Adriana Oliva scite author profile

A wealth of evidence correlates the chemopreventive activity of a fiber-rich diet with the production of butyrate. In order to identify the genes transcriptionally modulated by the molecule, we analyzed the expression profile of butyrate-treated colon cancer cells by means of cDNA expression arrays. Moreover, the effect of trichostatin A, a specific histone deacetylase inhibitor, was studied. A superimposable group of 23 genes out of 588 investigated is modulated by both butyrate and trichostatin A. Among them, a major target was tob-1, a gene involved in the control of cell cycle. tob-1 is also upregulated by butyrate in a neuroblastoma-derived cell line, and its overexpression in the colon cells caused growth arrest. Our findings represent an extensive analysis of genes modulated by butyrate and identify completely new effectors of its biological activities. ß 2001 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.

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Development of hybrid materials based on hydroxyethylmethacrylate as supports for improving cell adhesion and proliferation

Schiraldi

et al. 2004

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Resveratrol: From Basic Science to the Clinic

Cucciolla¹,

Borriello²,

Oliva³

et al. 2007

Cell Cycle

153

100

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Plants produce an extraordinary array of low molecular mass natural products endowed with biological activity. Among these molecules, resveratrol (3,5,4'-trihydroxystilbene) has been identified as an inhibitor of carcinogenesis with a pleiotropic mode of action. Extensive literature on its anticancer activity, performed in cellular models, suggests a potential antiproliferative and apoptogenic use of the stilbene. Similarly, studies on implanted cancers and chemical-induced tumors confirm a potential chemotherapeutical interest of the compound. Moreover, recent intriguing studies have demonstrated, in mice, that the negative effects (insulin resistance and hyperglycemia) of a high-fat diet might be prevented by resveratrol treatment. Despite these promising observations, only few clinical trials have been performed on the compound due to the scarce interest of pharmaceutical industry. We suggest that resveratrol might be considered an interesting anticancer compound in association with more specific target-oriented drugs.

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p27Kip1 Metabolism: A Fascinating Labyrinth

Borriello¹,

Cucciolla²,

Oliva³

et al. 2007

Cell Cycle

100

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The progression through the phases of cell division cycle is regulated by different cyclins and cyclin-dependent kinases (CDKs) complexes. Due to their key function, the activity of cyclin/CDK complexes is controlled by several mechanisms, including the inhibition by a number of proteins collectively defined CDK inhibitors or CKIs. Among the CKIs, p27Kip1 represents a protein of central activity for the control of several phenotypes, including proliferation, differentiation and malignant transformation. p27Kip1 belongs to the growing family of "natively unfolded," "intrinsically disordered" or "intrinsically unstructured" proteins. The disorder proteins present a very large number of possible conformations that, after the binding, converge to a well-defined structure with an extraordinary affinity for the target. As matter of fact, the absence of a pre-existing folding strongly facilitates p27Kip1 interaction with a number of targets. Until recently, p27Kip1 has been solely viewed as a nuclear protein with the function of modulating cyclin-CDK activity and hence, cell cycle progression. However, exhaustive studies have now demonstrated that the protein plays additional roles outside of the nucleus, including, particularly, the control of cell motility. Thus, the cellular localization is of fundamental importance in p27Kip1 function. Accordingly, at least two different mechanisms of degradation, occurring either in the nucleus or in the cytosol, have been observed. Convincing evidences have demonstrated that p27Kip1 is a phosphoprotein showing at least six to eight phosphorylatable residues. However, the precise functional roles of the phosphorylations and the identification of the kinases responsible for the post-synthetic modifications are still debated. In this brief review, we will report the Literature data that connect the post-synthetic modifications of p27Kip1 with its function, localization and metabolism. The picture that emerges demonstrates that several of the pieces of the CKI metabolism are still nebulous.

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Alginate Hydrogels Coated with Chitosan for Wound Dressing

Straccia

d’Ayala

Romano³

et al. 2015

Marine Drugs

134

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In this work, a coating of chitosan onto alginate hydrogels was realized using the water-soluble hydrochloride form of chitosan (CH-Cl), with the dual purpose of imparting antibacterial activity and delaying the release of hydrophilic molecules from the alginate matrix. Alginate hydrogels with different calcium contents were prepared by the internal setting method and coated by immersion in a CH-Cl solution. Structural analysis by cryo-scanning electron microscopy was carried out to highlight morphological alterations due to the coating layer. Tests in vitro with human mesenchymal stromal cells (MSC) were assessed to check the absence of toxicity of CH-Cl. Swelling, stability in physiological solution and release characteristics using rhodamine B as the hydrophilic model drug were compared to those of relative uncoated hydrogels. Finally, antibacterial activity against Escherichia coli was tested. Results show that alginate hydrogels coated with chitosan hydrochloride described here can be proposed as a novel medicated dressing by associating intrinsic antimicrobial activity with improved sustained release characteristics.

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p57Kip2 and Cancer: Time for a Critical Appraisal

Borriello

Caldarelli

Bencivenga

et al. 2011

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p57Kip2 is a cyclin-dependent kinase inhibitor belonging to the Cip/Kip family, which also includes p21Cip1 and p27Kip1. So far, p57Kip2 is the least-studied Cip/Kip protein, and for a long time its relevance has been related mainly to its unique role in embryogenesis. Moreover, genetic and molecular studies on animal models and patients with Beckwith-Wiedemann syndrome have shown that alterations in CDKN1C (the p57Kip2 encoding gene) have functional relevance in the pathogenesis of this disease. Recently, a number of investigations have identified and characterized heretofore unexpected roles for p57Kip2. The protein appears to be critically involved in initial steps of cell and tissue differentiation, and particularly in neuronal development and erythropoiesis. Intriguingly, p27Kip1, the Cip/Kip member that is most homologous to p57Kip2, is primarily involved in the process of cell cycle exit. p57Kip2 also plays a critical role in controlling cytoskeletal organization and cell migration through its interaction with LIMK-1. Furthermore, p57Kip2 appears to modulate genome expression. Finally, accumulating evidence indicates that p57Kip2 protein is frequently downregulated in different types of human epithelial and nonepithelial cancers as a consequence of genetic and epigenetic events. In summary, the emerging picture is that several aspects of p57Kip2's functions are only poorly clarified. This review represents an appraisal of the data available on the p57Kip2 gene and protein structure, and its role in human physiology and pathology. We particularly focus our attention on p57Kip2 changes in cancers and pharmacological approaches for modulating p57Kip2 levels. Mol Cancer Res; 9(10); 1269–84. ©2011 AACR.

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p27Kip1 accumulation is associated with retinoic-induced neuroblastoma differentiation: evidence of a decreased proteasome-dependent degradation

et al. 2000

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Adriana Oliva

Seasonal patterns of arthropods occurring on sheltered and unsheltered pig carcasses in Buenos Aires Province (Argentina)

Genes modulated by histone acetylation as new effectors of butyrate activity

Development of hybrid materials based on hydroxyethylmethacrylate as supports for improving cell adhesion and proliferation

Resveratrol: From Basic Science to the Clinic

p27Kip1 Metabolism: A Fascinating Labyrinth

Alginate Hydrogels Coated with Chitosan for Wound Dressing

p57Kip2 and Cancer: Time for a Critical Appraisal

p27Kip1 accumulation is associated with retinoic-induced neuroblastoma differentiation: evidence of a decreased proteasome-dependent degradation

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