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1.
Front Immunol ; 12: 718098, 2021.
Article in English | MEDLINE | ID: mdl-34675917

ABSTRACT

Reactive oxygen species, including RNS, contribute to the control of multiple immune cell functions within the tumor microenvironment (TME). Tumor-infiltrating myeloid cells (TIMs) represent the archetype of tolerogenic cells that actively contribute to dismantle effective immunity against cancer. TIMs inhibit T cell functions and promote tumor progression by several mechanisms including the amplification of the oxidative/nitrosative stress within the TME. In tumors, TIM expansion and differentiation is regulated by the granulocyte-macrophage colony-stimulating factor (GM-CSF), which is produced by cancer and immune cells. Nevertheless, the role of GM-CSF in tumors has not yet been fully elucidated. In this study, we show that GM-CSF activity is significantly affected by RNS-triggered post-translational modifications. The nitration of a single tryptophan residue in the sequence of GM-CSF nourishes the expansion of highly immunosuppressive myeloid subsets in tumor-bearing hosts. Importantly, tumors from colorectal cancer patients express higher levels of nitrated tryptophan compared to non-neoplastic tissues. Collectively, our data identify a novel and selective target that can be exploited to remodel the TME and foster protective immunity against cancer.


Subject(s)
Granulocyte-Macrophage Colony-Stimulating Factor/metabolism , Myeloid-Derived Suppressor Cells/immunology , Myeloid-Derived Suppressor Cells/metabolism , Neoplasms/etiology , Neoplasms/metabolism , Protein Processing, Post-Translational , Animals , Biomarkers , Cell Differentiation , Cell Line, Tumor , Cytokines/metabolism , Disease Models, Animal , Disease Susceptibility , Immunomodulation , Mice , Neoplasms/pathology , Reactive Nitrogen Species/metabolism , Signal Transduction , Tumor Microenvironment/immunology
2.
World J Exp Med ; 5(2): 64-76, 2015 May 20.
Article in English | MEDLINE | ID: mdl-25992321

ABSTRACT

Over the last decades, nitric oxide (NO) has been definitively recognised as one of the key players involved in immunity and inflammation. NO generation was originally described in activated macrophages, which still represent the prototype of NO-producing cells. Notwithstanding, additional cell subsets belonging to both innate and adaptive immunity have been documented to sustain NO propagation by means of the enzymatic activity of different nitric oxide synthase isoforms. Furthermore, due to its chemical characteristics, NO could rapidly react with other free radicals to generate different reactive nitrogen species (RNS), which have been intriguingly associated with many pathological conditions. Nonetheless, the plethora of NO/RNS-mediated effects still remains extremely puzzling. The aim of this manuscript is to dig into the broad literature on the topic to provide intriguing insights on NO-mediated circuits within immune system. We analysed NO and RNS immunological clues arising from their biochemical properties, immunomodulatory activities and finally dealing with their impact on different pathological scenarios with far prompting intriguing perspectives for their pharmacological targeting.

3.
Oncotarget ; 6(12): 10161-74, 2015 Apr 30.
Article in English | MEDLINE | ID: mdl-25868859

ABSTRACT

Ionizing and nonionizing radiation affect not only directly targeted cells but also surrounding "bystander" cells. The underlying mechanisms and therapeutic role of bystander responses remain incompletely defined. Here we show that photosentizer activation in a single cell triggers apoptosis in bystander cancer cells, which are electrically coupled by gap junction channels and support the propagation of a Ca2+ wave initiated in the irradiated cell. The latter also acts as source of nitric oxide (NO) that diffuses to bystander cells, in which NO levels are further increased by a mechanism compatible with Ca(2+)-dependent enzymatic production. We detected similar signals in tumors grown in dorsal skinfold chambers applied to live mice. Pharmacological blockade of connexin channels significantly reduced the extent of apoptosis in bystander cells, consistent with a critical role played by intercellular communication, Ca2+ and NO in the bystander effects triggered by photodynamic therapy.


Subject(s)
Calcium/metabolism , Gap Junctions/metabolism , Nitric Oxide/metabolism , Photochemotherapy/methods , Animals , Apoptosis/physiology , Cell Communication , Connexins/metabolism , Humans , Mice , Signal Transduction
4.
BMC Biotechnol ; 8: 41, 2008 Apr 18.
Article in English | MEDLINE | ID: mdl-18423015

ABSTRACT

BACKGROUND: Due to its extremely high strength, the interaction between biotin and (strept)avidin has been exploited for a large number of biotechnological applications. Site-specific biotinylation of proteins in vivo can be achieved by co-expressing in mammalian cells the protein of interest fused to a 15 amino acid long Biotin Acceptor Peptide (BAP) and the bacterial biotin-protein ligase BirA, which specifically recognizes and attaches a biotin to the single lysine residue of the BAP sequence. However, this system is mainly based on the contemporaneous use of two different plasmids or on induction of expression of two proteins through an IRES-driven mechanism. RESULTS: We developed a single bigenic plasmid that contains two independent transcriptional units for the co-expression of both the protein tagged with BAP and an engineered version of the BirA enzyme. Upstream of the cDNA encoding BirA, a signal secretion leader sequence was added to allow translocation of the enzyme to the secretory pathway. Three different recombinant antibodies in the scFv format, a membrane bound and secretory truncated IgE Fc fragment and a soluble version of the human IgE high affinity receptor were shown to be efficiently biotinylated and to maintain their binding properties in immunofluorescence microscopy, flow cytometry and ELISA assays. CONCLUSION: The present study shows the universal applicability to both secretory and membrane bound proteins of a single bigenic plasmid to induce the site-specific in vivo biotinylation of target molecules tagged with a short acceptor peptide. These molecules could be easily obtained from supernatants or extracts of mammalian cells and used for a wide range of biological applications.


Subject(s)
Biotin/genetics , Biotin/metabolism , Biotinylation/methods , Genetic Vectors/genetics , Genetic Vectors/metabolism , Recombinant Fusion Proteins/genetics , Antibodies, Anti-Idiotypic/biosynthesis , Antibodies, Anti-Idiotypic/genetics , Artificial Gene Fusion/methods , Biological Transport/genetics , Carbon-Nitrogen Ligases/genetics , Cell Line , Escherichia coli/genetics , Escherichia coli/metabolism , Escherichia coli Proteins/biosynthesis , Escherichia coli Proteins/genetics , Gene Expression , Humans , Immunoglobulin E , Immunoglobulin Fc Fragments/biosynthesis , Immunoglobulin Fc Fragments/genetics , Protein Engineering/methods , Protein Sorting Signals/genetics , Receptors, IgE , Repressor Proteins/genetics , Transcription Factors
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