Your search keyword '"Santi, Spartaco"' showing total 61 results

1. Replicative senescence and high glucose induce the accrual of self-derived cytosolic nucleic acids in human endothelial cells.

Author

Ramini, Deborah, Giuliani, Angelica, Kwiatkowska, Katarzyna Malgorzata, Guescini, Michele, Storci, Gianluca, Mensà, Emanuela, Recchioni, Rina, Xumerle, Luciano, Zago, Elisa, Sabbatinelli, Jacopo, Santi, Spartaco, Garagnani, Paolo, Bonafè, Massimiliano, and Olivieri, Fabiola

Published

2024

2. Collagen VI Deficiency Impairs Tendon Fibroblasts Mechanoresponse in Ullrich Congenital Muscular Dystrophy.

Author

Cenni, Vittoria, Sabatelli, Patrizia, Di Martino, Alberto, Merlini, Luciano, Antoniel, Manuela, Squarzoni, Stefano, Neri, Simona, Santi, Spartaco, Metti, Samuele, Bonaldo, Paolo, and Faldini, Cesare

Subjects

MUSCULAR dystrophy, COLLAGEN, MUSCLE weakness, FIBROBLASTS, TENDONS

Abstract

The pericellular matrix (PCM) is a specialized extracellular matrix that surrounds cells. Interactions with the PCM enable the cells to sense and respond to mechanical signals, triggering a proper adaptive response. Collagen VI is a component of muscle and tendon PCM. Mutations in collagen VI genes cause a distinctive group of inherited skeletal muscle diseases, and Ullrich congenital muscular dystrophy (UCMD) is the most severe form. In addition to muscle weakness, UCMD patients show structural and functional changes of the tendon PCM. In this study, we investigated whether PCM alterations due to collagen VI mutations affect the response of tendon fibroblasts to mechanical stimulation. By taking advantage of human tendon cultures obtained from unaffected donors and from UCMD patients, we analyzed the morphological and functional properties of cellular mechanosensors. We found that the length of the primary cilia of UCMD cells was longer than that of controls. Unlike controls, in UCMD cells, both cilia prevalence and length were not recovered after mechanical stimulation. Accordingly, under the same experimental conditions, the activation of the Hedgehog signaling pathway, which is related to cilia activity, was impaired in UCMD cells. Finally, UCMD tendon cells exposed to mechanical stimuli showed altered focal adhesions, as well as impaired activation of Akt, ERK1/2, p38MAPK, and mechanoresponsive genes downstream of YAP. By exploring the response to mechanical stimulation, for the first time, our findings uncover novel unreported mechanistic aspects of the physiopathology of UCMD-derived tendon fibroblasts and point at a role for collagen VI in the modulation of mechanotransduction in tendons. [ABSTRACT FROM AUTHOR]

Published

2024

3. Desmin and Plectin Recruitment to the Nucleus and Nuclei Orientation Are Lost in Emery-Dreifuss Muscular Dystrophy Myoblasts Subjected to Mechanical Stimulation.

Author

Cenni, Vittoria, Evangelisti, Camilla, Santi, Spartaco, Sabatelli, Patrizia, Neri, Simona, Cavallo, Marco, Lattanzi, Giovanna, and Mattioli, Elisabetta

Subjects

MUSCULAR dystrophy, CYTOSKELETAL proteins, MUSCLE cells, SPATIAL orientation, BASIC proteins, MYOBLASTS

Abstract

In muscle cells subjected to mechanical stimulation, LINC complex and cytoskeletal proteins are basic to preserve cellular architecture and maintain nuclei orientation and positioning. In this context, the role of lamin A/C remains mostly elusive. This study demonstrates that in human myoblasts subjected to mechanical stretching, lamin A/C recruits desmin and plectin to the nuclear periphery, allowing a proper spatial orientation of the nuclei. Interestingly, in Emery-Dreifuss Muscular Dystrophy (EDMD2) myoblasts exposed to mechanical stretching, the recruitment of desmin and plectin to the nucleus and nuclear orientation were impaired, suggesting that a functional lamin A/C is crucial for the response to mechanical strain. While describing a new mechanism of action headed by lamin A/C, these findings show a structural alteration that could be involved in the onset of the muscle defects observed in muscular laminopathies. [ABSTRACT FROM AUTHOR]

Published

2024

4. Aberrant MET activation impairs perinuclear actin cap organization with YAP1 cytosolic relocation.

Author

Sgarzi, Michela, Mazzeschi, Martina, Santi, Spartaco, Montacci, Elisa, Panciera, Tito, Ferlizza, Enea, Girone, Cinzia, Morselli, Alessandra, Gelfo, Valerio, Kuhre, Rikke Sofie, Cavallo, Carola, Valente, Sabrina, Pasquinelli, Gianandrea, Győrffy, Balazs, D'Uva, Gabriele, Romaniello, Donatella, and Lauriola, Mattia

Subjects

YAP signaling proteins, MICROVILLI, ACTIN, NUCLEAR shapes, CELL morphology, CELL motility, NUCLEAR membranes

Abstract

Little is known about the signaling network responsible for the organization of the perinuclear actin cap, a recently identified structure holding unique roles in the regulation of nuclear shape and cell directionality. In cancer cells expressing a constitutively active MET, we show a rearrangement of the actin cap filaments, which crash into perinuclear patches associated with spherical nuclei, meandering cell motility and inactivation of the mechano-transducer YAP1. MET ablation is sufficient to reactivate YAP1 and restore the cap, leading to enhanced directionality and flattened nuclei. Consistently, the introduction of a hyperactive MET in normal epithelial cells, enhances nuclear height and alters the cap organization, as also confirmed by TEM analysis. Finally, the constitutively active YAP1 mutant YAP5SA is able to overcome the effects of oncogenic MET. Overall, our work describes a signaling axis empowering MET-mediated YAP1 dampening and actin cap misalignment, with implications for nuclear shape and cell motility. Analysis of actin dynamics in cancer reveals that MET hyperactivation drives perinuclear actin cap disruption by YAP1 inhibition, inducing nuclear expansion, meandering cell motility and collapse of the apical microvilli into actin-rich patches. [ABSTRACT FROM AUTHOR]

Published

2023

5. Adipose Stromal Cell Spheroids for Cartilage Repair: A Promising Tool for Unveiling the Critical Maturation Point.

Author

Sargenti, Azzurra, Pasqua, Simone, Leu, Marco, Dionisi, Laura, Filardo, Giuseppe, Grigolo, Brunella, Gazzola, Daniele, Santi, Spartaco, and Cavallo, Carola

Subjects

FAT cells, STROMAL cells, CARTILAGE cells, MOLECULAR biology, ARTICULAR cartilage, CARTILAGE regeneration, CARTILAGE, ADIPOSE tissues

Abstract

Articular cartilage lacks intrinsic regenerative capabilities, and the current treatments fail to regenerate damaged tissue and lead only to temporary pain relief. These limitations have prompted the development of tissue engineering approaches, including 3D culture systems. Thanks to their regenerative properties and capacity to recapitulate embryonic processes, spheroids obtained from mesenchymal stromal cells are increasingly studied as building blocks to obtain functional tissues. The aim of this study was to investigate the capacity of adipose stromal cells to assemble in spheroids and differentiate toward chondrogenic lineage from the perspective of cartilage repair. Spheroids were generated by two different methods (3D chips vs. Ultra-Low Attachment plates), differentiated towards chondrogenic lineage, and their properties were investigated using molecular biology analyses, biophysical measurement of mass density, weight, and size of spheroids, and confocal imaging. Overall, spheroids showed the ability to differentiate by expressing specific cartilaginous markers that correlate with their mass density, defining a critical point at which they start to mature. Considering the spheroid generation method, this pilot study suggested that spheroids obtained with chips are a promising tool for the generation of cartilage organoids that could be used for preclinical/clinical approaches, including personalized therapy. [ABSTRACT FROM AUTHOR]

Published

2023

6. Targeting the Interplay of Independent Cellular Pathways and Immunity: A Challenge in Cancer Immunotherapy.

Author

Lauriola, Angela, Davalli, Pierpaola, Marverti, Gaetano, Santi, Spartaco, Caporali, Andrea, and D'Arca, Domenico

Subjects

MOLECULAR diagnosis, CELLULAR signal transduction, OXIDATIVE stress, DIAGNOSTIC imaging, ENZYMES, TUMORS, TUMOR markers, IMMUNOTHERAPY, CELL death

Abstract

Simple Summary: Although immunotherapy has improved the treatment and outcome of cancer patients, there are still limitations to face because most patients cannot receive lasting benefits. We believe it is urgent to discover new potential biomarkers and therapeutic targets for investigating personalized and less invasive anticancer treatments. In the present paper, we highlight: (i) the impact of ubiquitination and its reverse, de-ubiquitination, in orchestrating the immune response of the tumor microenvironment; (ii) selected clinical trials, which provide information on combination cancer immunotherapy and new immunomodulatory targets; (iii) current challenges in immunotherapy, including imaging technologies and ROS-based immunotherapies, as well as immunotherapy side effects. Finally, the major outstanding questions in cancer immunotherapy are also presented, and directions for future research are described. Immunotherapy is a cancer treatment that exploits the capacity of the body's immune system to prevent, control, and remove cancer. Immunotherapy has revolutionized cancer treatment and significantly improved patient outcomes for several tumor types. However, most patients have not benefited from such therapies yet. Within the field of cancer immunotherapy, an expansion of the combination strategy that targets independent cellular pathways that can work synergistically is predicted. Here, we review some consequences of tumor cell death and increased immune system engagement in the modulation of oxidative stress and ubiquitin ligase pathways. We also indicate combinations of cancer immunotherapies and immunomodulatory targets. Additionally, we discuss imaging techniques, which are crucial for monitoring tumor responses during treatment and the immunotherapy side effects. Finally, the major outstanding questions are also presented, and directions for future research are described. [ABSTRACT FROM AUTHOR]

Published

2023

7. Pre-transplant CD69+ extracellular vesicles are negatively correlated with active ATLG serum levels and associate with the onset of GVHD in allogeneic HSCT patients.

Author

Storci, Gianluca, Barbato, Francesco, Ricci, Francesca, Tazzari, Pier Luigi, De Matteis, Serena, Tomassini, Enrica, Dicataldo, Michele, Laprovitera, Noemi, Arpinati, Mario, Ursi, Margherita, Maffini, Enrico, Campanini, Elena, Dan, Elisa, Manfroi, Silvia, Santi, Spartaco, Ferracin, Manuela, Bonafe, Massimiliano, and Bonifazi, Francesca

Subjects

EXTRACELLULAR vesicles, GRAFT versus host disease, HEMATOPOIETIC stem cell transplantation, HLA histocompatibility antigens, T cells

Abstract

Graft versus host disease (GVHD) is a major complication of allogeneic hematopoietic stem cell transplantation (HSCT). Rabbit anti-T lymphocyte globulin (ATLG) in addition to calcineurin inhibitors and antimetabolites is a suitable strategy to prevent GVHD in several transplant settings. Randomized studies already demonstrated its efficacy in terms of GVHD prevention, although the effect on relapse remains the major concern for a wider use. Tailoring of ATLG dose on host characteristics is expected to minimize its side effects (immunological reconstitution, relapse, and infections). Here, day -6 to day +15 pharmacokinetics of active ATLG serum level was first assayed in an explorative cohort of 23 patients by testing the ability of the polyclonal serum to bind antigens on human leukocytes. Significantly lower levels of serum active ATLG were found in the patients who developed GVHD (ATLG_AUCCD45: 241.52 ± 152.16 vs. 766.63 +/- 283.52 (mg*day)/ml, p = 1.46e-5). Consistent results were obtained when the ATLG binding capacity was assessed on CD3+ and CD3+/CD4+ T lymphocytes (ATLG_AUCCD3: 335.83 ± 208.15 vs. 903.54 ± 378.78 (mg*day)/ml, p = 1.92e-4; ATLG_AUCCD4: 317.75 ± 170.70 vs. 910.54 ± 353.35 (mg*day)/ml, p = 3.78e-5. Concomitantly, at pre-infusion time points, increased concentrations of CD69+ extracellular vesicles (EVs) were found in patients who developed GVHD (mean fold 9.01 ± 1.33; p = 2.12e-5). Consistent results were obtained in a validation cohort of 12 additional ATLG-treated HSCT patients. Serum CD69+ EVs were mainly represented in the nano (i.e. 100 nm in diameter) EV compartment and expressed the leukocyte marker CD45, the EV markers CD9 and CD63, and CD103, a marker of tissue-resident memory T cells. The latter are expected to set up a host pro-inflammatory cell compartment that can survive in the recipient for years after conditioning regimen and contribute to GVHD pathogenesis. In summary, high levels of CD69+ EVs are significantly correlated with an increased risk of GVHD, and they may be proposed as a tool to tailor ATLG dose for personalized GVHD prevention. [ABSTRACT FROM AUTHOR]

Published

2023

8. Small Extracellular Vesicles from Inflamed Adipose Derived Stromal Cells Enhance the NF-κB-Dependent Inflammatory/Catabolic Environment of Osteoarthritis.

Author

Cavallo, Carola, Merli, Giulia, Zini, Nicoletta, D'Adamo, Stefania, Cattini, Luca, Guescini, Michele, Grigolo, Brunella, Di Martino, Alessandro, Santi, Spartaco, Borzì, Rosa Maria, and Filardo, Giuseppe

Subjects

EXTRACELLULAR vesicles, STROMAL cells, JOINT diseases, OSTEOARTHRITIS, CARTILAGE cells, DEGENERATION (Pathology), EXOSOMES

Abstract

The last decade has seen exponentially growing efforts to exploit the effects of adipose derived stromal cells (ADSC) in the treatment of a wide range of chronic degenerative diseases, including osteoarthritis (OA), the most prevalent joint disorder. In the perspective of developing a cell-free advanced therapy medicinal product, a focus has been recently addressed to the ADSC secretome that lends itself to an allogeneic use and can be further dissected for the selective purification of small extracellular vesicles (sEVs). sEVs can act as "biological drug carriers" to transfer information that mirror the pathophysiology of the providing cells. This is important in the clinical perspective where many OA patients are also affected by the metabolic syndrome (MetS). ADSC from MetS OA patients are dysfunctional and "inflammatory" primed within the adipose tissue. To mimic this condition, we exposed ADSC to IL-1β, and then we investigated the effects of the isolated sEVs on chondrocytes and synoviocytes, either cultured separately or in co-culture, to tease out the effects of these "IL-1β primed sEVs" on gene and protein expression of major inflammatory and catabolic OA markers. In comparison with sEVs isolated from unstimulated ADSC, the IL-1β primed sEVs were able to propagate NF-κB activation in bystander joint cells. The effects were more prominent on synoviocytes, possibly because of a higher expression of binding molecules such as CD44. These findings call upon a careful characterization of the "inflammatory fingerprint" of ADSC to avoid the transfer of an unwanted message as well as the development of in vitro "preconditioning" strategies able to rescue the antiinflammatory/anticatabolic potential of ADSC-derived sEVs. [ABSTRACT FROM AUTHOR]

Published

2022

9. The autocrine loop of ALK receptor and ALKAL2 ligand is an actionable target in consensus molecular subtype 1 colon cancer.

Author

Mazzeschi, Martina, Sgarzi, Michela, Romaniello, Donatella, Gelfo, Valerio, Cavallo, Carola, Ambrosi, Francesca, Morselli, Alessandra, Miano, Carmen, Laprovitera, Noemi, Girone, Cinzia, Ferracin, Manuela, Santi, Spartaco, Rihawi, Karim, Ardizzoni, Andrea, Fiorentino, Michelangelo, D'Uva, Gabriele, Győrffy, Balázs, Palmer, Ruth, and Lauriola, Mattia

Subjects

COLON cancer, CADHERINS, ANAPLASTIC lymphoma kinase, INHIBITION of cellular proliferation, CELL lines, COLORECTAL cancer

Abstract

Background: In the last years, several efforts have been made to classify colorectal cancer (CRC) into well-defined molecular subgroups, representing the intrinsic inter-patient heterogeneity, known as Consensus Molecular Subtypes (CMSs). Methods: In this work, we performed a meta-analysis of CRC patients stratified into four CMSs. We identified a negative correlation between a high level of anaplastic lymphoma kinase (ALK) expression and relapse-free survival, exclusively in CMS1 subtype. Stemming from this observation, we tested cell lines, patient-derived organoids and mice with potent ALK inhibitors, already approved for clinical use. Results: ALK interception strongly inhibits cell proliferation already at nanomolar doses, specifically in CMS1 cell lines, while no effect was found in CMS2/3/4 groups. Furthermore, in vivo imaging identified a role for ALK in the dynamic formation of 3D tumor spheroids. Consistently, ALK appeares constitutively phosphorylated in CMS1, and it signals mainly through the AKT axis. Mechanistically, we found that CMS1 cells display several copies of ALKAL2 ligand and ALK-mRNAs, suggesting an autocrine loop mediated by ALKAL2 in the activation of ALK pathway, responsible for the invasive phenotype. Consequently, disruption of ALK axis mediates the pro-apoptotic action of CMS1 cell lines, both in 2D and 3D and enhanced cell-cell adhesion and e-cadherin organization. In agreement with all these findings, the ALK signature encompassing 65 genes statistically associated with worse relapse-free survival in CMS1 subtype. Finally, as a proof of concept, the efficacy of ALK inhibition was demonstrated in both patient-derived organoids and in tumor xenografts in vivo. Conclusions: Collectively, these findings suggest that ALK targeting may represent an attractive therapy for CRC, and CMS classification may provide a useful tool to identify patients who could benefit from this treatment. These findings offer rationale and pharmacological strategies for the treatment of CMS1 CRC. [ABSTRACT FROM AUTHOR]

Published

2022

10. Basal and IL-1β enhanced chondrocyte chemotactic activity on monocytes are co-dependent on both IKKα and IKKβ NF-κB activating kinases.

Author

Olivotto, Eleonora, Minguzzi, Manuela, D'Adamo, Stefania, Astolfi, Annalisa, Santi, Spartaco, Uguccioni, Mariagrazia, Marcu, Kenneth B., and Borzì, Rosa Maria

Subjects

KINASES, OSTEOARTHRITIS, TRANSCRIPTION factors, MONOCYTES, CHEMOTAXIS, CONDITIONED response

Abstract

IKKα and IKKβ are essential kinases for activating NF-κB transcription factors that regulate cellular differentiation and inflammation. By virtue of their small size, chemokines support the crosstalk between cartilage and other joint compartments and contribute to immune cell chemotaxis in osteoarthritis (OA). Here we employed shRNA retroviruses to stably and efficiently ablate the expression of each IKK in primary OA chondrocytes to determine their individual contributions for monocyte chemotaxis in response to chondrocyte conditioned media. Both IKKα and IKKβ KDs blunted both the monocyte chemotactic potential and the protein levels of CCL2/MCP-1, the chemokine with the highest concentration and the strongest association with monocyte chemotaxis. These findings were mirrored by gene expression analysis indicating that the lowest levels of CCL2/MCP-1 and other monocyte-active chemokines were in IKKαKD cells under both basal and IL-1β stimulated conditions. We find that in their response to IL-1β stimulation IKKαKD primary OA chondrocytes have reduced levels of phosphorylated NFkappaB p65pSer536 and H3pSer10. Confocal microscopy analysis revealed co-localized p65 and H3pSer10 nuclear signals in agreement with our findings that IKKαKD effectively blunts their basal level and IL-1β dependent increases. Our results suggest that IKKα could be a novel OA disease target. [ABSTRACT FROM AUTHOR]

Published

2021

11. Astrocytic microdomains from mouse cortex gain molecular control over long-term information storage and memory retention.

Author

Vignoli, Beatrice, Sansevero, Gabriele, Sasi, Manju, Rimondini, Roberto, Blum, Robert, Bonaldo, Valerio, Biasini, Emiliano, Santi, Spartaco, Berardi, Nicoletta, Lu, Bai, and Canossa, Marco

Subjects

MEMORY, LONG-term potentiation, MICE, PHOSPHORYLATION, STORAGE, BRAIN-derived neurotrophic factor

Abstract

Memory consolidation requires astrocytic microdomains for protein recycling; but whether this lays a mechanistic foundation for long-term information storage remains enigmatic. Here we demonstrate that persistent synaptic strengthening invited astrocytic microdomains to convert initially internalized (pro)-brain-derived neurotrophic factor (proBDNF) into active prodomain (BDNFpro) and mature BDNF (mBDNF) for synaptic re-use. While mBDNF activates TrkB, we uncovered a previously unsuspected function for the cleaved BDNFpro, which increases TrkB/SorCS2 receptor complex at post-synaptic sites. Astrocytic BDNFpro release reinforced TrkB phosphorylation to sustain long-term synaptic potentiation and to retain memory in the novel object recognition behavioral test. Thus, the switch from one inactive state to a multi-functional one of the proBDNF provides post-synaptic changes that survive the initial activation. This molecular asset confines local information storage in astrocytic microdomains to selectively support memory circuits. Beatrice Vignoli et al. examine potential molecular mechanisms of long-term storage information in mice. Their results suggest that astrocytes may help convert neuronal BDNF precursor into active prodomain and mature forms to enhance post-synaptic signaling and memory, providing further insight into the development of memory circuits. [ABSTRACT FROM AUTHOR]

Published

2021

12. A new method for the study of biophysical and morphological parameters in 3D cell cultures: Evaluation in LoVo spheroids treated with crizotinib.

Author

Sargenti, Azzurra, Musmeci, Francesco, Cavallo, Carola, Mazzeschi, Martina, Bonetti, Simone, Pasqua, Simone, Bacchi, Francesco, Filardo, Giuseppe, Gazzola, Daniele, Lauriola, Mattia, and Santi, Spartaco

Subjects

CELL culture, CRIZOTINIB, COLON cancer, MASS measurement

Abstract

Three-dimensional (3D) culture systems like tumor spheroids represent useful in vitro models for drug screening and more broadly for cancer biology research, but the generation of uniform populations of spheroids remains challenging. The possibility to properly characterize spheroid properties would increase the reliability of these models. To address this issue different analysis were combined: i) a new device and relative analytical method for the accurate, simultaneous, and rapid measurement of mass density, weight, and size of spheroids, ii) confocal imaging, and iii) protein quantification, in a clinically relevant 3D model. The LoVo colon cancer cell line forming spheroids, treated with crizotinib (CZB) an ATP-competitive small-molecule inhibitor of the receptor tyrosine kinases, was employed to study and assess the correlation between biophysical and morphological parameters in both live and fixed cells. The new fluidic-based measurements allowed a robust phenotypical characterization of the spheroids structure, offering insights on the spheroids bulk and an accurate measurement of the tumor density. This analysis helps overcome the technical limits of the imaging that hardly penetrates the thickness of 3D structures. Accordingly, we were able to document that CZB treatment has an impact on mass density, which represents a key marker characterizing cancer cell treatment. Spheroid culture is the ultimate technology in drug discovery and the adoption of such precise measurement of the tumor characteristics can represent a key step forward for the accurate testing of treatment's potential in 3D in vitro models. [ABSTRACT FROM AUTHOR]

Published

2021

13. Morphological study of TNPO3 and SRSF1 interaction during myogenesis by combining confocal, structured illumination and electron microscopy analysis.

Author

Costa, Roberta, Rodia, Maria Teresa, Zini, Nicoletta, Pegoraro, Valentina, Marozzo, Roberta, Capanni, Cristina, Angelini, Corrado, Lattanzi, Giovanna, Santi, Spartaco, and Cenacchi, Giovanna

Abstract

Transportin3 (TNPO3) shuttles the SR proteins from the cytoplasm to the nucleus. The SR family includes essential splicing factors, such as SRSF1, that influence alternative splicing, controlling protein diversity in muscle and satellite cell differentiation. Given the importance of alternative splicing in the myogenic process and in the maintenance of healthy muscle, alterations in the splicing mechanism might contribute to the development of muscle disorders. Combining confocal, structured illumination and electron microscopy, we investigated the expression of TNPO3 and SRSF1 during myogenesis, looking at nuclear and cytoplasmic compartments. We investigated TNPO3 and its interaction with SRSF1 and we observed that SRSF1 remained mainly localized in the nucleus, while TNPO3 decreased in the cytoplasm and was strongly clustered in the nuclei of differentiated myotubes. In conclusion, combining different imaging techniques led us to describe the behavior of TNPO3 and SRSF1 during myogenesis, showing that their dynamics follow the myogenic process and could influence the proteomic network necessary during myogenesis. The combination of different high-, super- and ultra-resolution imaging techniques led us to describe the behavior of TNPO3 and its interaction with SRSF1, looking at nuclear and cytoplasmic compartments. These observations represent a first step in understanding the role of TNPO3 and SRFSF1 in complex mechanisms, such as myogenesis. [ABSTRACT FROM AUTHOR]

Published

2021

14. TP53 drives abscopal effect by secretion of senescence-associated molecular signals in non-small cell lung cancer.

Author

Tesei, Anna, Arienti, Chiara, Bossi, Gianluca, Santi, Spartaco, De Santis, Ilaria, Bevilacqua, Alessandro, Zanoni, Michele, Pignatta, Sara, Cortesi, Michela, Zamagni, Alice, Storci, Gianluca, Bonafè, Massimiliano, Sarnelli, Anna, Romeo, Antonino, Cavallo, Carola, Bartolazzi, Armando, Rossi, Stefania, Soriani, Antonella, and Strigari, Lidia

Subjects

NON-small-cell lung carcinoma, EXTRACELLULAR vesicles, RADIATION injuries, SECRETION, CELL communication, TUMOR growth

Abstract

Background: Recent developments in abscopal effect strongly support the use of radiotherapy for the treatment of metastatic disease. However, deeper understanding of the molecular mechanisms underlying the abscopal effect are required to best benefit a larger proportion of patients with metastasis. Several groups including ours, reported the involvement of wild-type (wt) p53 in radiation-induced abscopal effects, however very little is known on the role of wtp53 dependent molecular mechanisms. Methods: We investigated through in vivo and in vitro approaches how wtp53 orchestrates radiation-induced abscopal effects. Wtp53 bearing (A549) and p53-null (H1299) NSCLC lines were xenotransplanted in nude mice, and cultured in 2D monolayers and 3D tumor spheroids. Extracellular vesicles (EVs) were isolated from medium cell culture by ultracentrifugation protocol followed by Nanoparticle Tracking Analysis. Gene expression was evaluated by RT-Real Time, digital qRT-PCR, and dot blot technique. Protein levels were determined by immunohistochemistry, confocal anlysis, western blot techniques, and immunoassay. Results: We demonstrated that single high-dose irradiation (20 Gy) induces significant tumor growth inhibition in contralateral non-irradiated (NIR) A549 xenograft tumors but not in NIR p53-null H1299 or p53-silenced A549 (A549sh/p53) xenografts. We further demonstrates that irradiation of A549 cells in vitro induces a senescence-associated secretory phenotype (SASP) producing extracellular vesicles (EVs) expressing CD63 and carrying DNA:RNA hybrids and LINE-1 retrotransposon. IR-A549 EVs also hamper the colony-forming capability of recipient NIR A549 cells, induce senescent phenotype, nuclear expression of DNA:RNA hybrids, and M1 macrophage polarization. Conclusions: In our models, we demonstrate that high radiation dose in wtp53 tumors induce the onset of SASP and secretion of CD63+ EVs loaded with DNA:RNA hybrids and LINE-1 retrotransposons that convey senescence messages out of the irradiation field triggering abscopal effect in NIR tumors. [ABSTRACT FROM AUTHOR]

Published

2021

15. Small Extracellular Vesicles from adipose derived stromal cells significantly attenuate in vitro the NF-κB dependent inflammatory/catabolic environment of osteoarthritis.

Author

Cavallo, Carola, Merli, Giulia, Borzì, Rosa Maria, Zini, Nicoletta, D'Adamo, Stefania, Guescini, Michele, Grigolo, Brunella, Di Martino, Alessandro, Santi, Spartaco, and Filardo, Giuseppe

Subjects

MESENCHYMAL stem cells, OSTEOARTHRITIS, STROMAL cells, METEOROLOGICAL precipitation, CARTILAGE cells

Abstract

The therapeutic ability of Mesenchymal Stem/Stromal Cells to address osteoarthritis (OA) is mainly related to the secretion of biologically active factors, which can be found within their secreted Extracellular Vesicles including small Extracellular Vesicles (sEV). Aim of this study was to investigate the effects of sEV from adipose derived stromal cells (ADSC) on both chondrocytes and synoviocytes, in order to gain insights into the mechanisms modulating the inflammatory/catabolic OA environment. sEV, obtained by a combined precipitation and size exclusion chromatography method, were quantified and characterized, and administered to chondrocytes and synoviocytes stimulated with IL-1β. Cellular uptake of sEV was evaluated from 1 to 12 h. Gene expression and protein release of cytokines/chemokines, catabolic and inflammatory molecules were analyzed at 4 and 15 h, when p65 nuclear translocation was investigated to study NF-κB pathway. This study underlined the potential of ADSC derived sEV to affect gene expression and protein release of both chondrocytes and synoviocytes, counteracting IL-1β induced inflammatory effects, and provided insights into their mechanisms of action. sEV uptake was faster in synoviocytes, where it also elicited stronger effects, especially in terms of cytokine and chemokine modulation. The inflammatory/catabolic environment mediated by NF-κB pathway was significantly attenuated by sEV, which hold promise as new therapeutic strategy to address OA. [ABSTRACT FROM AUTHOR]

Published

2021

16. Targeting Wnt/β‐catenin and PI3K/Akt/mTOR pathways in T‐cell acute lymphoblastic leukemia.

Author

Evangelisti, Cecilia, Chiarini, Francesca, Cappellini, Alessandra, Paganelli, Francesca, Fini, Milena, Santi, Spartaco, Martelli, Alberto M., Neri, Luca M., and Evangelisti, Camilla

Subjects

LYMPHOBLASTIC leukemia, ACUTE leukemia, PATHOLOGY, CANCER cell proliferation, HEMATOLOGIC malignancies, CATENINS

Abstract

T‐cell acute lymphoblastic leukemia (T‐ALL) is an aggressive hematological disorder that results from the clonal transformation of T‐cell precursors. Phosphatidylinositol 3‐kinase (PI3K)/Akt/mechanistic target of rapamycin (mTOR) and canonical Wnt/β‐catenin signaling pathways play a crucial role in T‐cell development and in self‐renewal of healthy and leukemic stem cells. Notably, β‐catenin is a transcriptional regulator of several genes involved in cancer cell proliferation and survival. In this way, aberrations of components belonging to the aforementioned networks contribute to T‐ALL pathogenesis. For this reason, inhibition of both pathways could represent an innovative strategy in this hematological malignancy. Here, we show that combined targeting of Wnt/β‐catenin pathway through ICG‐001, a CBP/β‐catenin transcription inhibitor, and of the PI3K/Akt/mTOR axis through ZSTK‐474, a PI3K inhibitor, downregulated proliferation, survival, and clonogenic activity of T‐ALL cells. ICG‐001 and ZSTK‐474 displayed cytotoxic effects, and, when combined together, induced a significant increase in apoptotic cells. This induction of apoptosis was associated with the downregulation of Wnt/β‐catenin and PI3K/Akt/mTOR pathways. All these findings were confirmed under hypoxic conditions that mimic the bone marrow niche where leukemic stem cells are believed to reside. Taken together, our findings highlight potentially promising treatment consisting of cotargeting Wnt/β‐catenin and PI3K/Akt/mTOR pathways in T‐ALL settings. [ABSTRACT FROM AUTHOR]

Published

2020

17. Morpho-functional characterization of Transportin3 in myogenic differentiation of a cell model of LGMD D2.

Author

Costa, Roberta, Rodia, Maria Teresa, Pacilio, Serafina, Zacchini, Claudia, Bergonzoni, Matteo, Fazzina, Martina, Frabetti, Flavia, Borgatti, Monica, Santi, Spartaco, and Cenacchi, Giovanna

Subjects

MYOBLASTS, CELL differentiation, GENE expression profiling, RNA metabolism, MUSCLE physiology

Abstract

Limb Girdle Muscular Dystrophy D2 (LGMD D2) is caused by a heterozygous mutation in the termination codon of the TNPO3 gene. This mutation gives a protein which is 15-aminoacids longer in its C-terminal domain. TNPO3 gene encodes for TNPO3, which normally mediates the translocation to the nucleus of SR proteins, a family of splicing factors and other proteins related to RNA metabolism. Recently a relationship among TNPO3 mutation and alteration in myogenic pathways has been suggested. The goal of this work was to investigate the pathogenetic mechanism of LGMD D2 creating a cell model of disease in which would be possible to study the role of TNPO3 in the myogenic process and in possible muscle-specific molecular pathways. Murine C2C12 myoblasts were transfected with a plasmid carring respectively the wild type (WT) or the mutated (MUT) sequence of TNPO3. We monitored the gene and protein expression profiles of TNPO3, of myogenic regulatory factors (MRFs), myomiRNA and muscle-specific proteins. Preliminary data suggest morphological and expression changes of genes and proteins involved in myogenic differentiation in comparison to the C2C12 control line. The approach used is a first step to understand the role of TNPO3 in muscle physiology and in the pathogenetic mechanism underlying LGMD D2 which is still unknown. [ABSTRACT FROM AUTHOR]

Published

2023

18. Human White Adipocytes Convert Into 'Rainbow' Adipocytes In Vitro.

Author

Maurizi, Giulia, Poloni, Antonella, Mattiucci, Domenico, Santi, Spartaco, Maurizi, Angela, Izzi, Valerio, Giuliani, Angelica, Mancini, Stefania, Zingaretti, Maria Cristina, Perugini, Jessica, Severi, Ilenia, Falconi, Massimo, Vivarelli, Marco, Rippo, Maria Rita, Corvera, Silvia, Giordano, Antonio, Leoni, Pietro, and Cinti, Saverio

Subjects

FAT cells, GENE expression, STEM cells, MICROARRAY technology, IN vitro studies

Abstract

White adipocytes are plastic cells able to reversibly transdifferentiate into brown adipocytes and into epithelial glandular cells under physiologic stimuli in vivo. These plastic properties could be used in future for regenerative medicine, but are incompletely explored in their details. Here, we focused on plastic properties of human mature adipocytes (MA) combining gene expression profile through microarray analysis with morphologic data obtained by electron and time lapse microscopy. Primary MA showed the classic morphology and gene expression profile of functional mature adipocytes. Notably, despite their committed status, MA expressed high levels of reprogramming genes. MA from ceiling cultures underwent transdifferentiation toward fibroblast-like cells with a well-differentiated morphology and maintaining stem cell gene signatures. The main morphologic aspect of the transdifferentiation process was the secretion of large lipid droplets and the development of organelles necessary for exocrine secretion further supported the liposecretion process. Of note, electron microscope findings suggesting liposecretion phenomena were found also in explants of human fat and rarely in vivo in fat biopsies from obese patients. In conclusion, both MA and post-liposecretion adipocytes show a well-differentiated phenotype with stem cell properties in line with the extraordinary plasticity of adipocytes in vivo. J. Cell. Physiol. 232: 2887-2899, 2017. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2017

19. A new holistic 3D non-invasive analysis of cellular distribution and motility on fibroin-alginate microcarriers using light sheet fluorescent microscopy.

Author

Duchi, Serena, Piccinini, Filippo, Pierini, Michela, Bevilacqua, Alessandro, Torre, Maria Luisa, Lucarelli, Enrico, and Santi, Spartaco

Subjects

THREE-dimensional imaging, CELL communication, BIOMATERIALS, TISSUE engineering, MESENCHYMAL stem cells, FLUORESCENCE microscopy

Abstract

Cell interaction with biomaterials is one of the keystones to developing medical devices for tissue engineering applications. Biomaterials are the scaffolds that give three-dimensional support to the cells, and are vectors that deliver the cells to the injured tissue requiring repair. Features of biomaterials can influence the behaviour of the cells and consequently the efficacy of the tissue-engineered product. The adhesion, distribution and motility of the seeded cells onto the scaffold represent key aspects, and must be evaluated in vitro during the product development, especially when the efficacy of a specific tissue-engineered product depends on viable and functional cell loading. In this work, we propose a non-invasive and non-destructive imaging analysis for investigating motility, viability and distribution of Mesenchymal Stem Cells (MSCs) on silk fibroin-based alginate microcarriers, to test the adhesion capacity of the fibroin coating onto alginate which is known to be unsuitable for cell adhesion. However, in depth characterization of the biomaterial is beyond the scope of this paper. Scaffold-loaded MSCs were stained with Calcein-AM and Ethidium homodimer-1 to detect live and dead cells, respectively, and counterstained with Hoechst to label cell nuclei. Time-lapse Light Sheet Fluorescent Microscopy (LSFM) was then used to produce three-dimensional images of the entire cells-loaded fibroin/alginate microcarriers. In order to quantitatively track the cell motility over time, we also developed an open source user friendly software tool called Fluorescent Cell Tracker in Three-Dimensions (F-Tracker3D). Combining LSFM with F-Tracker3D we were able for the first time to assess the distribution and motility of stem cells in a non-invasive, non-destructive, quantitative, and three-dimensional analysis of the entire surface of the cell-loaded scaffold. We therefore propose this imaging technique as an innovative holistic tool for monitoring cell-biomaterial interactions, and as a tool for the design, fabrication and functionalization of a scaffold as a medical device. [ABSTRACT FROM AUTHOR]

Published

2017

20. Effect of a one-step self-etch adhesive on endogenous dentin matrix metalloproteinases.

Author

Apolonio, Fabianni M., Mazzoni, Annalisa, Angeloni, Valeria, Scaffa, Polliana M. C., Santi, Spartaco, Saboia, Vicente de Paulo A., Tay, Franklin R., Pashley, David H., and Breschi, Lorenzo

Subjects

ADHESIVES, DENTAL acid etching, DENTAL bonding, DENTAL enamel, DENTIN, ENZYME-linked immunosorbent assay, MATERIALS testing, RESEARCH funding, T-test (Statistics), TENSILE strength, MATRIX metalloproteinases

Abstract

Degradation of the hybrid layer created in dentin by dentin adhesives is caused by enzyme activities present within the dentin matrix that destroy unprotected collagen fibrils. The aim of the present study was to evaluate the effect of a one-step self-etch adhesive system on dentinal matrix metalloproteinases 2 and 4 ( MMP-2 and MMP-9, respectively) using in situ zymography and an enzymatic activity assay. The null hypothesis tested was that there are no differences in the activities of dentinal MMPs before and after treatment with a one-step adhesive system. The MMP-2 and MMP-9 activities in dentin treated with the one-step adhesive, Adper Easy Bond, were quantified using an enzymatic activity assay system. The MMP activities within the hybrid layer created by the one-step adhesive tested were also evaluated using in situ zymography. The enzymatic assay revealed an increase in MMP-2 and MMP-9 activities after treatment with adhesive. In situ zymography indicated that gelatinolytic activity is present within the hybrid layer created with the one-step self-etch adhesive. The host-derived gelatinases were localized within the hybrid layer and remained active after the bonding procedure. It is concluded that the one-step self-etch adhesive investigated activates endogenous MMP-2 and MMP-9 with the dentin matrix, which may cause collagen degradation over time. [ABSTRACT FROM AUTHOR]

Published

2017

21. Tendon Extracellular Matrix Alterations in Ullrich Congenital Muscular Dystrophy.

Author

Sardone, Francesca, Traina, Francesco, Bondi, Alice, Merlini, Luciano, Santi, Spartaco, Maraldi, Nadir Mario, Faldini, Cesare, and Sabatelli, Patrizia

Subjects

COLLAGEN, MUSCULAR dystrophy, CONGENITAL disorders, METALLOPROTEINASES, TENDON diseases

Abstract

Collagen VI (COLVI) is a non-fibrillar collagen expressed in skeletal muscle and most connective tissues. Mutations in COLVI genes cause two major clinical forms, Bethlem myopathy and Ullrich congenital muscular dystrophy (UCMD). In addition to congenital muscle weakness, patients affected by COLVI myopathies show axial and proximal joint contractures and distal joint hypermobility, which suggest the involvement of the tendon function. We examined a peroneal tendon biopsy and tenocyte culture of a 15-year-old patient affected by UCMD with compound heterozygous COL6A2 mutations. In patient's tendon biopsy, we found striking morphological alterations of tendon fibrils, consisting in irregular profiles and reduced mean diameter. The organization of the pericellular matrix of tenocytes, the primary site of collagen fibril assembly, was severely affected, as determined by immunoelectron microscopy, which showed an abnormal accumulation of COLVI and altered distribution of collagen I (COLI) and fibronectin (FBN). In patient's tenocyte culture, COLVI web formation and cell surface association were severely impaired; large aggregates of COLVI, which matched with COLI labeling, were frequently detected in the extracellular matrix. In addition, metalloproteinase MMP-2, an extracellular matrix-regulating enzyme, was increased in the conditioned medium of patient's tenocytes, as determined by gelatin zymography and western blot. Altogether, these data indicate that COLVI deficiency may influence the organization of UCMD tendon matrix, resulting in dysfunctional fibrillogenesis. The alterations of tendon matrix may contribute to the complex pathogenesis of COLVI related myopathies. [ABSTRACT FROM AUTHOR]

Published

2016

22. Melanocytes from patients affected by Ullrich congenital muscular dystrophy and Bethlem myopathy have dysfunctional mitochondria that can be rescued with cyclophilin inhibitors.

Author

Zulian, Alessandra, Tagliavini, Francesca, Rizzo, Erika, Pellegrini, Camilla, Sardone, Francesca, Zini, Nicoletta, Maraldi, Nadir Mario, Santi, Spartaco, Faldini, Cesare, Merlini, Luciano, Petronilli, Valeria, Bernardi, Paolo, and Sabatelli, Patrizia

Subjects

MELANOCYTES, MUSCULAR dystrophy, EXTRACELLULAR matrix proteins, MITOCHONDRIA, CYCLOPHILINS, PATIENTS

Abstract

Ullrich congenital muscular dystrophy and Bethlem myopathy are caused by mutations in collagen VI (ColVI) genes, which encode an extracellular matrix protein; yet, mitochondria play a major role in disease pathogenesis through a short circuit caused by inappropriate opening of the permeability transition pore, a high-conductance channel, which causes a shortage in ATP production.We find that melanocytes do not produce ColVI yet they bind it at the cell surface, suggesting that this protein may play a trophic role and that its absence may cause lesions similar to those seen in skeletal muscle. We show that mitochondria in melanocytes of Ullrich congenital muscular dystrophy and Bethlem myopathy patients display increased size, reduced matrix density, and disrupted cristae, findings that suggest a functional impairment. In keeping with this hypothesis, mitochondria (i) underwent anomalous depolarization after inhibition of the F-ATP synthase with oligomycin, and (ii) displayed decreased respiratory reserve capacity. The non-immunosuppressive cyclophilin inhibitor NIM811 prevented mitochondrial depolarization in response to oligomycin in melanocytes from both Ullrich congenital muscular dystrophy and Bethlem myopathy patients, and partially restored the respiratory reserve of melanocytes from one Bethlem myopathy patient.These results match our recent findings on melanocytes from patients affected by Duchenne muscular dystrophy (Pellegrini et al., 2013), and suggest that skin biopsies may represent a minimally invasive tool to investigate mitochondrial dysfunction and to evaluate drug efficacy in ColVI-related myopathies and possibly in other muscle wasting conditions like aging sarcopenia. [ABSTRACT FROM AUTHOR]

Published

2014

23. Aggresome–autophagy involvement in a sarcopenic patient with rigid spine syndrome and a p.C150R mutation in FHL1 gene.

Author

Sabatelli, Patrizia, Castagnaro, Silvia, Tagliavini, Francesca, Chrisam, Martina, Sardone, Francesca, Demay, Laurence, Richard, Pascale, Santi, Spartaco, Maraldi, Nadir M., Merlini, Luciano, Sandri, Marco, and Bonaldo, Paolo

Subjects

MUSCLE diseases, CERVICAL vertebrae, BODY dysmorphic disorder, AUTOPHAGY, ANTERIOR longitudinal ligament, LEG

Abstract

The four-and-half LIM domain protein 1 (FHL1) is highly expressed in skeletal and cardiac muscle. Mutations of the FHL1 gene have been associated with diverse chronicmyopathies including reducing body myopathy, rigid spine syndrome (RSS), and Emery-Dreifuss muscular dystrophy. We investigated a family with a mutation (p.C150R) in the second LIM domain of FHL1. In this family, a brother and a sister were affected by RSS, and their mother had mild lower limbs weakness. The 34-year-old female had an early and progressive rigidity of the cervical spine and severe respiratory insufficiency. Muscle mass evaluated by DXA was markedly reduced, while fat mass was increased to 40%. CT scan showed an almost complete substitution of muscle by fibro-adipose tissue. Muscle biopsy showed accumulation of FHL1 throughout the cytoplasm and around myonuclei into multiprotein aggregates with aggresome/autophagy features as indicated by ubiquitin, p62, and LC3 labeling. DNA deposits, not associated with nuclear lamina components and histones, were also detected in the aggregates, suggesting nuclear degradation. Ultrastructural analysis showed the presence of dysmorphic nuclei, accumulation of tubulofilamentous and granular material, and perinuclear accumulation of autophagic vacuoles. These data point to involvement of the aggresome-autophagy pathway in the pathophysiological mechanism underlying the muscle pathology of FHL1 C150R mutation. [ABSTRACT FROM AUTHOR]

Published

2014

24. Effect of Mechanical Strain on the Collagen VI Pericellular Matrix in Anterior Cruciate Ligament Fibroblasts.

Author

Sardone, Francesca, Traina, Francesco, Tagliavini, Francesca, Pellegrini, Camilla, Merlini, Luciano, Squarzoni, Stefano, Santi, Spartaco, Neri, Simona, Faldini, Cesare, Maraldi, Nadir, and Sabatelli, Patrizia

Subjects

COLLAGEN, ANTERIOR cruciate ligament, FIBROBLASTS, CELL-matrix adhesions, CONNECTIVE tissues, BIOMECHANICS, HOMEOSTASIS

Abstract

Cell-extracellular matrix interaction plays a major role in maintaining the structural integrity of connective tissues and sensing changes in the biomechanical environment of cells. Collagen VI is a widely expressed non-fibrillar collagen, which regulates tissues homeostasis. The objective of the present investigation was to extend our understanding of the role of collagen VI in human ACL. This study shows that collagen VI is associated both in vivo and in vitro to the cell membrane of knee ACL fibroblasts, contributing to the constitution of a microfibrillar pericellular matrix. In cultured cells the localization of collagen VI at the cell surface correlated with the expression of NG2 proteoglycan, a major collagen VI receptor. The treatment of ACL fibroblasts with anti-NG2 antibody abolished the localization of collagen VI indicating that collagen VI pericellular matrix organization in ACL fibroblasts is mainly mediated by NG2 proteoglycan. In vitro mechanical strain injury dramatically reduced the NG2 proteoglycan protein level, impaired the association of collagen VI to the cell surface, and promoted cell cycle withdrawal. Our data suggest that the injury-induced alteration of specific cell-ECM interactions may lead to a defective fibroblast self-renewal and contribute to the poor regenerative ability of ACL fibroblasts. J. Cell. Physiol. 229: 878-886, 2014. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

25. Polarized Expression of p75NTR Specifies Axons during Development and Adult Neurogenesis.

Author

Zuccaro, Emanuela, Bergami, Matteo, Vignoli, Beatrice, Bony, Guillaume, Pierchala, Brian A., Santi, Spartaco, Cancedda, Laura, and Canossa, Marco

Abstract

Summary: Newly generated neurons initiate polarizing signals that specify a single axon and multiple dendrites, a process critical for patterning neuronal circuits in vivo. Here, we report that the pan-neurotrophin receptor p75NTR is a polarity regulator that localizes asymmetrically in differentiating neurons in response to neurotrophins and is required for specification of the future axon. In cultured hippocampal neurons, local exposure to neurotrophins causes early accumulation of p75NTR into one undifferentiated neurite to specify axon fate. Moreover, knockout or knockdown of p75NTR results in failure to initiate an axon in newborn neurons upon cell-cycle exit in vitro and in the developing cortex, as well as during adult hippocampal neurogenesis in vivo. Hence, p75NTR governs neuronal polarity, determining pattern and assembly of neuronal circuits in adult hippocampus and cortical development. Video Abstract: Display Omitted [Copyright &y& Elsevier]

Published

2014

26. Dependence of Immunoglobulin Class Switch Recombination in B Cells on Vesicular Release of ATP and CD73 Ectonucleotidase Activity.

Author

Schena, Francesca, Volpi, Stefano, Faliti, Caterina Elisa, Penco, Federica, Santi, Spartaco, Proietti, Michele, Schenk, Ursula, Damonte, Gianluca, Salis, Annalisa, Bellotti, Marta, Fais, Franco, Tenca, Claudya, Gattorno, Marco, Eibel, Hermann, Rizzi, Marta, Warnatz, Klaus, Idzko, Marco, Ayata, Cemil Korcan, Rakhmanov, Mirzokhid, and Galli, Thierry

Abstract

Summary: Immunoglobulin (Ig) isotype diversification by class switch recombination (CSR) is an essential process for mounting a protective humoral immune response. Ig CSR deficiencies in humans can result from an intrinsic B cell defect; however, most of these deficiencies are still molecularly undefined and diagnosed as common variable immunodeficiency (CVID). Here, we show that extracellular adenosine critically contributes to CSR in human naive and IgM memory B cells. In these cells, coordinate stimulation of B cell receptor and toll-like receptors results in the release of ATP stored in Ca2+-sensitive secretory vesicles. Plasma membrane ectonucleoside triphosphate diphosphohydrolase 1 CD39 and ecto-5′-nucleotidase CD73 hydrolyze ATP to adenosine, which induces CSR in B cells in an autonomous fashion. Notably, CVID patients with impaired class-switched antibody responses are selectively deficient in CD73 expression in B cells, suggesting that CD73-dependent adenosine generation contributes to the pathogenesis of this disease. [Copyright &y& Elsevier]

Published

2013

27. Matrix metalloproteinase 13 loss associated with impaired extracellular matrix remodeling disrupts chondrocyte differentiation by concerted effects on multiple regulatory factors.

Author

Borzí, Rosa Maria, Olivotto, Eleonora, Pagani, Stefania, Vitellozzi, Roberta, Neri, Simona, Battistelli, Michela, Falcieri, Elisabetta, Facchini, Annalisa, Flamigni, Flavio, Penzo, Marianna, Platano, Daniela, Santi, Spartaco, Facchini, Andrea, and Marcu, Kenneth B

Abstract

OBJECTIVE: To link matrix metalloproteinase 13 (MMP-13) activity and extracellular matrix (ECM) remodeling to alterations in regulatory factors leading to a disruption in chondrocyte homeostasis. METHODS: MMP-13 expression was ablated in primary human chondrocytes by stable retrotransduction of short hairpin RNA. The effects of MMP-13 knockdown on key regulators of chondrocyte differentiation (SOX9, runt-related transcription factor 2 [RUNX-2], and beta-catenin) and angiogenesis (vascular endothelial growth factor [VEGF]) were scored at the protein level (by immunohistochemical or Western blot analysis) and RNA level (by real-time polymerase chain reaction) in high-density monolayer and micromass cultures under mineralizing conditions. Effects on cellular viability in conjunction with chondrocyte progression toward a hypertrophic-like state were assessed in micromass cultures. Alterations in SOX9 subcellular distribution were assessed using confocal microscopy in micromass cultures and also in osteoarthritic cartilage. RESULTS: Differentiation of control chondrocyte micromasses progressed up to a terminal phase, with calcium deposition in conjunction with reduced cell viability and scant ECM. MMP-13 knockdown impaired ECM remodeling and suppressed differentiation in conjunction with reduced levels of RUNX-2, beta-catenin, and VEGF. MMP-13 levels in vitro and ECM remodeling in vitro and in vivo were linked to changes in SOX9 subcellular localization. SOX9 was largely excluded from the nuclei of chondrocytes with MMP-13-remodeled or -degraded ECM, and exhibited an intranuclear staining pattern in chondrocytes with impaired MMP-13 activity in vitro or with more intact ECM in vivo. CONCLUSION: MMP-13 loss leads to a breakdown in primary human articular chondrocyte differentiation by altering the expression of multiple regulatory factors. [ABSTRACT FROM AUTHOR]

Published

2010

28. Matrix Metalloproteinase 13 Loss Associated With Impaired Extracellular Matrix Remodeling Disrupts Chondrocyte Differentiation by Concerted Effects on Multiple Regulatory Factors.

Author

Borzí, Rosa Maria, Olivotto, Eleonora, Pagani, Stefania, Vitellozzi, Roberta, Neri, Simona, Battistelli, Michela, Falcieri, Elisabetta, Facchini, Annalisa, Flamigni, Flavio, Penzo, Marianna, Platano, Daniela, Santi, Spartaco, Facchini, Andrea, and Marcu, Kenneth B.

Subjects

METALLOPROTEINASES, METALLOENZYMES, PROTEINASES, EXTRACELLULAR matrix, CARTILAGE cells

Abstract

Objective. To link matrix metalloproteinase 13 (MMP-13) activity and extracellular matrix (ECM) remodeling to alterations in regulatory factors leading to a disruption in chondrocyte homeostasis. Methods. MMP-13 expression was ablated in primary human chondrocytes by stable retrotransduction of short hairpin RNA. The effects of MMP-13 knockdown on key regulators of chondrocyte differentiation (SOX9, runt-related transcription factor 2 [RUNX-2], and β-catenin) and angiogenesis (vascular endothelial growth factor [VEGF]) were scored at the protein level (by immunohistochemical or Western blot analysis) and RNA level (by real-time polymerase chain reaction) in high-density monolayer and micromass cultures under mineralizing conditions. Effects on cellular viability in conjunction with chondrocyte progression toward a hypertrophic-like state were assessed in micromass cultures. Alterations in SOX9 subcellular distribution were assessed using confocal microscopy in micromass cultures and also in osteoarthritic cartilage. Results. Differentiation of control chondrocyte micromasses progressed up to a terminal phase, with calcium deposition in conjunction with reduced cell viability and scant ECM. MMP-13 knockdown impaired ECM remodeling and suppressed differentiation in conjunction with reduced levels of RUNX-2, β-catenin, and VEGF. MMP-13 levels in vitro and ECM remodeling in vitro and in vivo were linked to changes in SOX9 subcellular localization. SOX9 was largely excluded from the nuclei of chondrocytes with MMP-13- remodeled or-degraded ECM, and exhibited an intranuclear staining pattern in chondrocytes with impaired MMP-13 activity in vitro or with more intact ECM in vivo. Conclusion. MMP-13 loss leads to a breakdown in primary human articular chondrocyte differentiation by altering the expression of multiple regulatory factors. [ABSTRACT FROM AUTHOR]

Published

2010

29. Tollip Is a Mediator of Protein Sumoylation.

Author

Ciarrocchi, Alessia, D'Angelo, Romina, Cordiglieri, Chiara, Rispoli, Ada, Santi, Spartaco, Riccio, Massimo, Carone, Simona, Mancia, Anna Laura, Paci, Simone, Cipollini, Elena, Ambrosetti, Davide, and Melli, Marialuisa

Subjects

INTERLEUKIN-1, CELL receptors, GENETIC transcription, CELL membranes, PROTEIN binding, PROTEIN-protein interactions, GENE expression, RECOMBINANT proteins, CHROMOSOMAL translocation

Abstract

Tollip is an interactor of the interleukin-1 receptor involved in its activation. The endosomal turnover of ubiquitylated IL-1RI is also controlled by Tollip. Furthermore, together with Tom1, Tollip has a general role in endosomal protein traffic. This work shows that Tollip is involved in the sumoylation process. Using the yeast two-hybrid technique, we have isolated new Tollip partners including two sumoylation enzymes, SUMO-1 and the transcriptional repressor Daxx. The interactions were confirmed by GST-pull down experiments and immunoprecipitation of the co-expressed recombinants. More specifically, we show that the TIR domain of the cytoplasmic region of IL-1RI is a sumoylation target of Tollip. The sumoylated and unsumoylated RanGAP-1 protein also interacts with Tollip, suggesting a possible role in RanGAP-1 modification and nuclearcytoplasmic protein translocation. In fact, Tollip is found in the nuclear bodies of SAOS-2/IL-1RI cells where it colocalizes with SUMO-1 and the Daxx repressor. We conclude that Tollip is involved in the control of both nuclear and cytoplasmic protein traffic, through two different and often contrasting processes: ubiquitylation and sumoylation. [ABSTRACT FROM AUTHOR]

Published

2009

30. Deletion of TrkB in adult progenitors alters newborn neuron integration into hippocampal circuits and increases anxiety-like behavior.

Author

Bergami, Matteo, Rimondini, Roberto, Santi, Spartaco, BIum, Robert, Götz, Magdalena, and Canossa, Marco

Subjects

NEURONS, DENTATE gyrus, HIPPOCAMPUS (Brain), NEUROTROPHINS, DEVELOPMENTAL neurobiology, NEUROPLASTICITY

Abstract

New neurons in the adult dentate gyrus are widely held to incorporate into hippocampal circuitry via a stereotypical sequence of morphological and physiological transitions, yet the molecular control over this process remains unclear. We studied the role of brain-derived neurotrophic factor (BDNF)/TrkB signaling in adult neurogenesis by deleting the full-length TrkB via Cre expression within adult progenitors in TrkBlox/lox mice. By 4 weeks after deletion, the growth of dendrites and spines is reduced in adult- born neurons demonstrating that TrkB is required to create the basic organization of synaptic connections. Later, when new neurons normally display facilitated synaptic plasticity and become preferentially recruited into functional networks, lack of TrkB results in impaired neurogenesis-dependent long-term potentiation and cell survival becomes compromised. Because of the specific lack of TrkB signaling in recently generated neurons a remarkably increased anxiety-like behavior was observed in mice carrying the mutation, emphasizing the contribution of adult neurogenesis in regulating mood-related behavior. [ABSTRACT FROM AUTHOR]

Published

2008

31. Pre-Lamin A processing is linked to heterochromatin organization.

Author

Lattanzi, Giovanna, Columbaro, Marta, Mattioli, Elisabetta, Cenni, Vittoria, Camozzi, Daria, Wehnert, Manfred, Santi, Spartaco, Riccio, Massimo, Del Coco, Rosalba, Maraldi, Nadir M., Squarzoni, Stefano, Foisner, Roland, and Capanni, Cristina

Published

2007

32. Chondrocyte hypertrophy and apoptosis induced by GROα require three-dimensional interaction with the extracellular matrix and a co-receptor role of chondroitin sulfate and are associated with the mitochondrial splicing variant of cathepsin B.

Author

Olivotto, Eleonora, Vitellozzi, Roberta, Fernandez, Patricia, Falcieri, Elisabetta, Battistelli, Michela, Burattini, Sabrina, Facchini, Annalisa, Flamigni, Flavio, Santi, Spartaco, Facchini, Andrea, and Borzi', Rosa Maria

Subjects

CARTILAGE cells, HYPERTROPHY, APOPTOSIS, EXTRACELLULAR matrix, CHEMOKINES, CELL differentiation, CHONDROITIN

Abstract

CXCR2 ligands contribute to chondrocyte hypertrophy and apoptosis, important determinants in cartilage pathophysiology. We unraveled the kinetics of signaling, biochemical, transcriptional, and morphological events triggered by GROα in human osteoarthritic chondrocytes kept in three-dimensional culture. p38 MAPK activation was assessed with a highly sensitive ELISA. Effector caspase activation was evaluated by cleavage of a fluorogenic substrate. Gene expression of key markers of hypertrophy (MMP-13, Runx-2) and matrix synthesis (aggrecan), and of cathepsin B isoform CB(-2,3) was evaluated by real time PCR. Occurrence of the morphological markers of apoptosis was investigated by transmission electron microscopy (TEM). GROα led to p38 MAPK activation in passaged chondrocytes cultured in micromass but not as a high-density monolayer. This caused the downstream triggering of chondrocyte hypertrophy (MMP-13 and Runx-2 upregulation, and calcium deposition) and apoptosis/anoikis following concurrence of matrix degrading activity, and inhibition of matrix synthesis which also involved the induction of CB(-2,3). These phenomena proved to be dependent on the co-receptor role of sulfated glycosaminoglycans (sGAG) and the activation of p38 MAPK, since they were abrogated either by preincubation with soluble chondroitin-4 sulfate or p38 MAPK inhibitors. The co-receptor role of sGAG was further demonstrated by colocalization experiments of these molecules with GROα in the stimulated micromasses. These findings suggest that extracellular matrix exerts a regulatory role in chondrocytes differentiation, and that meaningful investigation of the effects of chemokines on chondrocyte biology requires culture conditions respectful of both the differentiated status of the chondrocytes and of their three-dimensional interaction with the extracellular matrix. J. Cell. Physiol. 210: 417–427, 2007. © 2006 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2007

33. Caveolae and caveolae constituents in mechanosensing.

Author

Spisni, Enzo, Toni, Mattia, Strillacci, Antonio, Galleri, Grazia, Santi, Spartaco, Griffoni, Cristiana, and Tomasi, Vittorio

Abstract

Studies in modeled microgravity or during orbital space flights have clearly demonstrated that endothelial cell physiology is strongly affected by the reduction of gravity. Nevertheless, the molecular mechanisms by which endothelial cells may sense gravity force remain unclear. We previously hypothesized that endothelial cell caveolae could be a mechanosensing system involved in hypergravity adaptation of human endothelial cells. In this study, we analyzed the effect on the physiology of human umbilical vein endothelial cell monolayers of short exposure to modeled microgravity (24–48h) obtained by clinorotation. For this purpose, we evaluated the levels of compounds, such as nitric oxide and prostacyclin, involved in vascular tone regulation and synthesized starting from caveolae-related enzymes. Furthermore, we examined posttranslational modifications of Caveolin (Cav)-1 induced by simulated microgravity. The results we collected clearly indicated that short microgravity exposure strongly affected endothelial nitrix oxide synthase activity associated with Cav-1 (Tyr 14) phosphorylation, without modifying the angiogenic response of human umbilical vein endothelial cells. We propose here that one of the early molecular mechanisms responsible for gravity sensing of endothelium involves endothelial cell caveolae and Cav-1 phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2006

34. Hippocampal neurons recycle BDNF for activity-dependent secretion and LTP maintenance.

Author

Santi, Spartaco, Cappello, Silvia, Riccio, Massimo, Bergami, Matteo, Aicardi, Giorgio, Schenk, Ursula, Matteoli, Michela, and Canossa, Marco

Subjects

NEURONS, NEUROPLASTICITY, SYNAPSES, ENDOCYTOSIS, NEUROPHYSIOLOGY

Abstract

Regulation of brain-derived neurotrophic factor (BDNF) secretion plays a critical role in long-term potentiation (LTP). It is generally thought that the supply for this secretion is newly synthesized BDNF targeted to the synapse. Here we provide evidence that hippocampal neurons additionally recycle BDNF for activity-dependent secretion. Exogenously applied BDNF is internalized by cultured neurons and rapidly becomes available for activity-dependent secretion, which is controlled by the same mechanisms that regulate the secretion of newly synthesized BDNF. Moreover, BDNF recycling replaced the new synthesis pathway in mediating the maintenance of LTP in hippocampal slices: the late phase LTP, which is abolished by protein synthesis inhibition, was rescued in slices preincubated with BDNF. Thus, endocytosed BDNF is fed back to the activity-dependent releasable pool required for LTP maintenance. [ABSTRACT FROM AUTHOR]

Published

2006

35. Cellular Prion Protein and Caveolin-1 Interaction in a Neuronal Cell Line Precedes Fyn/Erk ½ Signal Transduction.

Author

Toni, Mattia, Spisni, Enzo, Griffoni, Cristiana, Santi, Spartaco, Riccio, Massimo, Lenaz, Patrizia, and Tomasi, Vittorio

Subjects

PRIONS, CELL lines, CELLULAR signal transduction, GLUTATHIONE transferase, PROTEINS

Abstract

It has been reported that cellular prion protein (PrPc) is enriched in caveolae or caveolae-like domains with caveolin-1 (Cav-1) participating to signal transduction events by Fyn kinase recruitment. By using the Glutathione-S-transferase (GST)-fusion proteins assay, we observed that PrPc strongly interacts in vitro with Cav-1. Thus, we ascertained the PrPc caveolar localization in a hypothalamic neuronal cell line (GN11), by confocal microscopy analysis, flotation on density gradient, and coimmunoprecipitation experiments. Following the anti-PrPc antibody-mediated stimulation of live GN11 cells, we observed that PrPc clustered on plasma membrane domains rich in Cav-1 in which Fyn kinase converged to be activated. After these events, a signaling cascade through p42/44 MAP kinase (Erk 1/2) was triggered, suggesting that following translocations from rafts to caveolae or caveolae-like domains PrPc could interact with Cav-1 and induce signal transduction events. [ABSTRACT FROM AUTHOR]

Published

2006

36. Induction of long-term potentiation and depression is reflected by corresponding changes in secretion of endogenous brain-derived neurotrophic factor.

Author

Aicardi, Giorgio, Argilli, Emanuela, Cappello, Silvia, Santi, Spartaco, Riccio, Massimo, Thoenen, Hans, and Canossa, Marco

Subjects

NEUROPLASTICITY, VISUAL cortex, OCCIPITAL lobe, BRAIN, NEUROPHYSIOLOGY, HIPPOCAMPUS (Brain)

Abstract

Neurotrophins play an important role in modulating activity- dependent neuronal plasticity. In particular, threshold levels of brain-derived neurotrophic factor (BDNF) are required to induce long-term potentiation (LTP) in acute hippocampal slices. Conversely, the administration of exogenous BDNF prevents the induction of long-term depression (LTD) in the visual cortex. A long-standing missing link in the analysis of this modulatory role of BDNF was the determination of the time-course of endogenous BDNF secretion in the same organotypic preparation in which LTP and LTD are elicited. Here, we fulfilled this requirement in slices of perirhinal cortex. Classical theta-burst stimulation patterns evoking LTP lasting >180 min elicited a large increase in BDNF secretion that persisted 5-12 min beyond the stimulation period. Weaker theta-burst stimulation patterns leading only to the initial phase of LTP (&ap;35 min) were accompanied by a smaller increase in BDNF secretion lasting <1 min. Sequestration of BDNF by TrkB-IgG receptor bodies prevented LTP. Low-frequency stimulations leading to LTD were accompanied by reductions in BDNF secretion that never lasted beyond the duration of the stimulation. [ABSTRACT FROM AUTHOR]

Published

2004

37. Mechanosensing Role of Caveolae and Caveolar Constituents in Human Endothelial Cells.

Author

Spisni, Enzo, Bianco, Maria Cristina, Griffoni, Cristiana, Toni, Mattia, D'Angelo, Romina, Santi, Spartaco, Riccio, Massimo, and Tomasi, Vittorio

Subjects

CELLS, CELL cycle, GENE expression, CONFOCAL microscopy, ENZYMES, ENDOTHELIUM

Abstract

A variety of evidence suggests that endothelial cell functions are impaired in altered gravity conditions. Nevertheless, the effects of hypergravity on endothelial cell physiology remain unclear. In this study we cultured primary human endothelial cells under mild hypergravity conditions for 24-48 h, then we evaluated the changes in cell cycle progression, caveolin1 gene expression and in the caveolae status by confocal microscopy. Moreover, we analyzed the activity of enzymes known to be resident in caveolae such as endothelial nitric oxide synthase (eNOS), cycloxygenase 2 (COX-2), and prostacyclin synthase (PGIS). Finally, we performed a three-dimensional in vitro collagen gel test to evaluate the modification of the angiogenic responses. Results indicate that hypergravity shifts endothelial cells to G0/G1 phase of cell cycle, reducing S phase, increasing caveolin1 gene expression and causing an increased distribution of caveolae in the cell interior. Hypergravity also increases COX-2 expression, nitric oxide (NO) and prostacyclin (PGI2) production, and inhibits angiogenesis as evaluated by 3-D collagen gel test, through a pathway not involving apoptosis. Thus, endothelial cell caveolae may be responsible for adaptation of endothelium to hypergravity and the mechanism of adaptation involves an increased caveolin1 gene expression coupled to upregulation of vasodilators as NO and PGI2. [ABSTRACT FROM AUTHOR]

Published

2003

38. New insights into the molecular basis of progressive myoclonus epilepsy: a multiprotein complex with cystatin B.

Author

Di Giaimo, Rossella, Riccio, Massimo, Santi, Spartaco, Galeotti, Cesira, Ambrosetti, Davide C., and Melli, Marialuisa

Published

2002

39. Stage-specific gene expression in early differentiating oligodendrocytes.

Author

Blasi, Francesca, Ciarrocchi, Alessia, Luddi, Alice, Strazza, Michelina, Riccio, Massimo, Santi, Spartaco, Arcone, Rosaria, Pietropaolo, Concetta, D'Angelo, Romina, Costantino-Ceccarini, Elvira, and Melli, Marialuisa

Published

2002

40. Lineage-related sensitivity to apoptosis in human tumor cells undergoing hyperthermia.

Author

Falcieri, Elisabetta, Luchetti, Francesca, Burattini, Sabrina, Canonico, Barbara, Santi, Spartaco, and Papa, Stefano

Subjects

HEREDITY, LINEAGE, TUMORS, APOPTOSIS, CELL death, CELL culture

Abstract

In this study the role of hyperthermia as an apoptotic trigger was analyzed in four human tumor cell lines: HL60, U937, DOHH2, and K562. These cell lines were chosen because of their well known and different expression of bcl-2 and bcr-abl genes, the expression of which is known to be an antiapoptotic condition. HL60 and U937 cells were strongly susceptible to heat exposure, while DOHH2 cells were weakly sensitive and K562 cells were resistant, thus suggesting a possible gene involvement in this type of programmed cell death. The mechanisms underlying this apoptosis were investigated by flow cytometry, agarose gel electrophoresis, and light and electron microscopy. A subdiploid peak and DNA laddering, both of which are parameters specifically correlated to programmed cell death, were present in HL60 and U937 and, even if less evident, in DOHH2 cells undergoing hyperthermic treatment, and were absent in K562 cells. In addition, DNA single-strand cleavage was revealed by in situ nick translation, observed by confocal microscopy. Morphological analysis confirmed these results and revealed the typical chromatin changes, followed by the appearance of micronuclei and apoptotic bodies. [ABSTRACT FROM AUTHOR]

Published

2000

41. MET-YAP1 interplay at the foundation of perinuclear actin fibers remodeling.

Author

Sgarzi, Michela, Mazzeschi, Martina, Romaniello, Donatella, Gelfo, Valerio, Morselli, Alessandra, Ferlizza, Enea, Santi, Spartaco, Győrffy, Balázs, and Lauriola, Mattia

Subjects

ACTIN, FOCAL adhesions, NUCLEAR shapes, FIBERS, CYTOSKELETON

Abstract

The article presents a study on MET-YAP1 interplay at the foundation of perinuclear actin fibers remodeling. Topics include information on a cytoskeletal structure, engaging a subset of apical contractile actin bundles known as stress fibers; regulation of the nuclear shape and cellular motility; and information on mesenchymal-to-epithelial transition factor receptor (MET).

Published

2022

42. Topology of inositol lipid signal transduction in the nucleus.

Author

Maraldi, Nadir M., Zini, Nicoletta, Santi, Spartaco, and Manzoli, Francesco A.

Published

1999

43. Phospholipid rearrangement of apoptotic membrane does not depend on nuclear activity.

Author

Renò, Filippo, Burattini, Sabrina, Rossi, Stefano, Luchetti, Francesca, Columbaro, Marta, Santi, Spartaco, Papa, Stefano, and Falcieri, E.

Abstract

The behaviour of plasma membrane was studied in UV-treated cells to investigate its involvement in apoptosis. It was studied in HL60 cells, in which DNA oligonucleosomic cleavage occurs, and in Molt-4 cells, which are characterised by a different fragmentation pattern. During the early stages of apoptosis, a membrane lipid rearrangement occurs, which involves phosphatidylserine translocation from the inner to the outer leaflet. This molecular alteration was investigated by annexin V-FITC binding, analysed by flow cytometry and confocal microscopy. It was correlated with transmission electron microscopy, subdiploid peak appearance and DNA fragmentation. Our data indicate that the plasma membrane represents an early apoptotic target, even if its alterations are not detectable by ultrastructural analysis, which indicates its good preservation until late apoptotic stages. In addition, the study of apoptotic cells with absent or inactivated endonuclease demonstrates the independence of this membrane mechanism from nuclear activity. [ABSTRACT FROM AUTHOR]

Published

1998

44. Enhanced resolution of specific chromosome and nuclear regions by reflectance laser scanning confocal microscopy.

Author

Neri, Luca M., Cinti, Caterina, Santi, Spartaco, Marchisio, Marco, Capitani, Silvano, and Maraldi, Nadir M.

Abstract

DNA sequences digested by HaeIII and reconstructed by in situ nick translation employing digoxigenin-labelled nucleotides are usually revealed either by horseradish peroxidase or FITC fluorescence. To obtain a significant improvement in terms of resolution, sensitivity and specificity, colloidal gold has been used instead of FITC (as the reporter molecule) to reveal the labelled DNA. Colloidal gold and propidium iodide were visualised by employing the reflectance mode and the 488-nm laser line of a confocal laser scanning microscope. In chromosomes, the fluorescent reaction pattern showed diffuse areas of labelling in which it was impossible to identify any specific kind of banding along the arms. In some chromosomes and, in particular, 1 and 9, a C-negative banding due to the negativity of the centromeric areas was seen. A more accurate localisation on chromosomes, including telomeric regions, often organised in spot pairs that resembled an R-like banding, was detected using 1-nm colloidal gold. A fine labelling was also demonstrated in nuclei, especially at their peripheral heterochromatin. The non-fading properties of colloidal gold combined with visualisation by reflectance confocal laser scanning microscopy demonstrated the possibility of obtaining a higher spatial resolution than when using conventional fluorophores or higher laser wavelength. This improved way to study the localization of HaeIII digestion sites in single chromosomes and in interphase nuclei made the reaction a valuable tool for the detection of antigens or of specific DNA sequences in biological preparations. [ABSTRACT FROM AUTHOR]

Published

1997

45. Cytoplasmic and nuclear localization sites of phosphatidylinositol 3-kinase in human osteosarcoma sensitive and multidrug-resistant Saos-2 cells.

Author

Zini, Nicoletta, Ognibene, Andrea, Bavelloni, Alberto, Santi, Spartaco, Sabatelli, Patrizia, Baldini, Nicola, Scotlandi, Katia, Serra, Massimo, and Maraldi, Nadir

Abstract

The intracellular localization of phosphatidylinositol 3-kinase (PI 3-kinase) has been analyzed by western blotting, confocal, and electron microscopy immunocytochemistry in human osteosarcoma Saos-2 cells. By western blotting, the enzyme appears to be present in both the cytoplasmic and nuclear subfractions. By confocal microscope immunocytochemistry, the cytoplasmic fluorescence is localized in the perinuclear region and on a network of filaments, while a diffused signal is present in the nucleus, except for the nucleolar areas. Ultrastructural analyses on whole cells and on in situ matrix preparations reveal that nuclear PI 3-kinase is localized in interchromatin domains, in stable association with inner nuclear matrix components, while the enzyme diffused in the cytosol is partly associated with the cytoskeletal filaments. Quantitative evaluations indicate that, in a multidrug-resistant variant obtained by continuous exposure of Saos-2 cells to doxorubicin, the amount of nuclear and cytoplasmic PI 3-kinase is significantly lower than in the sensitive parental cell line. The nuclear localization of PI 3-kinase and its variation in multidrug-resistant cells, characterized by a reduced mitotic index, are consistent with the data on the existence of a nuclear inositol lipid cycle, which could also utilize 3-phosphorylated inositides to modulate signal transduction for the control of some key functional activities. [ABSTRACT FROM AUTHOR]

Published

1996

46. Preparation of chromosome spreads for electron (TEM, SEM, STEM), light and confocal microscopy.

Author

Squarzoni, Stefano, Cinti, Caterina, Santi, Spartaco, Valmori, Aurelio, and Maraldi, Nadir

Abstract

In the past, ultrastructural studies on chromosome morphology have been carried out using light microscopy, scanning electron microscopy and transmission electron microscopy of whole mounted or sectioned samples. Until now, however, it has not been possible to use all of these techniques on the same specimen. In this paper we describe a specimen preparation method that allows one to study the same chromosomes by transmission, scanning-transmission and scanning electron microscopy, as well as by standard light microscopy and confocal microscopy. Chromosome plates are obtained on a carbon coated glass slide. The carbon film carrying the chromosomes is then transferred to electron microscopy grids, subjected to various treatments and observed. The results show a consistent morphological correspondence between the different methods. This method could be very useful and important because it makes possible a direct comparison between the various techniques used in chromosome studies such as banding, in situ hybridization, fluorescent probe localization, ultrastructural analysis, and colloidal gold cytochemical reactions [ABSTRACT FROM AUTHOR]

Published

1994

47. Protein kinase C isoenzymes in mouse Harderian gland. Differential expression of the α- and ε-isoforms during pregnancy.

Author

Grill, Vittorio, Martelli, Alberto, Bareggi, Renato, Santi, Spartaco, Basa, Marisa, Zweyer, Marina, Cocco, Lucio, and Narducci, Paola

Abstract

Protein kinase C (PKC) is known to be involved in the regulation of exocytosis in different cell lines and tissues. Experiments were designed to determine whether the Harderian gland of CD-1 mouse produces PKC isoenzymes and whether the expression of the isoforms changes during pregnancy. The presence of the isoenzymes was assessed by immunoblotting experiments using extract of total Harderian gland and polyclonal antisera specific for nine different PKC isoforms. Antisera giving a positive staining on Western blots were subsequently used for immunohistochemical investigation using a secondary antibody conjugated to alkaline phosphatase. Immunoblotting experiments revealed that the Harderian gland from female mouse expresses PKC isoforms-α,-ε,-ζ and-η. These isoforms were also detected in the Harderian gland from 13-day pregnant mouse; however, striking quantitative changes were seen concerning the α- and ε-isoforms. The 80-kDa native form of PKC-α almost doubled in the pregnant mouse in comparison with normal female mouse whereas the amount of 50-kDa catalytic domain did not change. Protein kinase C-ε appeared as a 92- to 93-kDa form and a 67-kDa form. While the 92- to 93-kDa protein was expressed to a similar extent in both types of mouse, the 67-kDa form was more abundant inthe Harderian gland from normal female mouse. These data were corroborated by immunohistochemical experiments and showing a diffuse and granular staining of the adenomeres. These observations demonstrate for the first time (to our knowledge) that the mouse Harderian gland produces several PKC isoenzymes that could be involved in the regulation of exocytosis and/or other functions. Moreover, the expression of the α- and ε-isoforms could be regulated by sexual hormones, as suggested by the differential abundance of these two proteins in the gland of pregnant mouse compared with normal female mouse. [ABSTRACT FROM AUTHOR]

Published

1995

48. Nuclear labelling in primordial germ cells of Rana dalmatina embryos by Dolichos biflorus agglutinin.

Author

Riccio, Massimo, Telò, Tiziana, Giorgi, Piero P., Pirazzini, Michele, Santi, Spartaco, and Di Grande, Foscarina

Published

1998

49. Intramembrane protein distribution in cell cultures is affected by 50 Hz pulsed magnetic fields.

Author

Bersani, Ferdinando, Marinelli, Fiorenzo, Ognibene, Andrea, Matteucci, Alessandro, Cecchi, Stefania, Santi, Spartaco, Squarzoni, Stefano, and Maraldi, Nadir Mario

Published

1997

50. Ataxin-3 is transported into the nucleus and associates with the nuclear matrix.

Author

Tait, Danilo, Riccio, Massimo, Sittler, Annie, Scherzinger, Eberhard, Santi, Spartaco, Ognibene, Andrea, Maraldi, Nadir Mario, Lehrach, Hans, and Wanker, Erich E.

Abstract

Examines the transport of ataxin-3 proteins into the nucleus and its association with the nuclear matrix in spinocerebellar ataxia. Mode of inheritance; Age of onset; Clinical manifestations of the disease; Factors that affect the subcellular localization of recombinant polyglutamine-containing proteins.

Published

1998