Giovanni Grassi scite author profile

The paper reviews the network of cellular signaling pathways activated by Functional Graphene Nanomaterials (FGN) designed as a platform for multi-targeted therapy or scaffold in tissue engineering. Cells communicate with each other through a molecular device called signalosome. It is a transient co-cluster of signal transducers and transmembrane receptors activated following the binding of transmembrane receptors to extracellular signals. Signalosomes are thus efficient and sensitive signal-responding devices that amplify incoming signals and convert them into robust responses that can be relayed from the plasma membrane to the nucleus or other target sites within the cell. The review describes the state-of-the-art biomedical applications of FGN focusing the attention on the cell/FGN interactions and signalosome activation.

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Continuous water adsorption states promoted by Ni 2+ confined in a synthetic smectite

Altoé

Michels

Santos

et al. 2016

Applied Clay Science

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First synthesis of a bromonitrilimine. Direct formation of 3-bromopyrazole derivatives

Foti

Grassi

Risitano

1999

Tetrahedron Letters

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Recent Advances in Carbon Nanotubes as Delivery Systems for Anticancer Drugs

Iannazzo¹,

Piperno²,

Pistone³

et al. 2013

CMC

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Problems associated with the administration of anticancer drugs, such as limited solubility, poor biodistribution,lack of selectivity, and healthy tissue damage, can be overcome by the implementation of drug delivery systems. A wide range of materials, including liposomes, microspheres, polymers and recently, carbon nanotubes (CNTs), have been investigated for delivering anticancer drugs on the purpose of reducing the number of necessary administrations, providing more localized and better use of the active agents, and increasing patient compliance. Carbon nanotubes (CNTs) have attracted particular attention as carriers of biologically relevant molecules due to their unique physical, chemical and physiological properties. The exact relationship between the physical-chemical properties of carbon nanotubes, their cell to-cell interactions, reactivity, and biological/systemic consequences are relevant issues and it is important to know suchinter-relationships beforehand to employ the benefits of these nanomaterials without the hazardous consequences. The purpose of this review is to present highlight of recent developments in the application of carbon nanotubes as cargoes for anti cancer drugs and in the diagnosis of cancer diseases.

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Giovanni Grassi

A facile and ecofriendly functionalization of multiwalled carbon nanotubes by an old mesoionic compound

Repurposing of oxazolone chemistry: gaining access to functionalized graphene nanosheets in a top-down approach from graphite

Targeting of the Leishmania mexicana cysteine protease CPB2.8ΔCTE by decorated fused benzo[b]thiophene scaffold

Intracellular trafficking and therapeutic outcome of multiwalled carbon nanotubes modified with cyclodextrins and polyethylenimine

Cellular Signaling Pathways Activated by Functional Graphene Nanomaterials

Continuous water adsorption states promoted by Ni 2+ confined in a synthetic smectite

First synthesis of a bromonitrilimine. Direct formation of 3-bromopyrazole derivatives

Recent Advances in Carbon Nanotubes as Delivery Systems for Anticancer Drugs

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