Lino Colombo scite author profile

The discovery of methods suitable for the conversion in vitro of native proteins into amyloid fibrils has shed light on the molecular basis of amyloidosis and has provided fundamental tools for drug discovery. We have studied the capacity of a small library of tetracycline analogues to modulate the formation or destructuration of ␤2-microglobulin fibrils. The inhibition of fibrillogenesis of the wild type protein was first established in the presence of 20% trifluoroethanol and confirmed under a more physiologic environment including heparin and collagen. The latter conditions were also used to study the highly amyloidogenic variant, P32G. The NMR analysis showed that doxycycline inhibits ␤2-microglobulin self-association and stabilizes the native-like species through fast exchange interactions involving specific regions of the protein.Cell viability assays demonstrated that the drug abolishes the natural cytotoxic activity of soluble ␤2-microglobulin, further strengthening a possible in vivo therapeutic exploitation of this drug. Doxycycline can disassemble preformed fibrils, but the IC 50 is 5-fold higher than that necessary for the inhibition of fibrillogenesis. Fibril destructuration is a dynamic and timedependent process characterized by the early formation of cytotoxic protein aggregates that, in a few hours, convert into non-toxic insoluble material. The efficacy of doxycycline as a drug against dialysis-related amyloidosis would benefit from the ability of the drug to accumulate just in the skeletal system where amyloid is formed. In these tissues, the doxycycline concentration reaches values several folds higher than those resulting in inhibition of amyloidogenesis and amyloid destructuration in vitro.Amyloidosis associated with long term hemodialysis results from the deposition of full-length ␤2-microglobulin (␤2-m) 2 and its N-terminal truncated species ⌬N6␤2m in target tissues (1, 2). Although all peripheral organs (but not the brain) can be potentially affected (3), the muscle-skeletal tissues are the preferential target always involved in this type of amyloidosis. Despite significant progress achieved in the hemodialysis techniques, including the increased biocompatibility and the active removal of circulating ␤2-m, the onset of this amyloidosis can be delayed but not avoided in dialysis-related amyloidosis patients (4). New therapeutic approaches, targeting the process of protein aggregation and promoting fibril solubilization (5), are under investigation for the treatment of different types of amyloid diseases. Up until now, different classes of structurally unrelated compounds have been investigated for their ability to interfere with protein self-aggregation and to weaken the intermolecular interactions that stabilize the fibrillar structure of the aggregates (6). Over 10 years ago, iododoxorubicin was serendipitously discovered as the prototype of a class of compounds able to inhibit protein aggregation (7), but this compound was subsequently abandoned for its toxicity. The resemblance of the ...

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Asymmetric synthesis of chiral organosulfur compounds using N-sulfinyloxazolidinones

Evans¹,

Faul²,

Colombo³

et al. 1992

J. Am. Chem. Soc.

170

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A small-molecule RGD-integrin antagonist inhibits cell adhesion, cell migration and induces anoikis in glioblastoma cells

Russo

Paolillo

Sanchez-Hernandez

et al. 2012

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In cancer cells integrins modulate important cellular events that regulate the metastasic cascade which involves detachment from the tumor mass, dissemination and attachment to the oncogenic niche. The α5β1, αvβ3 and αvβ5 integrins are widely expressed in different cancer types and recognize the tripeptide Arg-Gly-Asp (RGD) motif present in several extracellular matrix proteins. In human glioblastoma, αvβ3 integrin expression correlates with tumor grade, suggesting that this integrin may play a crucial role in the highly infiltrative behavior of high grade gliomas. However, few selective RGD-like antagonists have been developed and few studies have investigated their effects in in vitro models of human glioblastoma. In this study, we investigated several cellular effects and the underlying molecular mechanisms exerted by a new small-molecule RGD antagonist, 1a-RGD, in the U251 and U373 human glioblastoma cell lines. Treatment with 1a-RGD (20 μM) demonstrated a weak effect on cell viability and cell proliferation but strongly inhibited cell attachment and cell migration together with actin cytoskeleton disassembly. Prolonged 1a-RGD treatment (72 h) induced anoikis, assessed by Annexin staining and nucleosome assay, particularly in the detached cells. When integrin-linked transduction pathways were investigated, 1aRGD was found to exert a marked reduction in focal adhesion kinase (FAK) phosphorylation without affecting the AKT- and ERK-dependent pathways. Our data indicate that 1a-RGD, probably via modulation of the FAK-dependent pathway, inhibits cell migration and attachment and induces anoikis in glioblastoma cells. This novel finding suggests that the development of an RGD-like molecule may represent a promising tool for the pharmacological approach aimed at reducing the malignancy of glioblastoma cells.

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A Potent Integrin Antagonist from a Small Library of Cyclic RGD Pentapeptide Mimics Including Benzyl‐Substituted Azabicycloalkane Amino Acids

Belvisi

Colombo

Colombo³

et al. 2008

ChemMedChem

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A small library of cyclic RGD pentapeptide mimics, including benzyl-substituted azabicycloalkane amino acids, was synthesized with the aim of developing active and selective integrin antagonists. In vitro binding assays established one particular compound with affinity for both the alpha(v)beta(3) and the alpha(v)beta(5) integrins. The synthesis in solution and the in vitro screening of these RGD derivatives, as well as the determination of the conformational properties of the integrin ligands by spectroscopic and computational methods are described.

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Small Molecule Integrin Antagonists in Cancer Therapy

Paolillo¹,

Russo²,

Serra³

et al. 2009

MRMC

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Integrins are a large family of dimeric receptors composed by alpha and beta subunits that, once bound to extra-cellular matrix (ECM) proteins, regulate a variety of cellular processes such as cell motility, migration, and proliferation. The integrins transduce signals from inside-out and outside-in the cell, thus representing the cellular link to the external environment. For these properties, integrin activation has been involved in pathological processes like tumor growth and metastasis formation. Recent advances in the elucidation of the crystallographic structures of the alphavbeta3 and alphaIIbeta3 integrins are promoting studies focused to the search of small molecule antagonists that can block the integrin binding to ECM and inhibit the biological effects exerted by these receptors. In this review we will focus on small molecule antagonists of alphavbeta3 and alphavbeta5 integrin as tools for cancer therapy while other integrins will only be briefly mentioned. Cilengitide (cyclic peptidic alphavbeta3 and alphavbeta5 antagonist) is currently in clinical trials for anti cancer therapy. Combination of integrin alphavbeta3 antagonists and other traditional therapeutic approaches may represent a future strategy to inhibit tumor growth and metastasis spreading.

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Lino Colombo

Effect of Tetracyclines on the Dynamics of Formation and Destructuration of β2-Microglobulin Amyloid Fibrils

Asymmetric synthesis of chiral organosulfur compounds using N-sulfinyloxazolidinones

A small-molecule RGD-integrin antagonist inhibits cell adhesion, cell migration and induces anoikis in glioblastoma cells

A Potent Integrin Antagonist from a Small Library of Cyclic RGD Pentapeptide Mimics Including Benzyl‐Substituted Azabicycloalkane Amino Acids

Small Molecule Integrin Antagonists in Cancer Therapy

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