, but rather to global metabolic reprogramming of cells.

2022 - Effects of Energy Drink Acute Assumption in Gastrointestinal Tract of Rats [Articolo su rivista]
Nasi, Milena; De Gaetano, Anna; Carnevale, Gianluca; Bertoni, Laura; Selleri, Valentina; Zanini, Giada; Pisciotta, Alessandra; Caramaschi, Stefania; Reggiani Bonetti, Luca; Farinetti, Alberto; Cossarizza, Andrea; Pinti, Marcello; Manenti, Antonio; Mattioli, Anna Vittoria
abstract

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2022 - Evidence for mitochondrial Lonp1 expression in the nucleus [Articolo su rivista]
Gibellini, Lara; Borella, Rebecca; De Gaetano, Anna; Zanini, Giada; Tartaro, Domenico Lo; Carnevale, Gianluca; Beretti, Francesca; Losi, Lorena; De Biasi, Sara; Nasi, Milena; Forcato, Mattia; Cossarizza, Andrea; Pinti, Marcello
abstract

The coordinated communication between the mitochondria and nucleus is essential for cellular activities. Nonetheless, the pathways involved in this crosstalk are scarcely understood. The protease Lonp1 was previously believed to be exclusively located in the mitochondria, with an important role in mitochondrial morphology, mtDNA maintenance, and cellular metabolism, in both normal and neoplastic cells. However, we recently detected Lonp1 in the nuclear, where as much as 22% of all cellular Lonp1 can be found. Nuclear localization is detectable under all conditions, but the amount is dependent on a response to heat shock (HS). Lonp1 in the nucleus interacts with heat shock factor 1 (HSF1) and modulates the HS response. These findings reveal a novel extramitochondrial function for Lonp1 in response to stress.

2022 - Innate immunity changes in soccer players after whole-body cryotherapy [Articolo su rivista]
Selleri, Valentina; Mattioli, Marco; Lo Tartaro, Domenico; Paolini, Annamaria; Zanini, Giada; De Gaetano, Anna; D'Alisera, Roberta; Roli, Laura; Melegari, Alessandra; Maietta, Pasqualino; Tripi, Ferdinando; Guerra, Emanuele; Chester, Johanna; Savino, Gustavo; Trenti, Tommaso; Cossarizza, Andrea; Mattioli, Anna Vittoria; Pinti, Marcello; Nasi, Milena
abstract

Whole-body cryotherapy (WBC) consists of short exposure (up to 2-3 min) to dry air at cryogenic temperatures (up to -190 degrees C) and has recently been applied for muscle recovery after injury to reduce the inflammation process. We aimed to determine the impact of cryotherapy on immunological, hormonal, and metabolic responses in non-professional soccer players (NPSPs). Nine male NPSPs (age: 20 +/- 2 years) who trained regularly over 5 consecutive days, immediately before and after each training session, were subjected to WBC treatment (WBC-t). Blood samples were collected for the evaluation of fifty analytes including hematologic parameters, serum chemistry, and hormone profiles. Monocytes phenotyping (Mo) was performed and plasmatic markers, usually increased during inflammation [CCL2, IL-18, free mitochondrial (mt)DNA] or with anti-inflammatory effects (IL2RA, IL1RN), were quantified. After WBC-t, we observed reduced levels of ferritin, mean corpuscular hemoglobin, mean platelet volume, testosterone, and estradiol, which however remain within the normal ranges. The percentage of the total, intermediates and non-classical Mo increased, while classical Mo decreased. CXCR4 expression decreased in each Mo subset. Plasma IL18 and IL2RA levels decreased, while IL1RN only exhibited a tendency to decrease and CCL2 showed a tendency to increase. Circulating mtDNA levels were not altered following WBC-t. The differences observed in monocyte subsets after WBC-t may be attributable to their redistribution into the surrounding tissue. Moreover, the decrease of CXCR4 in Mo subpopulations could be coherent with their differentiation process. Thus, WBC through yet unknown mechanisms could promote their differentiation having a role in tissue repair.

2022 - Mitochondrial and Endoplasmic Reticulum Alterations in a Case of Amyotrophic Lateral Sclerosis Caused by TDP-43 A382T Mutation [Articolo su rivista]
Zanini, Giada; Selleri, Valentina; Nasi, Milena; De Gaetano, Anna; Martinelli, Ilaria; Gianferrari, Giulia; Lofaro, Francesco Demetrio; Boraldi, Federica; Mandrioli, Jessica; Pinti, Marcello
abstract

Amyotrophic lateral sclerosis is the most common form of motor neuron disease. Mutations in TARDBP, the gene encoding the RNA-binding protein TDP-43, are responsible for about 5% of familial ALS. Here we report the clinical and biological features of an ALS patients with pA382T mutation in TPD-43 protein. Disease began with right hand muscles weakness, and equally involved upper and lower motor neuron with a classic phenotype, without cognitive impairment. While a family history of neurological diseases was reported, there was no evidence of familial frontotemporal dementia. Cultured fibroblasts from the patient were characterized by profound alterations of cell proteome, which impacts particularly the mitochondrial metabolic pathways and the endoplasmic reticulum. TDP-43 levels were similar to control, healthy fibroblasts, but a higher fraction localized in mitochondria. Mitochondrial network appeared fragmented, and the organelles smaller and more spheric. In agreement with impaired proteome and morphology of mitochondria, basal cell respiration was reduced. Mitochondrial DNA levels appeared normal. However, a higher amount of mitochondrial DNA was present in the cytosol, suggesting a pronounced mitochondrial DNA misplacement which can promote a pro-inflammatory response mediating by cGAS/STING. Thus, this case report further expands the clinical and pathological phenotype of A382T mutation.

2021 - Mitochondrial DNA and exercise: Implications for health and injuries in sports [Articolo su rivista]
Zanini, G.; De Gaetano, A.; Selleri, V.; Savino, G.; Cossarizza, A.; Pinti, M.; Mattioli, A. V.; Nasi, M.
abstract

Recently, several studies have highlighted the tight connection between mitochondria and physical activity. Mitochondrial functions are important in high-demanding metabolic activities, such as endurance sports. Moreover, regular training positively affects metabolic health by increasing mitochondrial oxidative capacity and regulating glucose metabolism. Exercise could have multiple effects, also on the mitochondrial DNA (mtDNA) and vice versa; some studies have investigated how mtDNA polymorphisms can affect the performance of general athletes and mtDNA haplogroups seem to be related to the performance of elite endurance athletes. Along with several stimuli, including pathogens, stress, trauma, and reactive oxygen species, acute and intense exercise also seem to be responsible for mtDNA release into the cytoplasm and extracellular space, leading to the activation of the innate immune response. In addition, several sports are characterized by a higher frequency of injuries, including cranial trauma, associated with neurological consequences. However, with regular exercise, circulating cell-free mtDNA levels are kept low, perhaps promoting cf-mtDNA removal, acting as a protective factor against inflammation.