Your search keyword '"Calierno, Mt"' showing total 8 results

1. Systematic Morphometry of Catecholamine Nuclei in the Brainstem Reticular Formation

Author

Bucci, D, Busceti, Cl, Calierno, Mt, Di Pietro, P, Madonna, M, Biagioni, F, Ryskalin, L, Limanaqi, F, Nicoletti, F, and Fornai, F.

Subjects

reticular formation, catecholamine, tyrosine hydroxylase, stereology, catecholamine, dopamine, norepinephrine, epinephrine, tyrosine hydroxylase, reticular formation, brainstem, stereology, epinephrine, dopamine, norepinephrine, brainstem

Published

2017

2. Antitumour and antiangiogenic activities of [Pt(O,O'-acac)(γ-acac)(DMS)] in a xenograft model of human renal cell carcinoma

Author

Muscella, A, Vetrugno, C, Biagioni, F, Calabriso, N, Calierno, Mt, Fornai, Francesco, De Pascali, Sa, Marsigliante, S, Fanizzi, F. p., Muscella, Antonella, Vetrugno, Carla, Biagioni, F, Calabriso, Nadia, Calierno, M. T, Fornai, F, DE PASCALI, SANDRA ANGELICA, Marsigliante, Santo, and Fanizzi, Francesco Paolo

Subjects

RANDOMIZED PHASE-3 TRIAL, BREAST-CANCER CELLS, TUMOR ANGIOGENESIS, TESTICULAR CANCER, PLATINUM(II) COMPLEXES, ENDOTHELIAL-CELL, IN-VIVO, GROWTH, CISPLATIN, PATHWAY, Organoplatinum Compounds, Cell Survival, Mice, Nude, Angiogenesis Inhibitors, Antineoplastic Agents, renal cell carcinoma, VEGF, xenograft, [Pt(O,O′-acac)(γ-acac)(DMS)], MMPs matrix metalloprotease, Mice, Structure-Activity Relationship, Tumor Cells, Cultured, Animals, Humans, Carcinoma, Renal Cell, Cell Proliferation, Mice, Inbred BALB C, Dose-Response Relationship, Drug, Neoplasms, Experimental, Xenograft Model Antitumor Assays, Research Papers, Kidney Neoplasms

Abstract

BACKGROUND AND PURPOSE It is thought that the mechanism of action of anticancer chemotherapeutic agents is mainly due to a direct inhibition of tumour cell proliferation. In tumour specimens, the endothelial cell proliferation rate increases, suggesting that the therapeutic effects of anticancer agents could also be attributed to inhibition of tumour angiogenesis. Hence, we investigated the potential effects of [Pt (O,O′-acac)(γ-acac)(DMS)] ([Pt(DMS)]), a new platinum drug for non-genomic targets, on human renal carcinoma and compared them with those of the well-established anticancer drug, cisplatin. EXPERIMENTAL APPROACH Tumour growth, tumour cell proliferation and microvessel density were investigated in a xenograft model of renal cell carcinoma, developed by injecting Caki-1 cells into BALB/c nude mice. The antiangiogenic potential of compounds was also investigated using HUVECs. KEY RESULTS Treatment of the Caki-1 cells with cisplatin or [Pt(DMS)] resulted in a dose-dependent inhibition of cell survival, but the cytotoxicity of [Pt(DMS)] was approximately fivefold greater than that of cisplatin. [Pt(DMS)] was much more effective than cisplatin at inhibiting tumour growth, proliferation and angiogenesis in vivo, as well as migration, tube formation and MMP1, MMP2 and MMP9 secretion of endothelial cells in vitro. Whereas, cisplatin exerted a greater cytotoxic effect on HUVECs, but did not affect tube formation or the migration of endothelial cells. In addition, treatment of the xenograft mice with [Pt(DMS)] decreased VEGF, MMP1 and MMP2 expressions in tumours. CONCLUSIONS AND IMPLICATIONS The antiangiogenic and antitumour activities of [Pt(DMS)] provide a solid starting point for its validation as a suitable candidate for further pharmacological testing.

Published

2015

3. Protective effects of long-term lithium administration in a slowly progressive SMA mouse model.

Author

Biagioni F, Ferrucci M, Ryskalin L, Fulceri F, Lazzeri G, Calierno MT, Busceti CL, Ruffoli R, and Fornai F

Subjects

Animals, Disease Models, Animal, Humans, Mice, Mice, Knockout, Mice, Transgenic, Motor Neurons pathology, Spinal Cord pathology, Lithium Carbonate pharmacology, Motor Neurons drug effects, Neuroprotective Agents pharmacology, Spinal Cord drug effects, Spinal Muscular Atrophies of Childhood pathology

Abstract

In the present study we evaluated the long-term effects of lithium administration to a knock-out double transgenic mouse model (Smn-/-; SMN1A2G+/-; SMN2+/+) of Spinal Muscle Atrophy type III (SMA-III). This model is characterized by very low levels of the survival motor neuron protein, slow disease progression and motor neuron loss, which enables to detect disease-modifying effects at delayed time intervals. Lithium administration attenuates the decrease in motor activity and provides full protection from motor neuron loss occurring in SMA-III mice, throughout the disease course. In addition, lithium prevents motor neuron enlargement and motor neuron heterotopy and suppresses the occurrence of radial-like glial fibrillary acidic protein immunostaining in the ventral white matter of SMA-III mice. In SMA-III mice long-term lithium administration determines a dramatic increase of survival motor neuron protein levels in the spinal cord. These data demonstrate that long-term lithium administration during a long-lasting motor neuron disorder attenuates behavioural deficit and neuropathology. Since low level of survival motor neuron protein is bound to disease severity in SMA, the robust increase in protein level produced by lithium provides solid evidence which calls for further investigations considering lithium in the long-term treatment of spinal muscle atrophy.

Published

2017

4. Systematic Morphometry of Catecholamine Nuclei in the Brainstem.

Author

Bucci D, Busceti CL, Calierno MT, Di Pietro P, Madonna M, Biagioni F, Ryskalin L, Limanaqi F, Nicoletti F, and Fornai F

Abstract

Catecholamine nuclei within the brainstem reticular formation (RF) play a pivotal role in a variety of brain functions. However, a systematic characterization of these nuclei in the very same experimental conditions is missing so far. Tyrosine hydroxylase (TH) immune-positive cells of the brainstem correspond to dopamine (DA)-, norepinephrine (NE)-, and epinephrine (E)-containing cells. Here, we report a systematic count of TH-positive neurons in the RF of the mouse brainstem by using stereological morphometry. All these nuclei were analyzed for anatomical localization, rostro-caudal extension, volume, neuron number, neuron density, and mean neuronal area for each nucleus. The present data apart from inherent informative value wish to represent a reference for neuronal mapping in those studies investigating the functional anatomy of the brainstem RF. These include: the sleep-wake cycle, movement control, muscle tone modulation, mood control, novelty orienting stimuli, attention, archaic responses to internal and external stressful stimuli, anxiety, breathing, blood pressure, and innumerable activities modulated by the archaic iso-dendritic hard core of the brainstem RF. Most TH-immune-positive cells fill the lateral part of the RF, which indeed possesses a high catecholamine content. A few nuclei are medial, although conventional nosography considers all these nuclei as part of the lateral column of the RF. Despite the key role of these nuclei in psychiatric and neurological disorders, only a few of them aspired a great attention in biomedical investigation, while most of them remain largely obscure although intense research is currently in progress. A simultaneous description of all these nuclei is not simply key to comprehend the variety of brainstem catecholamine reticular neurons, but probably represents an intrinsically key base for understanding brain physiology and physiopathology.

Published

2017

5. Rapamycin promotes differentiation increasing βIII-tubulin, NeuN, and NeuroD while suppressing nestin expression in glioblastoma cells.

Author

Ferrucci M, Biagioni F, Lenzi P, Gambardella S, Ferese R, Calierno MT, Falleni A, Grimaldi A, Frati A, Esposito V, Limatola C, and Fornai F

Subjects

Antigens, Nuclear metabolism, Basic Helix-Loop-Helix Transcription Factors metabolism, Cell Line, Tumor, Cell Movement drug effects, Cell Proliferation drug effects, Dose-Response Relationship, Drug, Endopeptidases, Gelatinases metabolism, Glial Fibrillary Acidic Protein genetics, Glial Fibrillary Acidic Protein metabolism, Glioblastoma metabolism, Humans, Membrane Proteins metabolism, Nerve Tissue Proteins metabolism, Nestin metabolism, Serine Endopeptidases metabolism, Signal Transduction drug effects, Sirolimus pharmacology, Tubulin metabolism, Antigens, Nuclear genetics, Basic Helix-Loop-Helix Transcription Factors genetics, Gene Expression Regulation, Neoplastic drug effects, Glioblastoma genetics, Nerve Tissue Proteins genetics, Nestin genetics, Tubulin genetics

Abstract

Glioblastoma cells feature mammalian target of rapamycin (mTOR) up-regulation which relates to a variety of effects such as: lower survival, higher infiltration, high stemness and radio- and chemo-resistance. Recently, it was demonstrated that mTOR may produce a gene shift leading to altered protein expression. Therefore, in the present study we administered different doses of the mTOR inhibitor rapamycin to explore whether the transcription of specific genes are modified. By using a variety of methods we demonstrate that rapamycin stimulates gene transcription related to neuronal differentiation while inhibiting stemness related genes such as nestin. In these experimental conditions, cell phenotype shifts towards a pyramidal neuron-like shape owing long branches. Rapamycin suppressed cell migration when exposed to fetal bovine serum (FBS) while increasing the cell adhesion protein phospho-FAK (pFAK). The present study improves our awareness of basic mechanisms which relate mTOR activity to the biology of glioblastoma cells. These findings apply to a variety of effects which can be induced by mTOR regulation in the brain. In fact, the ability to promote neuronal differentiation might be viewed as a novel therapeutic pathway to approach neuronal regeneration.

Published

2017

6. The emerging role of m-TOR up-regulation in brain Astrocytoma.

Author

Ryskalin L, Limanaqi F, Biagioni F, Frati A, Esposito V, Calierno MT, Lenzi P, and Fornai F

Subjects

Humans, Up-Regulation, Astrocytoma metabolism, Brain Neoplasms metabolism, TOR Serine-Threonine Kinases metabolism

Abstract

The present manuscript is an overview of various effects of mTOR up-regulation in astrocytoma with an emphasis on its deleterious effects on the proliferation of Glioblastoma Multiforme. The manuscript reports consistent evidence indicating the occurrence of mTOR up-regulation both in experimental and human astrocytoma. The grading of human astrocytoma is discussed in relationship with mTOR up-regulation. In the second part of the manuscript, the biochemical pathways under the influence of mTOR are translated to cell phenotypes which are generated by mTOR up-regulation and reverted by its inhibition. A special section is dedicated to the prominent role of autophagy in mediating the effects of mTOR in glioblastoma. In detail, autophagy inhibition produced by mTOR up-regulation determines the fate of cancer stem cells. On the other hand, biochemical findings disclose the remarkable effects of autophagy activators as powerful inducers of cell differentiation with a strong prevalence towards neuronal phenotypes. Thus, mTOR modulation acts on the neurobiology of glioblastoma just like it operates in vivo at the level of brain stem cell niches by altering autophagy-dependent cell differentiation. In the light of such a critical role of autophagy we analyzed the ubiquitin proteasome system. The merging between autophagy and proteasome generates a novel organelle, named autophagoproteasome which is strongly induced by mTOR inhibitors in glioblastoma cells. Remarkably, when mTOR is maximally inhibited the proteasome component selectively moves within autophagy vacuoles, thus making the proteasome activity dependent on the entry within autophagy compartment.

Published

2017

7. Antitumour and antiangiogenic activities of [Pt(O,O'-acac)(γ-acac)(DMS)] in a xenograft model of human renal cell carcinoma.

Author

Muscella A, Vetrugno C, Biagioni F, Calabriso N, Calierno MT, Fornai F, De Pascali SA, Marsigliante S, and Fanizzi FP

Subjects

Angiogenesis Inhibitors chemical synthesis, Angiogenesis Inhibitors chemistry, Animals, Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Carcinoma, Renal Cell pathology, Cell Proliferation drug effects, Cell Survival drug effects, Dose-Response Relationship, Drug, Humans, Kidney Neoplasms pathology, Mice, Mice, Inbred BALB C, Mice, Nude, Neoplasms, Experimental drug therapy, Neoplasms, Experimental pathology, Organoplatinum Compounds chemical synthesis, Organoplatinum Compounds chemistry, Structure-Activity Relationship, Tumor Cells, Cultured, Angiogenesis Inhibitors pharmacology, Antineoplastic Agents pharmacology, Carcinoma, Renal Cell drug therapy, Kidney Neoplasms drug therapy, Organoplatinum Compounds pharmacology, Xenograft Model Antitumor Assays

Abstract

Background and Purpose: It is thought that the mechanism of action of anticancer chemotherapeutic agents is mainly due to a direct inhibition of tumour cell proliferation. In tumour specimens, the endothelial cell proliferation rate increases, suggesting that the therapeutic effects of anticancer agents could also be attributed to inhibition of tumour angiogenesis. Hence, we investigated the potential effects of [Pt(O,O'-acac)(γ-acac)(DMS)] ([Pt(DMS)]), a new platinum drug for non-genomic targets, on human renal carcinoma and compared them with those of the well-established anticancer drug, cisplatin., Experimental Approach: Tumour growth, tumour cell proliferation and microvessel density were investigated in a xenograft model of renal cell carcinoma, developed by injecting Caki-1 cells into BALB/c nude mice. The antiangiogenic potential of compounds was also investigated using HUVECs., Key Results: Treatment of the Caki-1 cells with cisplatin or [Pt(DMS)] resulted in a dose-dependent inhibition of cell survival, but the cytotoxicity of [Pt(DMS)] was approximately fivefold greater than that of cisplatin. [Pt(DMS)] was much more effective than cisplatin at inhibiting tumour growth, proliferation and angiogenesis in vivo, as well as migration, tube formation and MMP1, MMP2 and MMP9 secretion of endothelial cells in vitro. Whereas, cisplatin exerted a greater cytotoxic effect on HUVECs, but did not affect tube formation or the migration of endothelial cells. In addition, treatment of the xenograft mice with [Pt(DMS)] decreased VEGF, MMP1 and MMP2 expressions in tumours., Conclusions and Implications: The antiangiogenic and antitumour activities of [Pt(DMS)] provide a solid starting point for its validation as a suitable candidate for further pharmacological testing., (© 2016 The British Pharmacological Society.)

Published

2016

8. Novel aspects of striatal plasticity associated with long-term levo-dopa administration.

Author

Busceti CL, Biagioni F, Calierno MT, Nicoletti F, Ruggieri S, and Fornai F

Abstract

"Striatal plasticity" is a term describing a variety of morphological and functional changes occurring both at pre- and post-synaptic level within the basal ganglia. In most cases striatal plasticity occurs when a loss of dopamine (DA) fibers in the striatum, in the course of Parkinsonism takes place. Plastic events include early pre-synaptic and long-term post-synaptic changes. In the context of long-term changes associated with striatal plasticity the role of intrinsic striatal catecholamine cells is emerging. This neuronal population expresses both tyrosine hydroxylase (TH) and DA transporter (DAT). These TH-positive cells are normally resident within the human caudate putamen but they dramatically increase during parkinsonism reaching an amount roughly corresponding to 50% of nigrostriatal neurons counted in control brains. This evidence led to hypothesize fascinating mechanisms bridging these neurons either with compensatory changes or the onset of aberrant behavioral activity. Very recently  the occurrence of these neurons was described during DA replacement therapy in parkinsonism, thus suggesting that these cells may represent the anatomical basis for plastic phenomena.  Thus, the present article, in the attempt to describe novel mechanisms generating striatal plasticity, details these cells in development and adult life and their potential role in maturation phenomena occurring in parkinsonism.

Published

2013