Valeria Maria Piccolini

Mitochondrial fusion: A mechanism of cisplatin-induced resistance in neuroblastoma cells?

Cisplatin induces apoptosis through different pathways. The intrinsic apoptotic pathway is mediated by mitochondria, which, as a result of cisplatin treatment, undergo morphological alterations. The aim of this study was to investigate cisplatin-induced mitochondrial functional and morphological long-term effects in neuroblastoma B50 rat cells. To this purpose, we followed evaluated different several apoptotic markers by means of flow cytometry, confocal and electron microscopy and western blotting techniques. We applied different treatment protocols based on the incubation of the neuroblastoma B50 rat cells with 40 μM cisplatin: (i) for 48 h and harvesting of the cells at the end of the treatment; (ii) further recovery in drug-free medium for 7 days post-treatment; (iii) conditions as in (ii) followed by re-seeding in normal medium and growth for a further 4 days. We observed apoptosis induction after the first treatment and after the recovery from cell death after long-term culture in drug-free medium. Interestingly, the latter phenomenon was characterized by mitochondrial elongation and mitochondrial protein rearrangement. In recovered and re-seeded cells, mitochondrial equilibrium moved toward fusion, possibly protecting cells from apoptosis.

Developing Central Nervous System and Vulnerability to Platinum Compounds

Comparative studies on the effects of the platinum complexes in use or in clinical trials are carried out in order to discover differences in the neurotoxic potential and the reversibility of neurotoxicity. In this paper, we summarized the current literature on neurotoxicity and chemoresistance of cisplatin (cisPt) and discussed our recent efforts on the interference of cisPt and a new platinum compound [Pt(O,O′-acac)(γ-acac)(DMS)] (PtAcacDMS), with high specific reactivity with sulphur ligands instead of nucleobases as cisPt, on some crucial events of rat postnatal cerebellum development. The acute effects of drug treatments on cell proliferation and death in the external granular layer and granule cell migration and the late effects on the dendrite growth of Purkinje cells were evaluated. Together with the demonstrated antineoplastic effectiveness in vitro, compared with cisPt, data suggest a lower neurotoxicity of PtAcacDMS, in spite of its presence in the brain that involves considerations on the blood brain barrier permeability.

Postnatal development of the central nervous system: Anomalies in the formation of cerebellum fissures

A natural defect in rat cerebellum postnatal development has been found in the fissura prima, consisting in various complex configurations of the cerebellar layers. We investigated the genesis of fissure malformations through immunoreactions for PCNA, GFAP, GABAA α6, and calbindin to label proliferating cells of the external granular layer (egl), radial glial fibers, mature granule cells, and Purkinje cells, respectively. Results on critical stages of rat postnatal development provided interesting evidences on how the malformation develops in fissures prima and secunda. Early (postnatal day 10) at the site of malformation, the Bergmann radial glia was often retracted and showed distortions and irregular running. The interruption of GFAP‐positive radial glial fibers could fit in with the presence of clusters of PCNA‐unlabeled cells in the sites of fusion of the egl; the clusters of cells are granule cells since their soma is labeled by GABAA α6. Moreover, an altered migration of granule cell precursors to the internal granular layer was evident which, in turn, affected Purkinje cell differentiation and the growth of their dendrites. In summary, the changed relationship among glial fiber morphology, granule cell migration, and Purkinje cell differentiation suggests how the Bergmann glial fibers have a basic role in the foliation process, being the driving physical force in directing migration of the granule cells at the base of fissure. Anat Rec, 2010.

Integrated Autofluorescence Characterization of a Modified-Diet Liver Model with Accumulation of Lipids and Oxidative Stress

Oxidative stress in fatty livers is mainly generated by impaired mitochondrial β-oxidation, inducing tissue damages and disease progression. Under suitable excitation, light liver endogenous fluorophores can give rise to autofluorescence (AF) emission, the properties of which depend on the organ morphofunctional state. In this work, we characterized the AF properties of a rat liver model of lipid accumulation and oxidative stress, induced by a 1–9-week hypercaloric methionine-choline deficient (MCD) diet administration. The AF analysis (excitation at 366 nm) was performed in vivo, via fiber optic probe, or ex vivo. The contribution of endogenous fluorophores involved in redox reactions and in tissue organization was estimated through spectral curve fitting analysis, and AF results were validated by means of different histochemical and biochemical assays (lipids, collagen, vitamin A, ROS, peroxidised proteins, and lipid peroxidation -TBARS-, GSH, and ATP). In comparison with the control, AF spectra changes found already at 1 week of MCD diet reflect alterations both in tissue composition and organization (proteins, lipopigments, and vitamin A) and in oxidoreductive pathway engagement (NAD(P)H, flavins), with a subsequent attempt to recover redox homeostasis. These data confirm the AF analysis potential to provide a comprehensive diagnostic information on negative effects of oxidative metabolism alteration.

Platinum drugs and neurotoxicity: effects on intracellular calcium homeostasis

Abstract[Pt(O,O′-acac)(γ-acac)(DMS)] (PtAcacDMS) is a new platinum compound showing low reactivity with nucleobases and specific reactivity with sulfur ligands intracellularly. It induces apoptosis in breast cancer cells, but appears to be less neurotoxic to the developing cerebellum than cisplatin (cisPt). The aim of this study was to assess the neurotoxicity of platinum compounds on calcium homeostasis in the dentate gyrus and Cornu Ammonis regions of the hippocampal formation during rat postnatal development. Two intracellular calcium homeostasis systems were taken for measurement, calbindin, a calcium buffer protein, and a plasma membrane calcium ATPase (PMCA1). The platinum compounds showed different effects on these markers in the two areas. One day after injection (PD11), cisPt decreased calbindin immunoreactivity and PMCA1 labeling in both regions; at PD17, the downregulation of PMCA1 persisted. Instead, PtAcacDMS produced varying effects on calbindin immunoreactivity in the two regions at PD11 and PD17; but in all cases, the changes incurred in calbindin immunoreactivity were counterbalanced by changes produced in PMCA1 expression. In conclusion, PtAcacDMS seems to affect calcium homeostasis in the central nervous system differently than cisPt. Both the platinum compounds act early to alter the calbindin buffering system. However, the most important difference between cisPt and PtAcacDMS is that, in vivo, the latter acts early to stimulate calcium efflux from nerve cells as reflected by its effect on PMCA1. The rapid onset of an activated calcium pump appears to be essential to cope with the excessive intracellular calcium concentration stemming from the downregulation of calbindin which could damage neuron function and morphology.

Fatty liver oxidative events monitored by autofluorescence optical diagnosis: Comparison between subnormothermic machine perfusion and conventional cold storage preservation

Livers with moderate steatosis are currently recruited as marginal organs to face donor shortage in transplantation, even though lipid excess and oxidative stress increase preservation injury risk. Sensitive, real‐time detection of liver metabolism engagement could help donor selection and preservation procedures, ameliorating the graft outcome. Hence, we investigated endogenous biomolecules with autofluorescence (AF) properties as biomarkers supporting the detection of liver oxidative events and the assessment of metabolic responses to external stimuli.

Autofluorescence of liver tissue and bile: organ functionality monitoring during ischemia and reoxygenation.

Autofluorescence (AF) based optical biopsy of liver tissue is a powerful approach for the real‐time diagnosis of its functionality. Since increasing attention is given to the bile production and composition to monitor the liver metabolic engagement in surgery and transplantation, we have investigated the bile AF properties as a potential, additional diagnostic parameter.

Interactions of neurotransmitter systems during postnatal development of the rat hippocampal formation: Effects of cisplatin

The distribution of neuroimmunohistochemical markers for the serotoninergic, noradrenergic, glutamatergic and GABAergic systems (respectively, 5HT(2A)R, β1AR, GluR 2/3 and GAD65/67) was determined in the hippocampal formation at stages PD11, PD17 and PD30 of postnatal development of untreated rats and cisplatin-treated rats after a single injection of the drug at 10days of life. In the different time points the neurons of the dentate gyrus and Cornu Ammonis progressively acquire mature morphological characteristics, and cell genesis, migration of interneurons and differentiation of mossy cells occur. Cisplatin induced decrease in immunoreactivity for most of the selected neurotransmitter markers, thereby altering the postnatal development of circuits in the hippocampal formation. Cisplatin also brought out clear evidence for an interaction between excitatory and inhibitory neurotransmitter markers during the postnatal maturation of cells and fiber projections containing GluR2/3 and GAD65, despite the fact that glutamatergic neurons and GABAergic interneurons are divergent in their source of genesis and in their mode of migration. In fact, GluR2/3 immunofluorescence was increased in the principal cells early, at PD11, possibly to reduce the calcium influx into the cell. Moreover, cisplatin might cause a loss of GABAergic interneurons early and reduction of fiber projections to hippocampal layers due to altered cell migration or to cell injury; late changes, particularly in GAD67 cell number in the dentate gyrus did not result in redistribution or recovery in treated rats. With the use of cisplatin it has been demonstrated here for the first time that the critical differentiation of dentate gyrus hilar β1AR and GluR2/3 mossy cells takes place between PD11 and PD17. Changes in neurotransmitter marker immunopositivity occurred subsequently to cytoarchitectural changes in the dentate gyrus and Cornu Ammonis which were already evident one day after cisplatin injection, suggesting that degeneration and cell loss may have occurred. Cisplatin was found to be a useful tool for following CNS development and for understanding how hippocampal neuronal networks react to injury. Furthermore, cisplatin-induced neurotoxicity may be used to reveal useful information on the genesis, migration and distribution, and differentiation of distinct types of hippocampal neurons.

Cisplatin induces changes in the matrix metalloproteinases and their inhibitors in the developing rat cerebellum.

The role of matrix metalloproteinases (MMP-3 and MMP-9), tissue inhibitor of MMP (TIMP-2), and GAP-43 (growth-associated-protein) in neocerebellar vermis lobules during postnatal histogenesis was studied after challenge with cisplatin (cisPt). CisPt is one of the most effective and widely used cytotoxic agents in the treatment of a variety of malignancies, in both children and adult patients. A single injection of cisPt to 10-day-old rats altered the spatiotemporal MMP/TIMP expression balance and provoked a decrease in GAP43 immunoreactivity. The imbalance appeared one day (PD11) after cisPt injection, producing disorder of cerebellum histogenesis processes in which MMPs might be involved, i.e. genesis of granule cells, Purkinje cell differentiation and synaptogenesis. Following the early injury, a simultaneous increase in MMP and TIMP expression in the ML was noticed at PD17, likely initiating recovery of Purkinje cell dendrite growth and remodelling processes. However, disturbances at the beginning of recovery phase had emerged, probably due to the down-regulation of GAP-43 after cisPt treatment. The data provide further support for the usefulness of cisPt as a tool for the study of morphological and functional changes in the CNS during postnatal development.

[Pt(O,O'-acac)(γ-acac)(DMS)] versus cisplatin: apoptotic effects in B50 neuroblastoma cells.

AbstractCisplatin is one of the most active chemotherapeutic agents used in the treatment of childhood and adult malignancies. Cisplatin induces cell death through different pathways. Despite its effectiveness, the continued clinical use of cisplatin is limited by onset of severe side effects (nephrotoxicity, ototoxicity and neurotoxicity) and drug resistance. Therefore, one of the main experimental oncology purpose is related to the search for new platinum-based drugs to create different types of adducts or more specific and effective subcellular targets. Thus, [Pt(O,O′-acac)(γ-acac)(DMS)], which reacts preferentially with protein thiols or thioether, was synthesized. In our research, different approaches were used to compare cisplatin and [Pt(O,O′-acac)(γ-acac)(DMS)] effects in B50 rat neuroblastoma cells. Our results, using immunocytochemical, cytometric and morphological techniques, showed that these compounds exert a cytostatic action and activate apoptosis with different pathways. Long-term effects demonstrated that [Pt(O,O′-acac)(γ-acac)(DMS)] exerts cytotoxic effects in neuronal B50 cell line not inducing drug resistance. Analysis was performed both to compare the ability of these platinum compounds to induce cell death and to investigate the intracellular mechanisms at the basis of their cytotoxicity.