Maria Teresa Santini scite author profile

It is becoming more and more apparent that monolayer cultures of tumor cells cannot completely represent the characteristics of three-dimensional solid tumors. Consequently, the multicellular tumor spheroid model, which is of intermediate complexity between in vivo tumors and monolayer cultures, was developed. In this review, the major similarities between spheroids and solid tumors are discussed. After a brief survey of the different spheroid culturing techniques, the general morphological and growth characteristics of these systems are examined and compared to solid tumors. Finally, selected studies regarding the use of tumor spheroids to examine cell response to antineoplastic agents and radiation, cell death including both necrosis and apoptosis and cell adhesion in spheroids are reviewed.

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Apoptosis, cell adhesion and the extracellular matrix in the three-dimensional growth of multicellular tumor spheroids

Santini

2000

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Lipid raft disruption protects mature neurons against amyloid oligomer toxicity

Malchiodi-Albedi

Contrusciere

Raggi

et al. 2010

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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A specific neuronal vulnerability to amyloid protein toxicity may account for brain susceptibility to protein misfolding diseases. To investigate this issue, we compared the effects induced by oligomers from salmon calcitonin (sCTOs), a neurotoxic amyloid protein, on cells of different histogenesis: mature and immature primary hippocampal neurons, primary astrocytes, MG63 osteoblasts and NIH-3T3 fibroblasts. In mature neurons, sCTOs increased apoptosis and induced neuritic and synaptic damages similar to those caused by amyloid beta oligomers. Immature neurons and the other cell types showed no cytotoxicity. sCTOs caused cytosolic Ca(2+) rise in mature, but not in immature neurons and the other cell types. Comparison of plasma membrane lipid composition showed that mature neurons had the highest content in lipid rafts, suggesting a key role for them in neuronal vulnerability to sCTOs. Consistently, depletion in gangliosides protected against sCTO toxicity. We hypothesize that the high content in lipid rafts makes mature neurons especially vulnerable to amyloid proteins, as compared to other cell types; this may help explain why the brain is a target organ for amyloid-related diseases.

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Veratryl Alcohol Oxidase from Pleurotus ostreatus Participates in Lignin Biodegradation and Prevents Polymerization of Laccase-oxidized Substrates

Marzullo

Cannio

Giardina

et al. 1995

Journal of Biological Chemistry

132

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Oxidative enzymes (laccases and peroxidases) isolated from the culture media of different fungi are involved in the basic mechanism of ligninolysis via radical intermediates. However, experiments aimed at reproducing natural biodegradation in vitro have been unsuccessful so far since the single biocatalysts alone are not able to solubilize lignins because of the simultaneous recondensation of these intermediates. FAD oxidases can prevent this side reaction in lignin depolymerization by reducing quinonoids and radical compounds. This study investigates the possible role of a laccase and a FAD-dependent aryl alcohol oxidase (veratryl alcohol oxidase, VAO) excreted by the basidiomycete Pleurotus ostreatus. In fact, we found that VAO is able to reduce synthetic quinones, laccase-generated quinonoids, and phenoxy radicals with concomitant oxidation of veratryl alcohol to veratryl aldehyde. This cooperative action of laccase and VAO also prevented the polymerization of phenolic compounds and reduced the molecular weight of soluble lignosulfonates to a significant extent.

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