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2. Sphingolipid Synthesis Inhibition by Myriocin Administration Enhances Lipid Consumption and Ameliorates Lipid Response to Myocardial Ischemia Reperfusion Injury

Author

Fabiola Bonezzi, Marco Piccoli, Michele Dei Cas, Rita Paroni, Alessandra Mingione, Michelle M. Monasky, Anna Caretti, Chiara Riganti, Riccardo Ghidoni, Carlo Pappone, Luigi Anastasia, and Paola Signorelli

Subjects
sphingolipids, ceramide, myriocin, ischemia, reperfusion, metabolism, Physiology, QP1-981
Abstract

Myocardial infarct requires prompt thrombolytic therapy or primary percutaneous coronary intervention to limit the extent of necrosis, but reperfusion creates additional damage. Along with reperfusion, a maladaptive remodeling phase might occur and it is often associated with inflammation, oxidative stress, as well as a reduced ability to recover metabolism homeostasis. Infarcted individuals can exhibit reduced lipid turnover and their accumulation in cardiomyocytes, which is linked to a deregulation of peroxisome proliferator activated receptors (PPARs), controlling fatty acids metabolism, energy production, and the anti-inflammatory response. We previously demonstrated that Myriocin can be effectively used as post-conditioning therapeutic to limit ischemia/reperfusion-induced inflammation, oxidative stress, and infarct size, in a murine model. In this follow-up study, we demonstrate that Myriocin has a critical regulatory role in cardiac remodeling and energy production, by up-regulating the transcriptional factor EB, PPARs nuclear receptors and genes involved in fatty acids metabolism, such as VLDL receptor, Fatp1, CD36, Fabp3, Cpts, and mitochondrial FA dehydrogenases. The overall effects are represented by an increased β–oxidation, together with an improved electron transport chain and energy production. The potent immunomodulatory and metabolism regulatory effects of Myriocin elicit the molecule as a promising pharmacological tool for post-conditioning therapy of myocardial ischemia/reperfusion injury.

Published
2019
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3. An Important Role for N-Acylethanolamine Acid Amidase in the Complete Freunds Adjuvant Rat Model of Arthritis

Author

Fabiola Bonezzi, Oscar Sasso, Silvia Pontis, Natalia Realini, Fabio Bertozzi, Daniele Piomelli, Stefano Ponzano, Andrea Nuzzi, Annalisa Fiasella, and Elisa Romeo

Subjects
Male, 0301 basic medicine, Freund's Adjuvant, Arthritis, Endogeny, Pharmacology, Amidohydrolases, Amidase, Rats, Sprague-Dawley, 03 medical and health sciences, Oleoylethanolamide, chemistry.chemical_compound, Western blot, medicine, Animals, Enzyme Inhibitors, Palmitoylethanolamide, medicine.diagnostic_test, biology, medicine.disease, Arthritis, Experimental, Enzyme assay, Rats, 030104 developmental biology, chemistry, Biochemistry, biology.protein, Molecular Medicine, Ex vivo
Abstract

The endogenous lipid amides, palmitoylethanolamide (PEA) and oleoylethanolamide (OEA), exert marked antinociceptive and anti-inflammatory effects in animal models by engaging nuclear peroxisome proliferator-activated receptor-α. PEA and OEA are produced by macrophages and other host-defense cells and are deactivated by the cysteine amidase, N-acylethanolamine acid amidase (NAAA), which is highly expressed in macrophages and B-lymphocytes. In the present study, we examined whether a) NAAA might be involved in the inflammatory reaction triggered by injection of complete Freund's adjuvant (CFA) into the rat paw and b) administration of 4-cyclohexylbutyl-N-[(S)-2-oxoazetidin-3-yl]-carbamate (ARN726), a novel systemically active NAAA inhibitor, attenuates such reaction. Injection of CFA into the paw produced local edema and heat hyperalgesia, which were accompanied by decreased PEA and OEA content (assessed by liquid chromatography/mass spectrometry) and increased NAAA levels (assessed by Western blot and ex vivo enzyme activity measurements) in paw tissue. Administration of undec-10-ynyl-N-[(3S)-2-oxoazetidin-3-yl] carbamate (ARN14686), a NAAA-preferring activity-based probe, revealed that NAAA was catalytically active in CFA-treated paws. Administration of ARN726 reduced NAAA activity and restored PEA and OEA levels in inflamed tissues, and significantly decreased CFA-induced inflammatory symptoms, including pus production and myeloperoxidase activity. The results confirm the usefulness of ARN726 as a probe to investigate the functions of NAAA in health and disease and suggest that this enzyme may provide a new molecular target for the treatment of arthritis.

Published
2016
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4. Preparation and In Vivo Use of an Activity-based Probe for N-acylethanolamine Acid Amidase

Author

Elisa, Romeo, Silvia, Pontis, Stefano, Ponzano, Fabiola, Bonezzi, Marco, Migliore, Simona, Di Martino, Maria, Summa, and Daniele, Piomelli

Subjects
Inflammation, B-Lymphocytes, Macrophages, Animals, Humans, Biosensing Techniques, Biochemistry, Amidohydrolases, Enzyme Assays
Abstract

Activity-based protein profiling (ABPP) is a method for the identification of an enzyme of interest in a complex proteome through the use of a chemical probe that targets the enzyme's active sites. A reporter tag introduced into the probe allows for the detection of the labeled enzyme by in-gel fluorescence scanning, protein blot, fluorescence microscopy, or liquid chromatography-mass spectrometry. Here, we describe the preparation and use of the compound ARN14686, a click chemistry activity-based probe (CC-ABP) that selectively recognizes the enzyme N-acylethanolamine acid amidase (NAAA). NAAA is a cysteine hydrolase that promotes inflammation by deactivating endogenous peroxisome proliferator-activated receptor (PPAR)-alpha agonists such as palmitoylethanolamide (PEA) and oleoylethanolamide (OEA). NAAA is synthesized as an inactive full-length proenzyme, which is activated by autoproteolysis in the acidic pH of the lysosome. Localization studies have shown that NAAA is predominantly expressed in macrophages and other monocyte-derived cells, as well as in B-lymphocytes. We provide examples of how ARN14686 can be used to detect and quantify active NAAA ex vivo in rodent tissues by protein blot and fluorescence microscopy.

Published
2016

5. Preparation and In Vivo Use of an Activity-based Probe for N-acylethanolamine Acid Amidase

Author

Stefano Ponzano, Fabiola Bonezzi, Marco Migliore, Silvia Pontis, Elisa Romeo, Maria Summa, Daniele Piomelli, and Simona Di Martino

Subjects
0301 basic medicine, chemistry.chemical_classification, Palmitoylethanolamide, General Immunology and Microbiology, biology, General Chemical Engineering, General Neuroscience, Activity-based proteomics, Molecular biology, General Biochemistry, Genetics and Molecular Biology, Enzyme assay, Amidase, Blot, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Enzyme, chemistry, Biochemistry, Hydrolase, biology.protein, Fluorescence microscope
Abstract

Activity-based protein profiling (ABPP) is a method for the identification of an enzyme of interest in a complex proteome through the use of a chemical probe that targets the enzyme's active sites. A reporter tag introduced into the probe allows for the detection of the labeled enzyme by in-gel fluorescence scanning, protein blot, fluorescence microscopy, or liquid chromatography-mass spectrometry. Here, we describe the preparation and use of the compound ARN14686, a click chemistry activity-based probe (CC-ABP) that selectively recognizes the enzyme N-acylethanolamine acid amidase (NAAA). NAAA is a cysteine hydrolase that promotes inflammation by deactivating endogenous peroxisome proliferator-activated receptor (PPAR)-alpha agonists such as palmitoylethanolamide (PEA) and oleoylethanolamide (OEA). NAAA is synthesized as an inactive full-length proenzyme, which is activated by autoproteolysis in the acidic pH of the lysosome. Localization studies have shown that NAAA is predominantly expressed in macrophages and other monocyte-derived cells, as well as in B-lymphocytes. We provide examples of how ARN14686 can be used to detect and quantify active NAAA ex vivo in rodent tissues by protein blot and fluorescence microscopy.

Published
2016
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7. A glycosylated, labionin-containing lanthipeptide with marked antinociceptive activity

Author

Paolo Monciardini, Glauco Tarozzo, Maria Summa, Daniele Piomelli, Fabiola Bonezzi, Cristina Brunati, Rosalia Bertorelli, Stefano Donadio, Sonia I. Maffioli, Giorgio Corti, Margherita Sosio, Oscar Sasso, Roberta Bordoni, Marianna Iorio, and Angelo Reggiani

Subjects
Male, Glycosylation, Stereochemistry, Molecular Sequence Data, Pain, 01 natural sciences, Biochemistry, Bacterial cell structure, 03 medical and health sciences, Residue (chemistry), Mice, Bacteriocins, Gene cluster, Glycosyltransferase, Animals, Amino Acid Sequence, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Analgesics, biology, 010405 organic chemistry, Chemistry, Tryptophan, Micromonosporaceae, General Medicine, 3. Good health, 0104 chemical sciences, Amino acid, Anti-Bacterial Agents, Enzyme, Genes, Bacterial, Multigene Family, biology.protein, Molecular Medicine, Antibacterial activity, Peptides
Abstract

Among the growing family of ribosomally synthesized, post-translationally modified peptides, particularly intriguing are class III lanthipeptides containing the triamino acid labionin. In the course of a screening program aimed at finding bacterial cell wall inhibitors, we discovered a new lanthipeptide produced by an Actinoplanes sp. The molecule, designated NAI-112, consists of 22 amino acids and contains an N-terminal labionin and a C-terminal methyl-labionin. Unique among lanthipeptides, it carries a 6-deoxyhexose moiety N-linked to a tryptophan residue. Consistently, the corresponding gene cluster encodes, in addition to the LanKC enzyme characteristic of this lanthipeptide class, a glycosyl transferase. Despite possessing weak antibacterial activity, NAI-112 is effective in experimental models of nociceptive pain, reducing pain symptoms in mice in both the formalin and the chronic constriction injury tests. Thus, NAI-112 represents, after the labyrinthopeptins, the second example of a lanthipeptide effective against nociceptive pain. © 2013 American Chemical Society.

Published
2013
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