Your search keyword '"Magdalena, Kostrzewa"' showing total 41 results

1. Pharmacological inhibition of the CB1 cannabinoid receptor restores abnormal brain mitochondrial CB1 receptor expression and rescues bioenergetic and cognitive defects in a female mouse model of Rett syndrome

Author

Livia Cosentino, Chiara Urbinati, Chiara Lanzillotta, Domenico De Rasmo, Daniela Valenti, Mattia Pellas, Maria Cristina Quattrini, Fabiana Piscitelli, Magdalena Kostrzewa, Fabio Di Domenico, Donatella Pietraforte, Tiziana Bisogno, Anna Signorile, Rosa Anna Vacca, and Bianca De Filippis

Subjects

Rett syndrome, Mouse model, Intellectual disability, Brain mitochondria, Energy metabolism, CB1 cannabinoid receptor, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Defective mitochondria and aberrant brain mitochondrial bioenergetics are consistent features in syndromic intellectual disability disorders, such as Rett syndrome (RTT), a rare neurologic disorder that severely affects mainly females carrying mutations in the X-linked MECP2 gene. A pool of CB1 cannabinoid receptors (CB1R), the primary receptor subtype of the endocannabinoid system in the brain, is located on brain mitochondrial membranes (mtCB1R), where it can locally regulate energy production, synaptic transmission and memory abilities through the inhibition of the intra-mitochondrial protein kinase A (mtPKA). In the present study, we asked whether an overactive mtCB1R-mtPKA signaling might underlie the brain mitochondrial alterations in RTT and whether its modulation by systemic administration of the CB1R inverse agonist rimonabant might improve bioenergetics and cognitive defects in mice modeling RTT. Methods Rimonabant (0.3 mg/kg/day, intraperitoneal injections) was administered daily to symptomatic female mice carrying a truncating mutation of the Mecp2 gene and its effects on brain mitochondria functionality, systemic oxidative status, and memory function were assessed. Results mtCB1R is overexpressed in the RTT mouse brain. Subchronic treatment with rimonabant normalizes mtCB1R expression in RTT mouse brains, boosts mtPKA signaling, and restores the defective brain mitochondrial bioenergetics, abnormal peripheral redox homeostasis, and impaired cognitive abilities in RTT mice. Limitations The lack of selectivity of the rimonabant treatment towards mtCB1R does not allow us to exclude that the beneficial effects exerted by the treatment in the RTT mouse model may be ascribed more broadly to the modulation of CB1R activity and distribution among intracellular compartments, rather than to a selective effect on mtCB1R-mediated signaling. The low sample size of few experiments is a further limitation that has been addressed replicating the main findings under different experimental conditions. Conclusions The present data identify mtCB1R overexpression as a novel molecular alteration in the RTT mouse brain that may underlie defective brain mitochondrial bioenergetics and cognitive dysfunction.

Published

2024

2. Cannabidiol alters mitochondrial bioenergetics via VDAC1 and triggers cell death in hormone-refractory prostate cancer

Author

Ali Mokhtar Mahmoud, Magdalena Kostrzewa, Viviana Marolda, Marianna Cerasuolo, Federica Maccarinelli, Daniela Coltrini, Sara Rezzola, Arianna Giacomini, Maria Pina Mollica, Andrea Motta, Debora Paris, Antonio Zorzano, Vincenzo Di Marzo, Roberto Ronca, and Alessia Ligresti

Subjects

Mitochondrial bioenergetics, CBD, VDAC1, Hormone refractory prostate cancer, Phytocannabinoids, Therapeutics. Pharmacology, RM1-950

Abstract

In spite of the huge advancements in both diagnosis and interventions, hormone refractory prostate cancer (HRPC) remains a major hurdle in prostate cancer (PCa). Metabolic reprogramming plays a key role in PCa oncogenesis and resistance. However, the dynamics between metabolism and oncogenesis are not fully understood. Here, we demonstrate that two multi-target natural products, cannabidiol (CBD) and cannabigerol (CBG), suppress HRPC development in the TRansgenic Adenocarcinoma of the Mouse Prostate (TRAMP) model by reprogramming metabolic and oncogenic signaling. Mechanistically, CBD increases glycolytic capacity and inhibits oxidative phosphorylation in enzalutamide-resistant HRPC cells. This action of CBD originates from its effect on metabolic plasticity via modulation of VDAC1 and hexokinase II (HKII) coupling on the outer mitochondrial membrane, which leads to strong shifts of mitochondrial functions and oncogenic signaling pathways. The effect of CBG on enzalutamide-resistant HRPC cells was less pronounced than CBD and only partially attributable to its action on mitochondria. However, when optimally combined, these two cannabinoids exhibited strong anti-tumor effects in TRAMP mice, even when these had become refractory to enzalutamide, thus pointing to their therapeutical potential against PCa.

Published

2023

3. Systematic Modification of the Substitution Pattern of the 7-Hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamide Scaffold Enabled the Discovery of New Ligands with High Affinity and Selectivity for the Cannabinoid Type 2 Receptor

Author

Claudia Mugnaini, Magdalena Kostrzewa, Marta Casini, Poulami Kumar, Valeria Catallo, Marco Allarà, Laura Guastaferro, Antonella Brizzi, Marco Paolino, Andrea Tafi, Christelos Kapatais, Gianluca Giorgi, Federica Vacondio, Marco Mor, Federico Corelli, and Alessia Ligresti

Subjects

cannabinoid type-2 ligands, receptor selectivity, structure–activity relationship, pyrazolo[4,3-b]pyridine derivatives, Organic chemistry, QD241-441

Abstract

Selective ligands of the CB2 receptor are receiving considerable attention due to their potential as therapeutic agents for a variety of diseases. Recently, 7-hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamide derivatives were shown to act at the CB2 receptor either as agonists or as inverse agonists/antagonists in vitro and to have anti-osteoarthritic activity in vivo. In this article, we report the synthesis, pharmacological profile, and molecular modeling of a series of twenty-three new 7-hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamides with the aim of further developing this new class of selective CB2 ligands. In addition to these compounds, seven other analogs that had been previously synthesized were included in this study to better define the structure–activity relationship (SAR). Ten of the new compounds studied were found to be potent and selective ligands of the CB2 receptor, with Ki values ranging from 48.46 to 0.45 nM and CB1/CB2 selectivity indices (SI) ranging from >206 to >4739. In particular, compounds 54 and 55 were found to be high-affinity CB2 inverse agonists that were not active at all at the CB1 receptor, whereas 57 acted as an agonist. The functional activity profile of the compounds within this structural class depends mainly on the substitution pattern of the pyrazole ring.

Published

2023

4. N-[1,3-Dialkyl(aryl)-2-oxoimidazolidin-4-ylidene]-aryl(alkyl)sulphonamides as Novel Selective Human Cannabinoid Type 2 Receptor (hCB2R) Ligands; Insights into the Mechanism of Receptor Activation/Deactivation

Author

Eleonora Gianquinto, Federica Sodano, Barbara Rolando, Magdalena Kostrzewa, Marco Allarà, Ali Mokhtar Mahmoud, Poulami Kumar, Francesca Spyrakis, Alessia Ligresti, and Konstantin Chegaev

Subjects

cannabinoid receptors, hCB2R selective ligands, drug design, in silico simulations, mechanism of receptor activation, Organic chemistry, QD241-441

Abstract

Cannabinoid type 1 (hCB1) and type 2 (hCB2) receptors are pleiotropic and crucial targets whose signaling contributes to physiological homeostasis and its restoration after injury. Being predominantly expressed in peripheral tissues, hCB2R represents a safer therapeutic target than hCB1R, which is highly expressed in the brain, where it regulates processes related to cognition, memory, and motor control. The development of hCB2R ligands represents a therapeutic opportunity for treating diseases such as pain, inflammation and cancer. Identifying new selective scaffolds for cannabinoids and determining the structural determinants responsible for agonism and antagonism are priorities in drug design. In this work, a series of N-[1,3-dialkyl(aryl)-2-oxoimidazolidin-4-ylidene]-aryl(alkyl)sulfonamides is designed and synthesized and their affinity for human hCB1R and hCB2R is determined. Starting with a scaffold selected from the NIH Psychoactive Drug Screening Program Repository, through a combination of molecular modeling and structure–activity relationship studies, we were able to identify the chemical features leading to finely tuned hCB2R selectivity. In addition, an in silico model capable of predicting the functional activity of hCB2R ligands was proposed and validated. The proposed receptor activation/deactivation model enabled the identification of four pure hCB2R-selective agonists that can be used as a starting point for the development of more potent ligands.

Published

2022

5. Sodium Monoiodoacetate Dose-Dependent Changes in Matrix Metalloproteinases and Inflammatory Components as Prognostic Factors for the Progression of Osteoarthritis

Author

Marta Bryk, Jakub Chwastek, Jakub Mlost, Magdalena Kostrzewa, and Katarzyna Starowicz

Subjects

osteoarthritis, chronic pain, matrix metalloproteinases, cartilage, synovial membrane, synovial fluid, Therapeutics. Pharmacology, RM1-950

Abstract

Osteoarthritis (OA) is a degenerative joint disease that primarily affects people over 65 years old. During OA progression irreversible cartilage, synovial membrane and subchondral bone degradation is observed, which results in the development of difficult-to-treat chronic pain. One of the most important factors in OA progression is joint inflammation. Both proinflammatory and anti-inflammatory factors, as well as extracellular matrix degradation enzymes (matrix metalloproteinases (MMPs), play an important role in disease development. One of the most widely used animal OA models involves an intra-articular injection of sodium monoiodoacetate (MIA) directly into the joint capsule, which results in glycolysis inhibition in chondrocytes and cartilage degeneration. This model mimics the degenerative changes observed in OA patients. However, the dose of MIA varies in the literature, ranging from 0.5 to 4.8 mg. The aim of our study was to characterize grading changes after injection of 1, 2 or 3 mg of MIA at the behavioral and molecular levels over a 28-day period. In the behavioral studies, MIA injection at all doses resulted in a gradual increase in tactile allodynia and resulted in abnormal weight bearing during free walking sequences. At several days post-OA induction, cartilage, synovial membrane and synovial fluid samples were collected, and qPCR and Western blot analyses were performed. We observed significant dose- and time-dependent changes in both gene expression and protein secretion levels. Inflammatory factors (CCL2, CXCL1, IL-1β, COMP) increased at the beginning of the experiment, indicating a transient inflammatory state connected to the MIA injection and, in more severe OA, also in the advanced stages of the disease. Overall, the results in the 1 mg MIA group were not consistently clear, indicating that the lowest tested dose may not be sufficient to induce long-lasting OA-like changes at the molecular level. In the 2 mg MIA group, significant alterations in the measured factors were observed. In the 3 mg MIA group, MMP-2, MMP-3, MMP-9, and MMP-13 levels showed very strong upregulation, which may cause overly strong reactions in animals. Therefore, a dose of 2 mg appears optimal, as it induces significant but not excessive OA-like changes in a rat model.

Published

2021

6. CB2 agonism controls pain and subchondral bone degeneration induced by mono-iodoacetate: Implications GPCR functional bias and tolerance development

Author

Jakub Mlost, Magdalena Kostrzewa, Małgorzata Borczyk, Marta Bryk, Jakub Chwastek, Michał Korostyński, and Katarzyna Starowicz

Subjects

Osteoarthritis, CB2, Functional bias, MIA, Analgesia, Tolerance, Therapeutics. Pharmacology, RM1-950

Abstract

Background and purpose: The endocannabinoid system became a promising target for osteoarthritis (OA) treatment. Functional selectivity of cannabinoids may increase their beneficial properties while reducing side effects. The aim of the present study was to evaluate the analgesic potential of two functionally biased CB2 agonists in different treatment regimens to propose the best pharmacological approach for OA management. Experimental approach: Two functionally selective CB2 agonists were administered i.p. – JWH133 (cAMP biased) and GW833972A (β-arrestin biased), in a chemically induced model of OA in rats. The drugs were tested in acute and chronic treatment regimens. Analgesic effects were assessed by pressure application measurement and kinetic weight bearing. X-ray microtomography was used for the morphometric analysis of the femur’s subchondral bone tissue. Underlying biochemical changes were analysed via RT-qPCR. Key results: Dose-response studies established the effective dose for both JWH133 and GW833972A. In chronic treatment paradigms, JWH133 was able to elicit analgesia throughout the course of the experiment, whereas GW833972A lost its efficacy after 2 days of treatment. Later studies revealed improvement in subchondral bone architecture and decrement of matrix metalloproteinases and proinflammatory factors expression following JWH133 chronic treatment. Conclusion and implications: Data presents analgesic and disease-modifying potential of CB2 agonists in OA treatment. Moreover, the study revealed more pronounced tolerance development for analgesic effects of the β-arrestin biased CB2 agonist GW833972A. These results provide a better understanding of the molecular underpinnings of the anti-nociceptive potential of CB2 agonists and may improve drug development processes for any cannabinoid-based chronic pain therapy.

Published

2021

7. Development of N-(1-Adamantyl)benzamides as Novel Anti-Inflammatory Multitarget Agents Acting as Dual Modulators of the Cannabinoid CB2 Receptor and Fatty Acid Amide Hydrolase

Author

Francesca Intranuovo, Leonardo Brunetti, Pietro DelRe, Giuseppe Felice Mangiatordi, Angela Stefanachi, Antonio Laghezza, Mauro Niso, Francesco Leonetti, Fulvio Loiodice, Alessia Ligresti, Magdalena Kostrzewa, Jose Brea, Maria Isabel Loza, Eddy Sotelo, Michele Saviano, Nicola Antonio Colabufo, Chiara Riganti, Carmen Abate, and Marialessandra Contino

Subjects

Drug Discovery, Molecular Medicine

Published

2022

8. Biosynthesis of the Novel Endogenous 15-Lipoxygenase Metabolites N-13-Hydroxy-octodecadienoyl-ethanolamine and 13-Hydroxy-octodecadienoyl-glycerol by Human Neutrophils and Eosinophils

Author

Anne-Sophie Archambault, Francesco Tinto, Élizabeth Dumais, Volatiana Rakotoarivelo, Magdalena Kostrzewa, Pier-Luc Plante, Cyril Martin, Mélissa Simard, Cristoforo Silvestri, Roxane Pouliot, Michel Laviolette, Louis-Philippe Boulet, Rosa Maria Vitale, Alessia Ligresti, Vincenzo Di Marzo, and Nicolas Flamand

Subjects

endocannabinoid, linoleic acid, linoleoyl-glycerol, 13-HODE, 2-arachidonoyl-glycerol, anandamide, Cytology, QH573-671

Abstract

The endocannabinoids 2-arachidonoyl-glycerol and N-arachidonoyl-ethanolamine are lipids regulating many physiological processes, notably inflammation. Endocannabinoid hydrolysis inhibitors are now being investigated as potential anti-inflammatory agents. In addition to 2-arachidonoyl-glycerol and N-arachidonoyl-ethanolamine, the endocannabinoidome also includes other monoacylglycerols and N-acyl-ethanolamines such as 1-linoleoyl-glycerol (1-LG) and N-linoleoyl-ethanolamine (LEA). By increasing monoacylglycerols and/or N-acyl-ethanolamine levels, endocannabinoid hydrolysis inhibitors will likely increase the levels of their metabolites. Herein, we investigated whether 1-LG and LEA were substrates for the 15-lipoxygenase pathway, given that both possess a 1Z,4Z-pentadiene motif, near their omega end. We thus assessed how human eosinophils and neutrophils biosynthesized the 15-lipoxygenase metabolites of 1-LG and LEA. Linoleic acid (LA), a well-documented substrate of 15-lipoxygenases, was used as positive control. N-13-hydroxy-octodecadienoyl-ethanolamine (13-HODE-EA) and 13-hydroxy-octodecadienoyl-glycerol (13-HODE-G), the 15-lipoxygenase metabolites of LEA and 1-LG, were synthesized using Novozym 435 and soybean lipoxygenase. Eosinophils, which express the 15-lipoxygenase-1, metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was almost complete after five minutes. Substrate preference of eosinophils was LA > LEA > 1-LG in presence of 13-HODE-G hydrolysis inhibition with methyl-arachidonoyl-fluorophosphonate. Human neutrophils also metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was maximal after 15–30 s. Substrate preference was LA ≫ 1-LG > LEA. Importantly, 13-HODE-G was found in humans and mouse tissue samples. In conclusion, our data show that human eosinophils and neutrophils metabolize 1-LG and LEA into the novel endogenous 15-lipoxygenase metabolites 13-HODE-G and 13-HODE-EA. The full biological importance of 13-HODE-G and 13-HODE-EA remains to be explored.

Published

2021

9. Systematic Modification of the Substitution Pattern of the 7-Hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamide Scaffold Enabled the Discovery of New Ligands with High Affinity and Selectivity for the Cannabinoid Type 2 Receptor

Author

Ligresti, Claudia Mugnaini, Magdalena Kostrzewa, Marta Casini, Poulami Kumar, Valeria Catallo, Marco Allarà, Laura Guastaferro, Antonella Brizzi, Marco Paolino, Andrea Tafi, Christelos Kapatais, Gianluca Giorgi, Federica Vacondio, Marco Mor, Federico Corelli, and Alessia

Subjects

cannabinoid type-2 ligands, receptor selectivity, structure–activity relationship, pyrazolo[4,3-b]pyridine derivatives

Abstract

Selective ligands of the CB2 receptor are receiving considerable attention due to their potential as therapeutic agents for a variety of diseases. Recently, 7-hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamide derivatives were shown to act at the CB2 receptor either as agonists or as inverse agonists/antagonists in vitro and to have anti-osteoarthritic activity in vivo. In this article, we report the synthesis, pharmacological profile, and molecular modeling of a series of twenty-three new 7-hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamides with the aim of further developing this new class of selective CB2 ligands. In addition to these compounds, seven other analogs that had been previously synthesized were included in this study to better define the structure–activity relationship (SAR). Ten of the new compounds studied were found to be potent and selective ligands of the CB2 receptor, with Ki values ranging from 48.46 to 0.45 nM and CB1/CB2 selectivity indices (SI) ranging from >206 to >4739. In particular, compounds 54 and 55 were found to be high-affinity CB2 inverse agonists that were not active at all at the CB1 receptor, whereas 57 acted as an agonist. The functional activity profile of the compounds within this structural class depends mainly on the substitution pattern of the pyrazole ring.

Published

2023

10. Description of Novel Molecular Factors In Lumbar DRGs And Spinal Cord Factors Underlying Development Of Neuropathic Pain Component In The Animal Model Of Osteoarthritis

Author

Natalia Malek-Chudzik, Jakub Mlost, Magdalena Kostrzewa, Jolanta Rajca, and Katarzyna Starowicz

Abstract

Osteoarthritis (OA) is one of the most common joint disorder, with pain accompanied by functional impairment, as the most pronounced clinical symptom. Currently used pharmacotherapy involves symptomatic treatment, that do not always provide adequate pain relief. This may be due to concomitance of central sensitization and development of neuropathic features in OA patients. Here we performed studies in the animal model of OA to investigate of the neuropathic component. Intraarticular injection of monoiodoacetate (MIA, 1mg) was used to induce OA in Wistar male rats. Development of pain phenotype was assessed by behavioral testing (PAM test and von Frey’s test), while corresponding changes in dorsal root ganglia (DRGs L3-L5) and spinal cord (SC) gene expression were assessed by means of qRT-PCR technique. We also performed microtomography of OA affected knee joints to correlate level of bone degradation with observed behavioral and molecular changes. We observed gradually developing remote allodynia after MIA treatment, indicating presence of neuropathic component. Our results showed that, amongst DRGs innervating knee joint, development of central sensitization is most likely due to peripheral input of stimuli through DRG L5. In SC, development of secondary hypersensitivity correlated with increased expression of TAC1 and NPY. Our studies provided molecular records on abnormal activation of pain transmission markers in DRG and SC during development of OA, that are responsible for the manifestation of neuropathic features. Obtained results increase insight into molecular changes occurring in the neuronal tissue during OA development and may contribute to readdressing treatment paradigms.

Published

2023

11. Figure S4 from Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Roberto Ronca, Alessia Ligresti, Marco Presta, Dominique Melck, Debora Paris, Roberta Verde, Magdalena Kostrzewa, Luca Triggiani, Arianna Giacomini, Sara Rezzola, Gaia Cristina Ghedini, Viviana Marolda, Ali Mokhtar Mahmoud, Daniela Coltrini, Federica Maccarinelli, and Marianna Cerasuolo

Abstract

Simulation and treatment of TRAMP mice treated with enzalutamide, cabazitaxel and the combination

Published

2023

12. Supplementary Tables from Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Roberto Ronca, Alessia Ligresti, Marco Presta, Dominique Melck, Debora Paris, Roberta Verde, Magdalena Kostrzewa, Luca Triggiani, Arianna Giacomini, Sara Rezzola, Gaia Cristina Ghedini, Viviana Marolda, Ali Mokhtar Mahmoud, Daniela Coltrini, Federica Maccarinelli, and Marianna Cerasuolo

Abstract

Supplementary Tables with parameters

Published

2023

13. Supplementary Materials and Methods from Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Roberto Ronca, Alessia Ligresti, Marco Presta, Dominique Melck, Debora Paris, Roberta Verde, Magdalena Kostrzewa, Luca Triggiani, Arianna Giacomini, Sara Rezzola, Gaia Cristina Ghedini, Viviana Marolda, Ali Mokhtar Mahmoud, Daniela Coltrini, Federica Maccarinelli, and Marianna Cerasuolo

Abstract

Additional Material and Methods

Published

2023

14. Supplementary Mathematical Model from Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Roberto Ronca, Alessia Ligresti, Marco Presta, Dominique Melck, Debora Paris, Roberta Verde, Magdalena Kostrzewa, Luca Triggiani, Arianna Giacomini, Sara Rezzola, Gaia Cristina Ghedini, Viviana Marolda, Ali Mokhtar Mahmoud, Daniela Coltrini, Federica Maccarinelli, and Marianna Cerasuolo

Abstract

Supplemantary informations for the model parameterization

Published

2023

15. Data from Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Roberto Ronca, Alessia Ligresti, Marco Presta, Dominique Melck, Debora Paris, Roberta Verde, Magdalena Kostrzewa, Luca Triggiani, Arianna Giacomini, Sara Rezzola, Gaia Cristina Ghedini, Viviana Marolda, Ali Mokhtar Mahmoud, Daniela Coltrini, Federica Maccarinelli, and Marianna Cerasuolo

Abstract

Enzalutamide (MDV3100) is a potent second-generation androgen receptor antagonist approved for the treatment of castration-resistant prostate cancer (CRPC) in chemotherapy-naïve as well as in patients previously exposed to chemotherapy. However, resistance to enzalutamide and enzalutamide withdrawal syndrome have been reported. Thus, reliable and integrated preclinical models are required to elucidate the mechanisms of resistance and to assess therapeutic settings that may delay or prevent the onset of resistance. In this study, the prostate cancer multistage murine model TRAMP and TRAMP-derived cells have been used to extensively characterize in vitro and in vivo the response and resistance to enzalutamide. The therapeutic profile as well as the resistance onset were characterized and a multiscale stochastic mathematical model was proposed to link the in vitro and in vivo evolution of prostate cancer. The model showed that all therapeutic strategies that use enzalutamide result in the onset of resistance. The model also showed that combination therapies can delay the onset of resistance to enzalutamide, and in the best scenario, can eliminate the disease. These results set the basis for the exploitation of this “TRAMP-based platform” to test novel therapeutic approaches and build further mathematical models of combination therapies to treat prostate cancer and CRPC.Significance: Merging mathematical modeling with experimental data, this study presents the “TRAMP-based platform” as a novel experimental tool to study the in vitro and in vivo evolution of prostate cancer resistance to enzalutamide.

Published

2023

16. Modulation of Endocannabinoid Tone in Osteoblastic Differentiation of MC3T3-E1 Cells and in Mouse Bone Tissue over Time

Author

Magdalena Kostrzewa, Ali Mokhtar Mahmoud, Roberta Verde, Federica Scotto di Carlo, Fernando Gianfrancesco, Fabiana Piscitelli, and Alessia Ligresti

Subjects

bone, osteoblasts, endocannabinoids, N-acylethanolamines, MC3T3-E1, Cytology, QH573-671

Abstract

Bone is a highly complex and metabolically active tissue undergoing a continuous remodeling process, which endures throughout life. A complex cell-signaling system that plays role in regulating different physiological processes, including bone remodeling, is the endocannabinoid system (ECS). Bone mass expresses CB1 and CB2 cannabinoid receptors and enzymatic machinery responsible for the metabolism of their endogenous ligands, endocannabinoids (AEA and 2-AG). Exogenous AEA is reported to increase the early phase of human osteoblast differentiation in vitro. However, regarding this cell context little is known about how endocannabinoids and endocannabinoid-related N-acylethanolamines like PEA and OEA are modulated, in vitro, during cell differentiation and, in vivo, over time up to adulthood. Here we characterized the endocannabinoid tone during the different phases of the osteoblast differentiation process in MC3T3-E1 cells, and we measured endocannabinoid levels in mouse femurs at life cycle stages characterized by highly active bone growth (i.e., of juvenile, young adult, and mature adult bone). Endocannabinoid tone was significantly altered during osteoblast differentiation, with substantial OEA increment, decline in 2-AG and AEA, and consistent modulation of their metabolic enzymes in maturing and mineralized MC3T3-E1 cells. Similarly, in femurs, we found substantial, age-related, decline in 2-AG, OEA, and PEA. These findings can expand existing knowledge underlying physiological bone cell function and contribute to therapeutic strategies for preventing bone-related metabolic changes accruing through lifespan.

Published

2021

17. New Coumarin Derivatives as Cholinergic and Cannabinoid System Modulators

Author

Serena Montanari, Marco Allarà, Laura Scalvini, Magdalena Kostrzewa, Federica Belluti, Silvia Gobbi, Marina Naldi, Silvia Rivara, Manuela Bartolini, Alessia Ligresti, Alessandra Bisi, and Angela Rampa

Subjects

Alzheimer’s disease, AChE, BuChE, FAAH, CB receptors, Aβ42 self-aggregation, Organic chemistry, QD241-441

Abstract

In the last years, the connection between the endocannabinoid system (eCS) and neuroprotection has been discovered, and evidence indicates that eCS signaling is involved in the regulation of cognitive processes and in the pathophysiology of Alzheimer’s disease (AD). Accordingly, pharmacotherapy targeting eCS could represent a valuable contribution in fighting a multifaceted disease such as AD, opening a new perspective for the development of active agents with multitarget potential. In this paper, a series of coumarin-based carbamic and amide derivatives were designed and synthesized as multipotent compounds acting on cholinergic system and eCS-related targets. Indeed, they were tested with appropriate enzymatic assays on acetyl and butyryl-cholinesterases and on fatty acid amide hydrolase (FAAH), and also evaluated as cannabinoid receptor (CB1 and CB2) ligands. Moreover, their ability to reduce the self-aggregation of beta amyloid protein (Aβ42) was assessed. Compounds 2 and 3, bearing a carbamate function, emerged as promising inhibitors of hAChE, hBuChE, FAAH and Aβ42 self-aggregation, albeit with moderate potencies, while the amide 6 also appears a promising CB1/CB2 receptors ligand. These data prove for the new compounds an encouraging multitarget profile, deserving further evaluation.

Published

2021

18. Development of

Author

Francesca, Intranuovo, Leonardo, Brunetti, Pietro, DelRe, Giuseppe Felice, Mangiatordi, Angela, Stefanachi, Antonio, Laghezza, Mauro, Niso, Francesco, Leonetti, Fulvio, Loiodice, Alessia, Ligresti, Magdalena, Kostrzewa, Jose, Brea, Maria Isabel, Loza, Eddy, Sotelo, Michele, Saviano, Nicola Antonio, Colabufo, Chiara, Riganti, Carmen, Abate, and Marialessandra, Contino

Abstract

Cannabinoid type 2 receptor (CB2R), belonging to the endocannabinoid system, is overexpressed in pathologies characterized by inflammation, and its activation counteracts inflammatory states. Fatty acid amide hydrolase (FAAH) is an enzyme responsible for the degradation of the main endocannabinoid anandamide; thus, the simultaneous CB2R activation and FAAH inhibition may be a synergistic anti-inflammatory strategy. Encouraged by principal component analysis (PCA) data identifying a wide chemical space shared by CB2R and FAAH ligands, we designed a small library of adamantyl-benzamides, as potential dual agents, CB2R agonists, and FAAH inhibitors. The new compounds were tested for their CB2R affinity/selectivity and CB2R and FAAH activity. Derivatives

Published

2022

19. Alterations in Anandamide Synthesis and Degradation during Osteoarthritis Progression in an Animal Model

Author

Marta Bryk, Jakub Chwastek, Magdalena Kostrzewa, Jakub Mlost, Aleksandra Pędracka, and Katarzyna Starowicz

Subjects

osteoarthritis, endocannabinoid system, endocannabinoids, pain, chronic pain, TRPV1, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Osteoarthritis (OA) is a degenerative joint disease manifested by movement limitations and chronic pain. Endocannabinoid system (ECS) may modulate nociception via cannabinoid and TRPV1 receptors. The purpose of our study was to examine alterations in the spinal and joint endocannabinoid system during pain development in an animal model of OA. Wistar rats received intra-articular injection of 3mg of sodium monoiodoacetate (MIA) into the knee joint. Animals were sacrificed on day 2, 7, 14, 21, 28 after injection and lumbar spinal cord, cartilage and synovium were collected. Changes in the transcription levels of the ECS elements were measured. At the spinal level, gene expression levels of the cannabinoid and TRPV1 receptors as well as enzymes involved in anandamide synthesis and degradation were elevated in the advanced OA phase. In the joint, an important role of the synovium was demonstrated, since cartilage degeneration resulted in attenuation of the changes in the gene expression. Enzymes responsible for anandamide synthesis and degradation were upregulated particularly in the early stages of OA, presumably in response to early local joint inflammation. The presented study provides missing information about the MIA-induced OA model and encourages the development of a therapy focused on the molecular role of ECS.

Published

2020

20. The Impact of JWH-133 on Articular Cartilage Regeneration in Osteoarthritis Via Metalloproteinase 13-Dependent Mechanism

Author

Natalia Malek, Julia Borowczyk, Magdalena Kostrzewa, Agnieszka Pawlowska, Justyna Drukala, and Katarzyna Starowicz

Subjects

Pharmacology, Complementary and alternative medicine, Pharmacology (medical)

Published

2022

21. Modeling Acquired Resistance to the Second-Generation Androgen Receptor Antagonist Enzalutamide in the TRAMP Model of Prostate Cancer

Author

Magdalena Kostrzewa, Marco Presta, Luca Triggiani, Daniela Coltrini, Debora Paris, Viviana Marolda, Roberta Verde, Ali M. Mahmoud, Federica Maccarinelli, Gaia C. Ghedini, Marianna Cerasuolo, Roberto Ronca, Alessia Ligresti, Arianna Giacomini, Dominique Melck, and Sara Rezzola

Subjects

Male, 0301 basic medicine, Cancer Research, medicine.medical_treatment, Disease, urologic and male genital diseases, Mice, 03 medical and health sciences, chemistry.chemical_compound, Prostate cancer, 0302 clinical medicine, Acquired resistance, In vivo, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Nitriles, Phenylthiohydantoin, Androgen Receptor Antagonists, Animals, Humans, Medicine, Enzalutamide, Androgen receptor antagonist, Chemotherapy, business.industry, medicine.disease, Disease Models, Animal, Prostatic Neoplasms, Castration-Resistant, 030104 developmental biology, Oncology, chemistry, Drug Resistance, Neoplasm, Receptors, Androgen, 030220 oncology & carcinogenesis, Benzamides, Disease Progression, Cancer research, Taxoids, business, Signal Transduction, Tramp

Abstract

Enzalutamide (MDV3100) is a potent second-generation androgen receptor antagonist approved for the treatment of castration-resistant prostate cancer (CRPC) in chemotherapy-naïve as well as in patients previously exposed to chemotherapy. However, resistance to enzalutamide and enzalutamide withdrawal syndrome have been reported. Thus, reliable and integrated preclinical models are required to elucidate the mechanisms of resistance and to assess therapeutic settings that may delay or prevent the onset of resistance. In this study, the prostate cancer multistage murine model TRAMP and TRAMP-derived cells have been used to extensively characterize in vitro and in vivo the response and resistance to enzalutamide. The therapeutic profile as well as the resistance onset were characterized and a multiscale stochastic mathematical model was proposed to link the in vitro and in vivo evolution of prostate cancer. The model showed that all therapeutic strategies that use enzalutamide result in the onset of resistance. The model also showed that combination therapies can delay the onset of resistance to enzalutamide, and in the best scenario, can eliminate the disease. These results set the basis for the exploitation of this “TRAMP-based platform” to test novel therapeutic approaches and build further mathematical models of combination therapies to treat prostate cancer and CRPC. Significance: Merging mathematical modeling with experimental data, this study presents the “TRAMP-based platform” as a novel experimental tool to study the in vitro and in vivo evolution of prostate cancer resistance to enzalutamide.

Published

2020

22. N-adamantyl-anthranil amide derivatives: New selective ligands for the cannabinoid receptor subtype 2 (CB2R)

Author

Giovanni Graziano, Pietro Delre, Francesca Carofiglio, Josè Brea, Alessia Ligresti, Magdalena Kostrzewa, Chiara Riganti, Claudia Gioè-Gallo, Maria Majellaro, Orazio Nicolotti, Nicola Antonio Colabufo, Carmen Abate, Maria Isabel Loza, Eddy Sotelo, Giuseppe Felice Mangiatordi, Marialessandra Contino, Angela Stefanachi, and Francesco Leonetti

Subjects

Pharmacology, Organic Chemistry, Drug Discovery, General Medicine

Published

2023

23. Molecular Understanding of the Activation of CB1 and Blockade of TRPV1 Receptors: Implications for Novel Treatment Strategies in Osteoarthritis

Author

Jakub Mlost, Magdalena Kostrzewa, Natalia Malek, and Katarzyna Starowicz

Subjects

osteoarthritis, endocannabinoids, OMDM198, TRPV1, sensitization, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Osteoarthritis (OA) is a joint disease in which cartilage degenerates as a result of mechanical and biochemical changes. The main OA symptom is chronic pain involving both peripheral and central mechanisms of nociceptive processing. Our previous studies have implicated the benefits of dual- over single-acting compounds interacting with the endocannabinoid system (ECS) in OA treatment. In the present study, we focused on the specific molecular alterations associated with pharmacological treatment. OA was induced in Wistar rats by intra-articular injection of 3 mg of monoiodoacetate (MIA). Single target compounds (URB597, an FAAH inhibitor, and SB366791, a TRPV1 antagonist) and a dual-acting compound OMDM198 (FAAH inhibitor/TRPV1 antagonist) were used in the present study. At day 21 post-MIA injection, rats were sacrificed 1 h after i.p. treatment, and changes in mRNA expression were evaluated in the lumbar spinal cord by RT-qPCR. Following MIA administration, we observed 2-4-fold increase in mRNA expression of targeted receptors (Cnr1, Cnr2, and Trpv1), endocannabinoid degradation enzymes (Faah, Ptgs2, and Alox12), and TRPV1 sensitizing kinases (Mapk3, Mapk14, Prkcg, and Prkaca). OMDM198 treatment reversed some of the MIA effects on the spinal cord towards intact levels (Alox12, Mapk14, and Prkcg). Apparent regulation of ECS and TRPV1 in response to pharmacological intervention is a strong justification for novel ECS-based multi-target drug treatment in OA.

Published

2018

24. New Coumarin Derivatives as Cholinergic and Cannabinoid System Modulators

Author

Silvia Rivara, Marco Allarà, Silvia Gobbi, Magdalena Kostrzewa, Serena Montanari, Alessandra Bisi, Manuela Bartolini, Alessia Ligresti, Laura Scalvini, Marina Naldi, Federica Belluti, Angela Rampa, Montanari S., Allara M., Scalvini L., Kostrzewa M., Belluti F., Gobbi S., Naldi M., Rivara S., Bartolini M., Ligresti A., Bisi A., and Rampa A.

Subjects

Cannabinoid receptor, Protein Conformation, Chemistry, Pharmaceutical, Cholinergic Agents, Pharmaceutical Science, Organic chemistry, Pharmacology, Analytical Chemistry, chemistry.chemical_compound, 0302 clinical medicine, Aβ42 self-aggregation, QD241-441, Fatty acid amide hydrolase, Coumarins, Drug Discovery, Cannabinoid receptor type 2, Amyloid precursor protein, Receptors, Cholinergic, FAAH, Enzyme Inhibitors, Receptors, Cannabinoid, Aβ, 0303 health sciences, biology, carbamate, CB receptor, Alzheimer's disease, Endocannabinoid system, Molecular Docking Simulation, Chemistry (miscellaneous), Blood-Brain Barrier, CB receptors, Molecular Medicine, lipids (amino acids, peptides, and proteins), self-aggregation, Alzheimer’s disease, Rivastigmine, Neuroprotection, Article, Amidohydrolases, 03 medical and health sciences, Inhibitory Concentration 50, cannabinoid receptors, Alzheimer Disease, Animals, Humans, Physical and Theoretical Chemistry, 030304 developmental biology, Amyloid beta-Peptides, BuChE, Cannabinoids, Coumarin, amide, Rats, chemistry, Drug Design, biology.protein, Cholinergic, AChE, Carbamates, 030217 neurology & neurosurgery, Endocannabinoids

Abstract

In the last years, the connection between the endocannabinoid system (eCS) and neuroprotection has been discovered, and evidence indicates that eCS signaling is involved in the regulation of cognitive processes and in the pathophysiology of Alzheimer’s disease (AD). Accordingly, pharmacotherapy targeting eCS could represent a valuable contribution in fighting a multifaceted disease such as AD, opening a new perspective for the development of active agents with multitarget potential. In this paper, a series of coumarin-based carbamic and amide derivatives were designed and synthesized as multipotent compounds acting on cholinergic system and eCS-related targets. Indeed, they were tested with appropriate enzymatic assays on acetyl and butyryl-cholinesterases and on fatty acid amide hydrolase (FAAH), and also evaluated as cannabinoid receptor (CB1 and CB2) ligands. Moreover, their ability to reduce the self-aggregation of beta amyloid protein (Aβ42) was assessed. Compounds 2 and 3, bearing a carbamate function, emerged as promising inhibitors of hAChE, hBuChE, FAAH and Aβ42 self-aggregation, albeit with moderate potencies, while the amide 6 also appears a promising CB1/CB2 receptors ligand. These data prove for the new compounds an encouraging multitarget profile, deserving further evaluation.

Published

2021

25. Sodium Monoiodoacetate Dose-Dependent Changes in Matrix Metalloproteinases and Inflammatory Components as Prognostic Factors for the Progression of Osteoarthritis

Author

Jakub Mlost, Magdalena Kostrzewa, Katarzyna Starowicz, Jakub Chwastek, and Marta Bryk

Subjects

0301 basic medicine, synovial membrane, medicine.medical_specialty, Inflammation, Osteoarthritis, RM1-950, Matrix metalloproteinase, Proinflammatory cytokine, 03 medical and health sciences, 0302 clinical medicine, synovial fluid, Internal medicine, Joint capsule, medicine, Synovial fluid, pain, Pharmacology (medical), cartilage, Original Research, 030203 arthritis & rheumatology, Pharmacology, business.industry, Cartilage, matrix metalloproteinases, medicine.disease, osteoarthritis, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, inflammation, Therapeutics. Pharmacology, Synovial membrane, medicine.symptom, business, chronic pain

Abstract

Osteoarthritis (OA) is a degenerative joint disease that primarily affects people over 65 years old. During OA progression irreversible cartilage, synovial membrane and subchondral bone degradation is observed, which results in the development of difficult-to-treat chronic pain. One of the most important factors in OA progression is joint inflammation. Both proinflammatory and anti-inflammatory factors, as well as extracellular matrix degradation enzymes (matrix metalloproteinases (MMPs), play an important role in disease development. One of the most widely used animal OA models involves an intra-articular injection of sodium monoiodoacetate (MIA) directly into the joint capsule, which results in glycolysis inhibition in chondrocytes and cartilage degeneration. This model mimics the degenerative changes observed in OA patients. However, the dose of MIA varies in the literature, ranging from 0.5 to 4.8 mg. The aim of our study was to characterize grading changes after injection of 1, 2 or 3 mg of MIA at the behavioral and molecular levels over a 28-day period. In the behavioral studies, MIA injection at all doses resulted in a gradual increase in tactile allodynia and resulted in abnormal weight bearing during free walking sequences. At several days post-OA induction, cartilage, synovial membrane and synovial fluid samples were collected, and qPCR and Western blot analyses were performed. We observed significant dose- and time-dependent changes in both gene expression and protein secretion levels. Inflammatory factors (CCL2, CXCL1, IL-1β, COMP) increased at the beginning of the experiment, indicating a transient inflammatory state connected to the MIA injection and, in more severe OA, also in the advanced stages of the disease. Overall, the results in the 1 mg MIA group were not consistently clear, indicating that the lowest tested dose may not be sufficient to induce long-lasting OA-like changes at the molecular level. In the 2 mg MIA group, significant alterations in the measured factors were observed. In the 3 mg MIA group, MMP-2, MMP-3, MMP-9, and MMP-13 levels showed very strong upregulation, which may cause overly strong reactions in animals. Therefore, a dose of 2 mg appears optimal, as it induces significant but not excessive OA-like changes in a rat model.

Published

2021

26. CB2 agonism controls pain and subchondral bone degeneration induced by mono-iodoacetate: Implications GPCR functional bias and tolerance development

Author

Katarzyna Starowicz, Marta Bryk, Jakub Chwastek, Magdalena Kostrzewa, Jakub Mlost, Malgorzata Borczyk, and Michal Korostynski

Subjects

Male, Pain Threshold, 0301 basic medicine, Time Factors, Pyridines, medicine.medical_treatment, Analgesic, Osteoarthritis, RM1-950, Pharmacology, Proinflammatory cytokine, Receptor, Cannabinoid, CB2, 03 medical and health sciences, 0302 clinical medicine, Functional selectivity, Animals, Medicine, MIA, Rats, Wistar, Functional bias, Cannabinoid Receptor Agonists, Analgesics, Cannabinoids, business.industry, Chronic pain, Drug Tolerance, General Medicine, medicine.disease, Arthralgia, Effective dose (pharmacology), Endocannabinoid system, CB2, Iodoacetic Acid, Disease Models, Animal, Pyrimidines, 030104 developmental biology, 030220 oncology & carcinogenesis, Joints, lipids (amino acids, peptides, and proteins), Cannabinoid, Therapeutics. Pharmacology, Analgesia, business, Tolerance, Signal Transduction

Abstract

Background and purpose The endocannabinoid system became a promising target for osteoarthritis (OA) treatment. Functional selectivity of cannabinoids may increase their beneficial properties while reducing side effects. The aim of the present study was to evaluate the analgesic potential of two functionally biased CB2 agonists in different treatment regimens to propose the best pharmacological approach for OA management. Experimental approach Two functionally selective CB2 agonists were administered i.p. – JWH133 (cAMP biased) and GW833972A (β-arrestin biased), in a chemically induced model of OA in rats. The drugs were tested in acute and chronic treatment regimens. Analgesic effects were assessed by pressure application measurement and kinetic weight bearing. X-ray microtomography was used for the morphometric analysis of the femur’s subchondral bone tissue. Underlying biochemical changes were analysed via RT-qPCR. Key results Dose-response studies established the effective dose for both JWH133 and GW833972A. In chronic treatment paradigms, JWH133 was able to elicit analgesia throughout the course of the experiment, whereas GW833972A lost its efficacy after 2 days of treatment. Later studies revealed improvement in subchondral bone architecture and decrement of matrix metalloproteinases and proinflammatory factors expression following JWH133 chronic treatment. Conclusion and implications Data presents analgesic and disease-modifying potential of CB2 agonists in OA treatment. Moreover, the study revealed more pronounced tolerance development for analgesic effects of the β-arrestin biased CB2 agonist GW833972A. These results provide a better understanding of the molecular underpinnings of the anti-nociceptive potential of CB2 agonists and may improve drug development processes for any cannabinoid-based chronic pain therapy.

Published

2021

27. Modulation of endocannabinoid tone in osteoblastic differentiation of mc3t3-e1 cells and in mouse bone tissue over time

Author

Federica Scotto di Carlo, Fernando Gianfrancesco, Roberta Verde, Ali M. Mahmoud, Magdalena Kostrzewa, Fabiana Piscitelli, and Alessia Ligresti

Subjects

Male, Cannabinoid receptor, QH301-705.5, Cellular differentiation, Biology, Bone tissue, bone, Article, Bone remodeling, Cell Line, Mice, Osteogenesis, Bone cell, medicine, Animals, Biology (General), endocannabinoids, Bone growth, osteoblasts, Osteoblast, Cell Differentiation, General Medicine, Endocannabinoid system, MC3T3-E1, Cell biology, N-acylethanolamines, Mice, Inbred C57BL, medicine.anatomical_structure, lipids (amino acids, peptides, and proteins), boneosteoblastsendocannabinoidsN-acylethanolaminesMC3T3-E1

Abstract

Bone is a highly complex and metabolically active tissue undergoing a continuous remodeling process, which endures throughout life. A complex cell-signaling system that plays role in regulating different physiological processes, including bone remodeling, is the endocannabinoid system (ECS). Bone mass expresses CB1 and CB2 cannabinoid receptors and enzymatic machinery responsible for the metabolism of their endogenous ligands, endocannabinoids (AEA and 2-AG). Exogenous AEA is reported to increase the early phase of human osteoblast differentiation in vitro. However, regarding this cell context little is known about how endocannabinoids and endocannabinoid-related N-acylethanolamines like PEA and OEA are modulated, in vitro, during cell differentiation and, in vivo, over time up to adulthood. Here we characterized the endocannabinoid tone during the different phases of the osteoblast differentiation process in MC3T3-E1 cells, and we measured endocannabinoid levels in mouse femurs at life cycle stages characterized by highly active bone growth (i.e., of juvenile, young adult, and mature adult bone). Endocannabinoid tone was significantly altered during osteoblast differentiation, with substantial OEA increment, decline in 2-AG and AEA, and consistent modulation of their metabolic enzymes in maturing and mineralized MC3T3-E1 cells. Similarly, in femurs, we found substantial, age-related, decline in 2-AG, OEA, and PEA. These findings can expand existing knowledge underlying physiological bone cell function and contribute to therapeutic strategies for preventing bone-related metabolic changes accruing through lifespan.

Published

2021

28. Synthesis and molecular targets of N-13-hydroxy-octadienoyl-ethanolamine, a novel endogenous bioactive 15-lipoxygenase-derived metabolite of N-linoleoyl-ethanolamine found in the skin and saliva

Author

Volatiana Rakotoarivelo, Nicolas Flamand, Cyril Martin, Roxane Pouliot, Vincenzo Di Marzo, Yves Desjardins, Mélissa Simard, Pier-Luc Plante, Alessia Ligresti, Francesco Tinto, Luciano De Petrocellis, Anne-Sophie Archambault, Élizabeth Dumais, and Magdalena Kostrzewa

Subjects

0301 basic medicine, Metabolite, Linoleic acid, Chemistry Techniques, Synthetic, 03 medical and health sciences, Lipoxygenase, chemistry.chemical_compound, Ethanolamine, Biosynthesis, N-acyl-ethanolamines, Arachidonate 15-Lipoxygenase, Humans, Molecular Targeted Therapy, endocannabinoids, Saliva, Molecular Biology, Skin, 030102 biochemistry & molecular biology, biology, Chemistry, Cell Biology, 3. Good health, Monoacylglycerol lipase, 030104 developmental biology, Biochemistry, Linoleic Acids, biology.protein, Arachidonic acid, Long chain fatty acid, NAEs

Abstract

N-Arachidonoyl-ethanolamine (AEA) is an endocannabinoid (eCB) and endogenous lipid mimicking many of the effects of Δ9-tetrahydrocannabinol, notably on brain functions, appetite, pain and inflammation. The eCBs and eCB-like compounds contain fatty acids, the main classes being the monoacylglycerols and the N-acyl-ethanolamines (NAEs). Thus, each long chain fatty acid likely exists under the form of a monoacylglycerol and NAE, as it is the case for arachidonic acid (AA) and linoleic acid (LA). Following their biosynthesis, AA and AEA can be further metabolized into additional eicosanoids, notably by the 15-lipoxygenase pathway. Thus, we postulated that NAEs possessing a 1Z,4Z-pentadiene motif, near their omega end, would be transformed into their 15-lipoxygenase metabolites. As a proof of concept, we investigated N-linoleoyl-ethanolamine (LAE). We successfully synthesized LEA and LEA-d4 as well as their 15-lipoxygenase-derived derivatives, namely 13-hydroxy-9Z,11E-octadecadienoyl-N-ethanolamine (13-HODE-EA) and 13-HODE-EA-d4, using Novozyme 435 immobilized on acrylic resin and soybean lipoxygenase respectively. We also show that both human 15-lipoxygenase-1 and -2 can biosynthesize 13-HODE-EA. Co-incubation of LEA and LA with either human 15-lipoxygenase led to the biosynthesis of 13-HODE-EA and 13-HODE in a ratio equal to or greater than 3:1, indicating that LEA is preferred to LA by these enzymes. Finally, we show that 13-HODE-EA is found in human saliva and skin and is a weak although selective TRPV1 agonist. The full biological importance of 13-HODE-EA remains to be explored.

Published

2020

29. Design, Synthesis, and Physicochemical and Pharmacological Profiling of 7-Hydroxy-5-oxopyrazolo[4,3

Author

Claudia, Mugnaini, Magdalena, Kostrzewa, Marta, Bryk, Ali Mokhtar, Mahmoud, Antonella, Brizzi, Stefania, Lamponi, Gianluca, Giorgi, Francesca, Ferlenghi, Federica, Vacondio, Paola, Maccioni, Giancarlo, Colombo, Marco, Mor, Katarzyna, Starowicz, Vincenzo, Di Marzo, Alessia, Ligresti, and Federico, Corelli

Subjects

Cannabinoid Receptor Agonists, Male, 4-Quinolones, Colforsin, Drug Evaluation, Preclinical, CHO Cells, Walking, Ligands, Iodoacetic Acid, Receptor, Cannabinoid, CB2, Disease Models, Animal, Mice, Structure-Activity Relationship, Chondrocytes, Cricetulus, Receptor, Cannabinoid, CB1, Drug Design, Osteoarthritis, NIH 3T3 Cells, Animals, Humans, Anti-Asthmatic Agents, Rats, Wistar

Abstract

The hallmark of joint diseases, such as osteoarthritis (OA), is pain, originating from both inflammatory and neuropathic components, and compounds able to modulate the signal transduction pathways of the cannabinoid type-2 receptor (CB2R) can represent a helpful option in the treatment of OA. In this perspective, a set of 18 cannabinoid type-2 receptor (CB2R) ligands was developed based on an unprecedented structure. With the aim of improving the physicochemical properties of previously reported 4-hydroxy-2-quinolone-3-carboxamides, a structural optimization program led to the discovery of isosteric 7-hydroxy-5-oxopyrazolo[4,3

Published

2020

30. Effect of phytocannabinoids on androgen deprivation therapy in a high-fat diet-exacerbated prostate cancer

Author

Magdalena Kostrzewa, Fernando Gianfrancesco, and Alessia Ligresti

Subjects

enzalutamide, TRAMP model, gut microbiome, HFD, phytocannabinoids, ADT

Abstract

Prostate cancer (PCa) is the second most frequent cause of tumour-associated mortality worldwide. Tumour growth depends on androgens, therefore, the mainstay treatment, especially for advanced tumour, is based on androgen deprivation therapy (ADT). Despite accumulation of abdominal fat and metabolic syndrome development as reported side effects in patients receiving ADT, androgen blockade is a backbone therapy also in obese PCa patients. Increasingly, studies have pointed out that obesity is closely linked to the occurrence, development and aggressiveness of PCa. Western diets (diet with high fat and sugar) has been suggested to promote prostate tumour carcinogenesis and contributing to negative prognosis. However, the underlying mechanisms are still poorly understood. Gastrointestinal microbiome has been shown to play a major role in the pathogenesis of several diseases and to play a role as regulator of androgen metabolism potentially contributing to PCa development and/or pharmacological outcome of ADT. Several studies consider certain phytocannabinoids promising anti-cancer agents and controllers of food intake and lipid metabolism. Herein, we investigated the effect of phytocannabinoids (CBD+CBG), alone and combined with the anti-androgen enzalutamide, on the tumour the progression in transgenic adenocarcinoma mouse prostate model (TRAMP) under high fat diet (HFD) and regular diet (RD). Histopathological analysis and gut microbiota profiling showed that HFD exacerbated PCa development and induced gut microbiota dysbiosis increasing the Firmicutes to Bacteroidetes ratio. Single treatments with anti-androgen or phytocannabinoids significantly inhibited tumour development only in RD-fed mice. Combined treatments were effective in mice under both diet regimens. As for the associated gut microbiota in HFD-fed mice, enzalutamide, both alone and in combination with phytocannabinoids, reverted the lowered levels of phylum Bacteroidetes. With respect to enzalutamide treatment alone its combined treatment with CBD:CBG was associated with increased abundance of bacterial families such as Anaerosporobacter, Roseburia, Lactobacillus and reduced of Turicibacter Clostridium sensu stricto 1, Phocea, Bilophila and Acetanaerobacterium. The study reveals that phytocannabinoids combined with enzalutamide improves inhibition of tumour growth in HFD-exacerbated prostate cancer and modifies gut microbiota composition. These findings indicate a novel, more beneficial with respect to monotherapy, therapeutic approach for PCa progression worsened by obesity.

Published

2020

31. Design, Synthesis, and Physicochemical and Pharmacological Profiling of 7‐Hydroxy-5-oxopyrazolo[4,3‐b]pyridine-6-carboxamide Derivatives with Antiosteoarthritic Activity In Vivo

Author

Antonella Brizzi, Marta Bryk, Giancarlo Colombo, Claudia Mugnaini, Ali M. Mahmoud, Marco Mor, Federico Corelli, Federica Vacondio, Stefania Lamponi, Vincenzo Di Marzo, Paola Maccioni, Magdalena Kostrzewa, Katarzyna Starowicz, Francesca Ferlenghi, Alessia Ligresti, and Gianluca Giorgi

Subjects

Agonist, 0303 health sciences, medicine.drug_class, Chemistry, medicine.medical_treatment, Carboxamide, Cannabinoid Receptor Agonists, Pharmacology, 01 natural sciences, 3. Good health, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Drug Discovery, medicine, Molecular Medicine, Structure–activity relationship, Inverse agonist, Cannabinoid, Signal transduction, Receptor, 030304 developmental biology

Abstract

The hallmark of joint diseases, such as osteoarthritis (OA), is pain, originating from both inflammatory and neuropathic components, and compounds able to modulate the signal transduction pathways of the cannabinoid type-2 receptor (CB2R) can represent a helpful option in the treatment of OA. In this perspective, a set of 18 cannabinoid type-2 receptor (CB2R) ligands was developed based on an unprecedented structure. With the aim of improving the physicochemical properties of previously reported 4-hydroxy-2-quinolone-3-carboxamides, a structural optimization program led to the discovery of isosteric 7-hydroxy-5-oxopyrazolo[4,3-b]pyridine-6-carboxamide derivatives. These new compounds are endowed with high affinity for the CB2R and moderate to good selectivity over the cannabinoid type-1 receptor (CB1R), associated with good physicochemical characteristics. As to the functional activity at the CB2R, compounds able to act either as agonists or as inverse agonists/antagonists were discovered. Among them, compound 51 emerged as a potent CB2R agonist able to reduce pain in rats carrying OA induced by injection of monoiodoacetic acid (MIA).

Published

2020

32. Expression of matrix metalloproteinases and components of the endocannabinoid system in the knee joint are associated with biphasic pain progression in a rat model of osteoarthritis

Author

Natalia Malek, Michal Korostynski, Katarzyna Starowicz, Magdalena Kostrzewa, and Agnieszka Pajak

Subjects

0301 basic medicine, medicine.medical_specialty, Rat model, Osteoarthritis, Matrix metalloproteinase, Knee Joint, 03 medical and health sciences, 0302 clinical medicine, Western blot, Internal medicine, Medicine, pain, endocannabinoid system, Journal of Pain Research, Original Research, medicine.diagnostic_test, business.industry, matrix metalloproteinases, monoiodoacetate, medicine.disease, Endocannabinoid system, osteoarthritis, 030104 developmental biology, Anesthesiology and Pain Medicine, Endocrinology, Real-time polymerase chain reaction, business, Transduction (physiology), 030217 neurology & neurosurgery

Abstract

Agnieszka Pajak,Magdalena Kostrzewa,Natalia Malek,Michal Korostynski,Katarzyna Starowicz Institute of Pharmacology, Polish Academy of Sciences, Krakow, Poland Abstract: Matrix metalloproteinases (MMPs) are considered important in articular cartilage breakdown during osteoarthritis (OA). Similarly, the endocannabinoid system (ECS) is implicated in joint function and modulation of nociceptive processing. Functional interplay between ECS and MMPs has been recently indicated. Here, we tested if changes in the expression of selected MMPs and major ECS elements temporally correlate with the intensity of OA-related pain. Knee OA was induced in male Wistar rats by intra-articular sodium monoiodoacetate injection. OA-like pain behavior was tested using the dynamic weight bearing. Joint tissue samples at different time points after OA induction were subjected to gene (quantitative polymerase chain reaction) and protein (Western blot) expression analyses. Monoiodoacetate-induced nocifensive responses in rats showed a biphasic progression pattern. The alterations in expression of selected MMPs elegantly corresponded to the two-stage development of OA pain. The most substantial changes in the expression of the ECS system were revealed at a later stage of OA progression. Alterations within ECS are involved in the process of adaptation to persistent painful stimuli. The accumulation of MMPs in osteoarthritic cartilage may have a role in the biphasic progression of OA-related pain. Temporal association of changes in ECS and MMPs expression shows a potential therapeutic approach that utilizes the concept of combining indirect ECS-mediated MMP inhibition and ECS modulation of pain transduction. Keywords: osteoarthritis, monoiodoacetate, pain, matrix metalloproteinases, endocannabinoid system

Published

2017

33. NON-PSYCHOTROPIC CANNABINOIDS SUPPRESS TUMOR GROWTH BY ACTING ON METABOLIC REPROGRAMMING AND ONCOGENIC PATHWAYS IN HORMONE REFRACTORY PROSTATE CANCER

Author

Ali Mokhtar Mahmoud, Viviana Marolda, Magdalena Kostrzewa, Vincenzo Di Marzo, Roberto Ronca, and Alessia Ligresti

Subjects

Cannabinoids, prostate cancer

Published

2019

34. Potencjał terapeutyczny układu endokanabinoidowego w leczeniu bólu ostrego i przewlekłego

Author

Katarzyna Starowicz and Magdalena Kostrzewa

Subjects

General Medicine

Published

2016

35. Human eosinophils and neutrophils biosynthesize novel 15-lipoxygenase metabolites from 1-linoleoyl-glycerol and N-linoleoyl-ethanolamine

Author

Anne-Sophie Archambault, Francesco Tinto, Cyril Martin, Elizabeth Dumais, Volatiana Rakotoarivelo, Michel Laviolette, Cristoforo Silvestri, Magdalena Kostrzewa, Alessia Ligresti, Louis-Philippe Boulet, Vincenzo Di Marzo, and Nicolas Flamand

Subjects

Immunology, Immunology and Allergy

Abstract

BACKGROUND The endocannabinoids 2-AG and AEA are lipids regulating many physiological processes, notably inflammation. The endocannabinoidome includes other monoacylglycerols (MAG) and N-acyl-ethanolamines (NAE) such as 1-linoleoyl-glycerol (1-LG) and N-linoleoyl-ethanolamine (LEA). Endocannabinoid hydrolysis inhibitors are now being tested as potential anti-inflammatory agents. By increasing MAG and/or NAE levels, these inhibitors will likely increase the levels of their metabolites. Herein we investigated whether 1-LG and LEA were substrates for the 15-lipoxygenase pathway, which is strongly involved in asthma and its severity. We thus assessed how human eosinophils and neutrophils biosynthesized the 15-lipoxygenase metabolites of 1-LG and LEA. Linoleic acid (LA), a well-documented substrate of 15-lipoxygenases, was used as positive control. RESULTS We synthesized the putative 15-lipoxygenase metabolites of 1-LG and LEA using Novozym435 and soybean lipoxygenase. Eosinophils, which express the 15-lipoxygenase-1, metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was almost complete after 5 minutes. Substrate preference of eosinophils was LA>LEA>1-LG. Human neutrophils, which express the 15-lipoxygenase-2, also metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was maximal after 30 seconds. Substrate preference was LA≫1-LG>LEA. Importantly, the new 15-lipoxygenase metabolites we disclose were found in tissues from humans and mice. CONCLUSIONS We successfully showed that human eosinophils and neutrophils transforms 1-LG and LEA into novel 15-lipoxygenase metabolites. How these new metabolites modulate the inflammatory cascade is now being explored.

Published

2020

36. Molecular Understanding of the Activation of CB1 and Blockade of TRPV1 Receptors: Implications for Novel Treatment Strategies in Osteoarthritis

Author

Katarzyna Starowicz, Magdalena Kostrzewa, Natalia Malek, and Jakub Mlost

Subjects

0301 basic medicine, Male, Cannabinoid receptor, OMDM198, Osteoarthritis, Pharmacology, sensitization, lcsh:Chemistry, Receptor, Cannabinoid, CB2, chemistry.chemical_compound, 0302 clinical medicine, Receptor, Cannabinoid, CB1, Receptor, lcsh:QH301-705.5, Spectroscopy, General Medicine, Endocannabinoid system, osteoarthritis, endocannabinoids, TRPV1, Computer Science Applications, Spinal Cord, lipids (amino acids, peptides, and proteins), psychological phenomena and processes, TRPV Cation Channels, Catalysis, Article, Amidohydrolases, Inorganic Chemistry, 03 medical and health sciences, medicine, Animals, Physical and Theoretical Chemistry, Molecular Biology, business.industry, Organic Chemistry, Antagonist, URB597, medicine.disease, PRKACA, Rats, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, chemistry, nervous system, Gene Expression Regulation, Proteolysis, Carbamates, business, 030217 neurology & neurosurgery

Abstract

Osteoarthritis (OA) is a joint disease in which cartilage degenerates as a result of mechanical and biochemical changes. The main OA symptom is chronic pain involving both peripheral and central mechanisms of nociceptive processing. Our previous studies have implicated the benefits of dual- over single-acting compounds interacting with the endocannabinoid system (ECS) in OA treatment. In the present study, we focused on the specific molecular alterations associated with pharmacological treatment. OA was induced in Wistar rats by intra-articular injection of 3 mg of monoiodoacetate (MIA). Single target compounds (URB597, an FAAH inhibitor, and SB366791, a TRPV1 antagonist) and a dual-acting compound OMDM198 (FAAH inhibitor/TRPV1 antagonist) were used in the present study. At day 21 post-MIA injection, rats were sacrificed 1 h after i.p. treatment, and changes in mRNA expression were evaluated in the lumbar spinal cord by RT-qPCR. Following MIA administration, we observed 2-4-fold increase in mRNA expression of targeted receptors (Cnr1, Cnr2, and Trpv1), endocannabinoid degradation enzymes (Faah, Ptgs2, and Alox12), and TRPV1 sensitizing kinases (Mapk3, Mapk14, Prkcg, and Prkaca). OMDM198 treatment reversed some of the MIA effects on the spinal cord towards intact levels (Alox12, Mapk14, and Prkcg). Apparent regulation of ECS and TRPV1 in response to pharmacological intervention is a strong justification for novel ECS-based multi-target drug treatment in OA.

Published

2017

37. The multiplicity of spinal AA-5-HT anti-nociceptive action in a rat model of neuropathic pain

Author

Wioletta Makuch, Fabiana Piscitelli, Katarzyna Starowicz, Agnieszka Pajak, Barbara Przewlocka, Mateusz Kucharczyk, Magdalena Kostrzewa, Natalia Malek, and Vincenzo Di Marzo

Subjects

0301 basic medicine, Male, Nociception, Pain Threshold, Serotonin, Cannabinoid receptor, Time Factors, Polyunsaturated Alkamides, TRPV1, TRPV Cation Channels, Arachidonic Acids, Pharmacology, Neuropathic pain, Amidohydrolases, Glycerides, Receptors, G-Protein-Coupled, Receptor, Cannabinoid, CB2, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Receptor, Cannabinoid, CB1, Fatty acid amide hydrolase, Ganglia, Spinal, Animals, FAAH, Rats, Wistar, Cannabinoid receptors, Receptors, Cannabinoid, Cannabinoid Receptor Antagonists, Injections, Spinal, Palmitoylethanolamide, Analgesics, Dose-Response Relationship, Drug, Anandamide, N-acylethanolamines, Disease Models, Animal, 030104 developmental biology, chemistry, Spinal Cord, Cannabinoid receptor antagonist, GPR18, Neuralgia, lipids (amino acids, peptides, and proteins), 030217 neurology & neurosurgery, Endocannabinoids, Signal Transduction

Abstract

There is considerable evidence to support the role of anandamide (AEA), an endogenous ligand of cannabinoid receptors, in neuropathic pain modulation. AEA also produces effects mediated by other biological targets, of which the transient receptor potential vanilloid type 1 (TRPVI) has been the most investigated. Both, inhibition of AEA breakdown by fatty acid amide hydrolase (FAAH) and blockage of TRPVI have been shown to produce anti-nociceptive effects. Recent research suggests the usefulness of dual-action compounds, which may afford greater anti-allodynic efficacy. Therefore, in the present study, we examined the effect of N-arachidonoyl-serotonin (AA-5-HT), a blocker of FAAH and TRPV1, in a rat model of neuropathic pain after intrathecal administration. We found that treatment with AA-5-HT increased the pain threshold to mechanical and thermal stimuli, with highest effect at the dose of 500 nM, which was most strongly attenuated by AM-630, CB2 antagonist, administration. The single action blockers PF-3845 (1000 nM, for FAAH) and I-RTX (1 nM, for TRPV1) showed lower efficacy than AA-5-HT. Moreover AA-5-HT (500 nM) elevated AEA and palmitoylethanolamide (PEA) levels. Among the possible targets of these mediators, only the mRNA levels of CB2, GPR18 and GPR55, which are believed to be novel cannabinoid receptors, were upregulated in the spinal cord and/or DRG of CCI rats. It was previously reported that AA-5-HT acts in CB1 and TRPV1-dependent manner after systemic administration, but here for the first time we show that AA-5-HT action at the spinal level involves CB2, with potential contributions from GRP18 and/or GPR55 receptors. (C) 2016 Elsevier Ltd. All rights reserved.

Published

2016

38. New tool to assess walking patterns in the development of OA pain: kinetic weight bearing

Author

Katarzyna Starowicz, Magdalena Kostrzewa, Natalia Malek, and Jakub Mlost

Subjects

medicine.medical_specialty, Physical medicine and rehabilitation, Rheumatology, business.industry, Biomedical Engineering, Physical therapy, Medicine, Orthopedics and Sports Medicine, business, medicine.disease_cause, Weight-bearing

Published

2017

39. The monitoring of the viability of blood platelets labelled with calcein AM under different experimental conditions

Author

Radoslaw Sychowski, Boguslawa Luzak, Magdalena Kostrzewa, Hassan Kassassir, Dominika Dudzinska, Joanna Rywaniak, and Cezary Watala

Subjects

Pharmacology, Geranylgeranyl pyrophosphate, Physiology, Cholesterol, Glucose uptake, Farnesyl pyrophosphate, Glucose transporter, Actin cytoskeleton, chemistry.chemical_compound, Geranylgeranylation, chemistry, Molecular Medicine, Energy source

Abstract

endothelial cells (EC) dysfunction, thorough understanding of the statin effects on glucose uptake by these cells is of critical importance. Therefore, we investigated the influence of statins on glucose transport into EC and subsequently, we attempted to identify the mechanism of the observed effect. Methods: EC were incubated for 48 h with different concentrations of selected statins. Glucose transport into EC treated or not with insulin was assessed by incubation with H-2-deoxyglucose and dglucose fluorescent analogue, 6-NBDG and visualized using confocal microscopy. Lactate release was measured to assess the rate of glycolysis. Cytoskeletal F-actin organization was examined using TRITC-labeled phalloidin, whereas cellular fractions of free globular G-actin and filamentous F-actin were quantified by Western blot. Cholesterol and various intermediates of isoprenoid pathway: mevalonate (MVA), farnesyl pyrophosphate (FPP) and geranylgeranyl pyrophosphate (GGPP) were used to characterize the mechanism of statin-induced effect on glucose uptake. Results: All investigated statins decreased intracellular glucose transport and lactate release in the concentration-dependent manner. This suppressive effect was abolished by MVA and GGPP but not by FPP or cholesterol. Fluorescent staining of F-actin microfilaments showed disruption of actin cytoskeleton. This was further confirmed byWestern blot analysis, which revealed increased amount of G-actin and decreased F-actin in EC treated with statins. Conclusions: Our results indicate that the inhibitory effect of statins on both basal and insulin-induced glucose uptake is mediated by attenuation of cellular levels of GGPP. The rate of glycolysis, the major energy source in EC, is also reduced. We suggest that statins, by blocking the geranylgeranylation of GTP-binding proteins that are involved in cytoskeletal architecture and remodeling, disorganize actin cytoskeleton, impair the translocation of GLUTs (glucose transporters), and thus decrease glucose uptake. Our data may help to understand the development of diabetes type II in some patients treated with statins.

Published

2012

40. Synthesis of the Major Mammalian Metabolites of THCV

Author

Rosaria Villano, Alessia Ligresti, Francesco Tinto, Hannah Straker, Magdalena Kostrzewa, and Emiliano Manzo

Subjects

Mammals, Pharmacology, chemistry.chemical_classification, Allylic rearrangement, Cannabinoid receptor, Stereochemistry, Cannabinoids, Spectrum Analysis, Organic Chemistry, Antagonist, Pharmaceutical Science, THCV, Partial agonist, Endocannabinoid system, Analytical Chemistry, Stereocenter, Complementary and alternative medicine, chemistry, Drug Discovery, Cannabinoid receptor type 2, Animals, Molecular Medicine, Tricyclic

Abstract

A simple synthesis of the major oxidized metabolites in mammalian tissues of (-)-Delta(9)-tetrahydrocannabivarin (THCV) (1) has been accomplished by kinetic studies of allylic oxidation using SeO2 on botanically derived THCV with the aim to yield primary and secondary allylic alcohols concurrently. This synthetic approach led to the preparation of numerous THCV derivatives, including two new compounds, 8 alpha-hydroxy-Delta(9)-tetrahydrocannabivarin (2) and 8 beta-hydroxy-Delta(9)-tetrahydrocannabivarin (3), and the known compounds 11-hydroxy-Delta(9)-tetrahydrocannabivarin (4) and Delta(9)-tetrahydrocannabivarin-11-oic acid (5), without affecting the C-10a stereogenic center in the natural precursor and without formation of tricyclic dibenzopyran derivatives. This simple synthetic methodology could be useful to investigate the pharmacological role of THCV metabolites at, among others, the endocannabinoid CB1 and CB2 receptors for which THCV reportedly acts as respectively a neutral antagonist and partial agonist.

41. Biosynthesis of the Novel Endogenous 15-Lipoxygenase Metabolites N-13-Hydroxy-octodecadienoyl-ethanolamine and 13-Hydroxy-octodecadienoyl-glycerol by Human Neutrophils and Eosinophils

Author

Mélissa Simard, Roxane Pouliot, Rosa Maria Vitale, Michel Laviolette, Pier-Luc Plante, Nicolas Flamand, Cyril Martin, Alessia Ligresti, Cristoforo Silvestri, Volatiana Rakotoarivelo, Anne-Sophie Archambault, Magdalena Kostrzewa, Louis-Philippe Boulet, Francesco Tinto, Élizabeth Dumais, and Vincenzo Di Marzo

Subjects

linoleic acid, PPARs, QH301-705.5, Linoleic acid, Endogeny, chemistry.chemical_compound, Lipoxygenase, Ethanolamine, cannabinoid receptors, Biosynthesis, neutrophils, anandamide, linoleoyl-glycerol, Biology (General), 2-arachidonoyl-glycerol, biology, General Medicine, Anandamide, endocannabinoid, 13-HODE, Endocannabinoid system, chemistry, Biochemistry, Eicosanoid, eicosanoid, biology.protein, lipids (amino acids, peptides, and proteins), eosinophils

Abstract

The endocannabinoids 2-arachidonoyl-glycerol and N-arachidonoyl-ethanolamine are lipids regulating many physiological processes, notably inflammation. Endocannabinoid hydrolysis inhibitors are now being investigated as potential anti-inflammatory agents. In addition to 2-arachidonoyl-glycerol and N-arachidonoyl-ethanolamine, the endocannabinoidome also includes other monoacylglycerols and N-acyl-ethanolamines such as 1-linoleoyl-glycerol (1-LG) and N-linoleoyl-ethanolamine (LEA). By increasing monoacylglycerols and/or N-acyl-ethanolamine levels, endocannabinoid hydrolysis inhibitors will likely increase the levels of their metabolites. Herein, we investigated whether 1-LG and LEA were substrates for the 15-lipoxygenase pathway, given that both possess a 1Z,4Z-pentadiene motif, near their omega end. We thus assessed how human eosinophils and neutrophils biosynthesized the 15-lipoxygenase metabolites of 1-LG and LEA. Linoleic acid (LA), a well-documented substrate of 15-lipoxygenases, was used as positive control. N-13-hydroxy-octodecadienoyl-ethanolamine (13-HODE-EA) and 13-hydroxy-octodecadienoyl-glycerol (13-HODE-G), the 15-lipoxygenase metabolites of LEA and 1-LG, were synthesized using Novozym 435 and soybean lipoxygenase. Eosinophils, which express the 15-lipoxygenase-1, metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was almost complete after five minutes. Substrate preference of eosinophils was LA &gt, LEA &gt, 1-LG in presence of 13-HODE-G hydrolysis with methyl-arachidonoyl-fluorophosphonate. Human neutrophils also metabolized LA, 1-LG, and LEA into their 13-hydroxy derivatives. This was maximal after 15–30 s. Substrate preference was LA ≫ 1-LG &gt, LEA. Importantly, 13-HODE-G was found in humans and mouse tissue samples. In conclusion, our data show that human eosinophils and neutrophils metabolize 1-LG and LEA into the novel endogenous 15-lipoxygenase metabolites 13-HODE-G and 13-HODE-EA. The full biological importance of 13-HODE-G and 13-HODE-EA remains to be explored.