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Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
by Bianchi, Laura , Rolando, Barbara , Granata, Agnese , Carini, Marina , Andolfo, Annapaola , Arnaboldi, Lorenzo , Sinelli, Matteo , Corsini, Alberto , Fruttero, Roberta , Lazzarato, Loretta , Lombardi, Matteo
in Angina pectoris / Apoptosis / Atherosclerosis / Cell growth / Cell Proliferation / Cells, Cultured / Cellular proteins / Chemokines / Cytokines / Endothelial Cells - metabolism / Endothelium / Enzymes / Free radicals / furoxans / Genotype & phenotype / Growth factors / Inflammation / Kinases / Leukocytes / Lipids / Muscle, Smooth, Vascular / Myocytes, Smooth Muscle / Nitric oxide / Nitric Oxide - metabolism / Nitric Oxide Donors - metabolism / Nitric Oxide Donors - pharmacology / Nitrogen dioxide / Oxidation / Peptides / Physiology / Polyamines / Proteins / Proteomics / small ubiquitin-related modifier 1 / Smooth muscle / smooth muscle cell proliferation
2023
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Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
by Bianchi, Laura , Rolando, Barbara , Granata, Agnese , Carini, Marina , Andolfo, Annapaola , Arnaboldi, Lorenzo , Sinelli, Matteo , Corsini, Alberto , Fruttero, Roberta , Lazzarato, Loretta , Lombardi, Matteo
in Angina pectoris / Apoptosis / Atherosclerosis / Cell growth / Cell Proliferation / Cells, Cultured / Cellular proteins / Chemokines / Cytokines / Endothelial Cells - metabolism / Endothelium / Enzymes / Free radicals / furoxans / Genotype & phenotype / Growth factors / Inflammation / Kinases / Leukocytes / Lipids / Muscle, Smooth, Vascular / Myocytes, Smooth Muscle / Nitric oxide / Nitric Oxide - metabolism / Nitric Oxide Donors - metabolism / Nitric Oxide Donors - pharmacology / Nitrogen dioxide / Oxidation / Peptides / Physiology / Polyamines / Proteins / Proteomics / small ubiquitin-related modifier 1 / Smooth muscle / smooth muscle cell proliferation
2023
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Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
by Bianchi, Laura , Rolando, Barbara , Granata, Agnese , Carini, Marina , Andolfo, Annapaola , Arnaboldi, Lorenzo , Sinelli, Matteo , Corsini, Alberto , Fruttero, Roberta , Lazzarato, Loretta , Lombardi, Matteo
in Angina pectoris / Apoptosis / Atherosclerosis / Cell growth / Cell Proliferation / Cells, Cultured / Cellular proteins / Chemokines / Cytokines / Endothelial Cells - metabolism / Endothelium / Enzymes / Free radicals / furoxans / Genotype & phenotype / Growth factors / Inflammation / Kinases / Leukocytes / Lipids / Muscle, Smooth, Vascular / Myocytes, Smooth Muscle / Nitric oxide / Nitric Oxide - metabolism / Nitric Oxide Donors - metabolism / Nitric Oxide Donors - pharmacology / Nitrogen dioxide / Oxidation / Peptides / Physiology / Polyamines / Proteins / Proteomics / small ubiquitin-related modifier 1 / Smooth muscle / smooth muscle cell proliferation
2023

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Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms
Journal Article

Proteomics Studies Suggest That Nitric Oxide Donor Furoxans Inhibit In Vitro Vascular Smooth Muscle Cell Proliferation by Nitric Oxide-Independent Mechanisms

Bianchi, Laura,
Rolando, Barbara,
Granata, Agnese,
Carini, Marina,
Andolfo, Annapaola,
Arnaboldi, Lorenzo,
Sinelli, Matteo,
Corsini, Alberto,
Fruttero, Roberta,
Lazzarato, Loretta,
Lombardi, Matteo
2023
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Overview
Physiologically, smooth muscle cells (SMC) and nitric oxide (NO) produced by endothelial cells strictly cooperate to maintain vasal homeostasis. In atherosclerosis, where this equilibrium is altered, molecules providing exogenous NO and able to inhibit SMC proliferation may represent valuable antiatherosclerotic agents. Searching for dual antiproliferative and NO-donor molecules, we found that furoxans significantly decreased SMC proliferation in vitro, albeit with different potencies. We therefore assessed whether this property is dependent on their thiol-induced ring opening. Indeed, while furazans (analogues unable to release NO) are not effective, furoxans’ inhibitory potency parallels with the electron-attractor capacity of the group in 3 of the ring, making this effect tunable. To demonstrate whether their specific block on G1-S phase could be NO-dependent, we supplemented SMCs with furoxans and inhibitors of GMP- and/or of the polyamine pathway, which regulate NO-induced SMC proliferation, but they failed in preventing the antiproliferative effect. To find the real mechanism of this property, our proteomics studies revealed that eleven cellular proteins (with SUMO1 being central) and networks involved in cell homeostasis/proliferation are modulated by furoxans, probably by interaction with adducts generated after degradation. Altogether, thanks to their dual effect and pharmacological flexibility, furoxans may be evaluated in the future as antiatherosclerotic molecules.
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MDPI AG,MDPI
Subject

Angina pectoris

/ Apoptosis

/ Atherosclerosis

/ Cell growth

/ Cell Proliferation

/ Cells, Cultured

/ Cellular proteins

/ Chemokines

/ Cytokines

/ Endothelial Cells - metabolism

/ Endothelium

/ Enzymes

/ Free radicals

/ furoxans

/ Genotype & phenotype

/ Growth factors

/ Inflammation

/ Kinases

/ Leukocytes

/ Lipids

/ Muscle, Smooth, Vascular

/ Myocytes, Smooth Muscle

/ Nitric oxide

/ Nitric Oxide - metabolism

/ Nitric Oxide Donors - metabolism

/ Nitric Oxide Donors - pharmacology

/ Nitrogen dioxide

/ Oxidation

/ Peptides

/ Physiology

/ Polyamines

/ Proteins

/ Proteomics

/ small ubiquitin-related modifier 1

/ Smooth muscle

/ smooth muscle cell proliferation

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