Your search keyword '"Galano, Giovanni"' showing total 3 results

1. Irradiation of Mesenchymal Stromal Cells With Low and High Doses of Alpha Particles Induces Senescence and/or Apoptosis

Author

Alessio, Nicola, Esposito, Giuseppe, Galano, Giovanni, De Rosa, Roberto, Anello, Pasquale, Peluso, Gianfranco, Tabocchini, Maria Antonella, Galderisi, Umberto, Alessio, Nicola, Esposito, Giuseppe, Galano, Giovanni, De Rosa, Roberto, Anello, Pasquale, Peluso, Gianfranco, Tabocchini, Maria Antonella, and Galderisi, Umberto

Subjects

Mesenchymal Stromal Cell, X-Rays, CANCER THERAPY, Apoptosi, MESENCHYMAL STROMAL CELLS, Apoptosis, Dose-Response Relationship, Radiation, Mesenchymal Stem Cells, Cell Biology, Alpha Particles, Biochemistry, IRRADIATION, Alpha Particle, SENESCENCE, X-Ray, Humans, Molecular Biology, Cellular Senescence, Human

Abstract

The use of high-linear energy transfer charged particles is gaining attention as a medical tool because of the emission of radiations with an efficient cell-killing ability. Considerable interest has developed in the use of targeted alpha-particle therapy for the treatment of micrometastases. Moreover, the use of helium beams is gaining momentum, especially for treating pediatric tumors. We analyzed the effects of alpha particles on bone marrow mesenchymal stromal cells (MSCs), which have a subpopulation of stem cells capable of generating adipocytes, chondrocytes, and osteocytes. Further, these cells contribute toward maintenance of homeostasis in the body. MSCs were irradiated with low and high doses of alpha particles or X-rays and a comparative biological analysis was performed. At a low dose (40 mGy), alpha particles exhibited a limited negative effect on the biology of MSCs compared with X-rays. No significant perturbation of cell cycle was observed, and a minimal increase in apoptosis or senescence was detected. Self-renewal was preserved as revealed by the CFU assay. On the contrary, with 2000 mGy alpha particles, we observed adverse effects on the vitality, functionality, and stemness of MSCs. These results are the consequence of different proportion of cells targeted by alpha particles or X-rays and the quality of induced DNA damage. The present study suggests that radiotherapy with alpha particles may spare healthy stem cells more efficaciously than X-ray treatments, an observation that should be taken into consideration by physicians while planning irradiation of tumor areas close to stem cell niches, such as bone marrow. J. Cell. Biochem. 118: 2993–3002, 2017. © 2017 Wiley Periodicals, Inc.

Published

2017

2. Biomolecular evaluation of piceatannol’s effects in counteracting the senescence of mesenchymal stromal cells: A new candidate for senotherapeutics?

Author

Gianfranco Peluso, G. Galano, Roberto De Rosa, Giovanni Di Bernardo, Nicola Alessio, Umberto Galderisi, Ida Lettiero, Tiziana Squillaro, Alessio, N., Squillaro, T., Lettiero, I., Galano, G., De Rosa, R., Peluso, G., Galderisi, U., Di Bernardo, G., Alessio, Nicola, Squillaro, Tiziana, Lettiero, Ida, Galano, Giovanni, De Rosa, Roberto, Peluso, Gianfranco, Galderisi, Umberto, and Di Bernardo, Giovanni

Subjects

Senescence, Polyphenol, Aging, QH301-705.5, Genotoxic Stress, Biology, Catalysis, Article, Inorganic Chemistry, chemistry.chemical_compound, Senotherapeutics, Stilbenes, Humans, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, Cellular Senescence, polyphenols, Cell Proliferation, Mesenchymal stem cell, Piceatannol, mesenchymal stem cells, Cell growth, Senolytics, Organic Chemistry, General Medicine, Phenotype, Computer Science Applications, Cell biology, Chemistry, chemistry, Homeostasis, DNA Damage

Abstract

Several investigations on senescence and its causative role in aging have underscored the importance of developing senotherapeutics, a field focused on killing senescent cells and/or preventing their accumulation within tissues. Using polyphenols in counteracting senescence may facilitate the development of senotherapeutics given their presence in the human diet, their confirmed tolerability and absence of severe side effects, and their role in preventing senescence and inducing the death of senescent cells. Against that background, we evaluated the effect of piceatannol, a natural polyphenol, on the senescence of mesenchymal stromal cells (MSCs), which play a key role in the body’s homeostasis. Among our results, piceatannol reduced the number of senescent cells both after genotoxic stress that induced acute senescence and in senescent replicative cultures. Such senotherapeutics activity, moreover, promoted the recovery of cell proliferation and the stemness properties of MSCs. Altogether, our findings demonstrate piceatannol’s effectiveness in counteracting senescence by targeting its associated pathways and detecting and affecting P53-dependent and P53-independent senescence. Our study thus suggests that, given piceatannol’s various mechanisms to accomplish its pleiotropic activities, it may be able to counteract any senescent phenotypes.

Published

2021

3. Concise Review: The Effect of Low-Dose Ionizing Radiation on Stem Cell Biology: A Contribution to Radiation Risk

Author

Umberto Galderisi, Roberto De Rosa, Tiziana Squillaro, Gianfranco Peluso, G. Galano, Squillaro, Tiziana, Galano, Giovanni, De Rosa, Roberto, Peluso, Gianfranco, and Galderisi, Umberto

Subjects

0301 basic medicine, Biology, Adult stem cells, Public health, Radiations, X-rays, Ionizing radiation, X-ray, 03 medical and health sciences, Human health, 0302 clinical medicine, Adult stem cell, Stem Cell, Radiation, Ionizing, Air travel, Radiation, Risk Factor, Low dose, Dose-Response Relationship, Radiation, Cell Biology, Radiation risk, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, Molecular Medicine, Stem cell, Stem cell biology, Developmental Biology, Human

Abstract

Exposure to high levels of ionizing radiation (IR) (>0.5 Gy) negatively affects health, but less is known about the effects of low-dose ionizing radiation (LDIR). Recent evidence suggests that it may have profound effects on cellular functions. People are commonly exposed to LDIR over natural background levels from numerous sources, including LDIR from medical diagnosis and therapy, air travel, illegal IR waste dumpsites, and occupational exposures in the nuclear and medical sectors. Stem cells reside for long periods of time in our bodies, and this increases the possibility that they may accumulate genotoxic damage derived from extrinsic LDIR or intrinsic sources (such as DNA replication). In this review, we provide an overview of LDIR effects on the biology of stem cell compartments. The principal findings and issues reported in the scientific literature are discussed in order to present the current understanding of the LDIR exposure risk and assess whether it may impact human health. We first consider the general biological consequences of LDIR exposure. Following this, we discuss the effects of LDIR on stem cells as discovered through in vitro and in vivo studies.

Published

2018