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9. Novel 3,4-dihydropyrazino[1,2-b]indazol-1(2H)-one derivatives targeting serotonin 2A and adrenergic alpha1 receptors as ocular antihypertensive agents

Author

Furlotti G, Garrone B, Leonelli F, Mangano G, Masini E, Tongiani S., GASPERI, TECLA, Furlotti, G, Gasperi, Tecla, Garrone, B, Leonelli, F, Mangano, G, Masini, E, and Tongiani, S.

Abstract

The prolonged elevation of the intraocular pressure (IOP) is one of the main risk factor associated with Glaucoma. As a consequence, the current available pharmacological strategies for the treatment of this pathology (e. g. Prostaglandin F2alpha analogues, adrenergic beta blockers and carbonic anhydrase inhibitors) are essentially aimed to reduce IOP level. Unfortunately all these medical treatments are associated with relevant side effects or have significant percentage of non-responders, with the result that more than 50% of the patients failed to control the glaucoma progression. With the aim to develop novel lead compounds, without the important drawbacks of the existing drugs, we envisaged that the dual interaction with serotonin 2A (5-HT2A) and adrenergic alpha1 (α1) receptor could be a potential approach for ocular antihypertensive. This hypothesis is substantiate by the well-established effect of the two receptor systems on aqueous humour dynamic. In this work we briefly describe the discovery of the novel class of selective 5-HT2A receptor ligands (I) with balanced affinity for adrenergic α1 receptors. The general synthetic pathway used for the preparation of this class of compounds and the binding assay results of some representative products are showed. Moreover, we demonstrate the in vivo IOP reduction efficacy of one 3,4-dihydropyrazino[1,2-b]indazol-1(2H)-one derivative, by means of an ocular hypertensive rabbit model (carbomer model).

Published
2013

29. Localization of a portion of extranuclear ATM to peroxisomes.

Author

Watters, D, Kedar, P, Spring, K, Bjorkman, J, Chen, P, Gatei, M, Birrell, G, Garrone, B, Srinivasa, P, Crane, D I, and Lavin, M F

Abstract

The gene mutated in the human genetic disorder ataxia-telangiectasia codes for a protein, ATM, the known functions of which include response to DNA damage, cell cycle control, and meiotic recombination. Consistent with these functions, ATM is predominantly present in the nucleus of proliferating cells; however, a significant proportion of the protein has also been detected outside the nucleus in cytoplasmic vesicles. To understand the possible role of extra-nuclear ATM, we initially investigated the nature of these vesicles. In this report we demonstrate that a portion of ATM co-localizes with catalase, that ATM is present in purified mouse peroxisomes, and that there are reduced levels of ATM in the post-mitochondrial membrane fraction of cells from a patient with a peroxisome biogenesis disorder. Furthermore the use of the yeast two-hybrid system demonstrated that ATM interacts directly with a protein involved in the import of proteins into the peroxisome matrix. Because peroxisomes are major sites of oxidative metabolism, we investigated catalase activity and lipid hydroperoxide levels in normal and A-T fibroblasts. Significantly decreased catalase activity and increased lipid peroxidation was observed in several A-T cell lines. The localization of ATM to peroxisomes may contribute to the pleiotropic nature of A-T.

Published
1999

32. N-methyl-D-aspartic acid (NMDA) and non-NMDA receptors regulating hippocampal norepinephrine release. II. Evidence for functional cooperation and for coexistence on the same axon terminal.

Author

Raiteri, M, Garrone, B, and Pittaluga, A

Abstract

The possible interactions between activation of N-methyl-D-aspartic acid (NMDA) receptors and non-NMDA receptors regulating the release of [3H]norepinephrine [( 3H]NE) have been investigated in superfused synaptosomes from rat hippocampus. NMDA--at a concentration (100 microM) which, in a medium containing 1.2 mM Mg++ ions, did not evoke [3H]NE release--acquired releasing activity in the presence of equimolar concentrations of quisqualic acid (QA), (RS)-alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) or kainic acid. The [3H] NE release evoked by NMDA plus QA in the presence of Mg++ ions was Ca(++)-dependent, partly tetrodotoxin-sensitive, inhibited by clonidine but insensitive to desipramine. The NMDA receptor antagonists D-2-amino-5-phosphonopentanoic acid (D-AP5) and (+)-5-methyl-10,11-dihydro-5-H-dibenzo[a,d]cycloepten-5,10-imine (MK-801) antagonized the NMDA-induced [3H]NE release in Mg(++)-free medium; the IC50 values amounted, respectively, to 81.4 microM and to 1.11 microM. When NMDA was tested in the presence of QA and Mg++ ions, the affinity of D-AP5 was enormously increased (IC50 = 40 nM; i.e., more than 6 orders of magnitude); the affinity of MK-801 was found to be augmented by 350-fold.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1992

33. Targeting monocyte chemotactic protein-1 synthesis with bindarit induces tumor regression in prostate and breast cancer animal models

Author

Giorgina Mangano, Luigi Navas, Lucia Liguori, Daniela Spano, Angelo Guglielmotti, Massimo Zollo, Daniela De Martino, Viviana Vastolo, Natascia Marino, Beatrice Garrone, Valeria Di Dato, Giuseppe Biondi, Zollo, Massimo, Di Dato, V, Spano, D, De Martino, D, Liguori, L, Marino, N, Vastolo, V, Navas, Luigi, Garrone, B, Mangano, G, Biondi, G, and Guglielmotti, A.

Subjects
Male, Cancer Research, Chemokine, Angiogenesis, MCP-1/CCL2, medicine.disease_cause, Prostate cancer, Mice, 0302 clinical medicine, Tumor-associated macrophage, Cell Movement, Breast, Neoplasm Metastasis, Chemokine CCL2, 0303 health sciences, Mice, Inbred BALB C, biology, Tumor-associated macrophages, NF-kappa B, Prostate, General Medicine, 3. Good health, Oncology, 030220 oncology & carcinogenesis, Female, Signal Transduction, Indazoles, Breast Neoplasms, 03 medical and health sciences, Immune system, Cell Line, Tumor, medicine, Myeloid-derived suppressor cell, Animals, Humans, Protein kinase B, 030304 developmental biology, Cell Proliferation, business.industry, Macrophages, Xenograft, Prostatic Neoplasms, medicine.disease, Tumor progression, Myeloid-derived suppressor cells, Immunology, Cancer research, biology.protein, Myeloid-derived Suppressor Cell, Propionates, Carcinogenesis, business, Neoplasm Transplantation
Abstract

Prostate and breast cancer are major causes of death worldwide, mainly due to patient relapse upon disease recurrence through formation of metastases. Chemokines are small proteins with crucial roles in the immune system, and their regulation is finely tuned in early inflammatory responses. They are key molecules during inflammatory processes, and many studies are focusing on their regulatory functions in tumor growth and angiogenesis during metastatic cell seeding and spreading. Bindarit is an anti-inflammatory indazolic derivative that can inhibit the synthesis of MCP-1/CCL2, with a potential inhibitory function in tumor progression and metastasis formation. We show here that in vitro, bindarit can modulate cancer-cell proliferation and migration, mainly through negative regulation of TGF-beta and AKT signaling, and it can impair the NF-kappa B signaling pathway through enhancing the expression of the NF-kappa B inhibitor IkB-alpha. In vivo administration of bindarit results in impaired metastatic disease in prostate cancer xenograft mice (PC-3M-Luc2 cells injected intra-cardially) and impairment of local tumorigenesis in syngeneic Balb/c mice injected under the mammary gland with murine breast cancer cells (4T1-Luc cells). In addition, bindarit treatment significantly decreases the infiltration of tumor-associated macrophages and myeloid-derived suppressor cells in 4T1-Luc primary tumors. Overall, our data indicate that bindarit is a good candidate for new therapies against prostate and breast tumorigenesis, with an action through impairment of inflammatory cell responses during formation of the tumor-stroma niche microenvironment.

Published
2012
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34. Early dysregulation of GSK3β impairs mitochondrial activity in Fragile X Syndrome.

Author

Cencelli G, Pedini G, Ricci C, Rosina E, Cecchetti G, Gentile A, Aiello G, Pacini L, Garrone B, Ombrato R, Coletta I, Prati F, Milanese C, and Bagni C

Abstract

The finely tuned regulation of mitochondria activity is essential for proper brain development. Fragile X Syndrome (FXS), the leading cause of inherited intellectual disability, is a neurodevelopmental disorder in which mitochondrial dysfunction has been increasingly implicated. This study investigates the role of Glycogen Synthase Kinase 3β (GSK3β) in FXS. Several studies have reported the dysregulation of GSK3β in FXS, and its role in mitochondrial function is also well established. However, the link between disrupted GSK3β activity and mitochondrial dysfunction in FXS remains unexplored. Utilizing Fmr1 knockout (KO) mice and human cell lines from individuals with FXS, we uncovered a developmental window where dysregulated GSK3β activity disrupts mitochondrial function. Notably, a partial inhibition of GSK3β activity in FXS fibroblasts from young individuals rescues the observed mitochondrial defects, suggesting that targeting GSK3β in the early stages may offer therapeutic benefits for this condition., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:, (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
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35. PK/PD analysis of trazodone and gabapentin in neuropathic pain rodent models: Translational PK-PD modeling from nonclinical to clinical development.

Author

Oggianu L, Garrone B, Fiorentini F, Del Bene F, Rosignoli MT, Di Giorgio FP, and Kaminski RM

Subjects
Humans, Mice, Animals, Gabapentin, Rodentia, Analgesics pharmacology, Acetic Acid, Models, Biological, Trazodone pharmacology, Neuralgia drug therapy
Abstract

A pharmacokinetic/pharmacodynamic (PK/PD) model was developed to describe the time course of writhings after intraperitoneal injection of acetic acid in mice. The model was applied to investigate the antinociceptive effect of trazodone and gabapentin alone and in combination. Writhings time course was described by a transit compartment model with the delay due to the transit of the acetic acid being represented by a chain of intermediate compartments. In the drug-treated animals, the number of writhings decreases according to a k 2 factor linking drug concentration and antinociceptive effect. Compounds' potency parameters were 10.9 and 0.0459 L/μmoles/min for trazodone and gabapentin, respectively, indicating a much higher in vivo potency of trazodone in the PD writhing test. The PK/PD parameters were used to simulate the expected writhing counts in mice at combined doses without efficacy alone, assuming pharmacological additivity. Simulation results indicated that, at low dose combinations, experimental data were mostly below the simulated writhings median, suggesting possible synergic effect. Such hypothesis was tested by adding the γ parameter in the PK/PD model to represent the deviation from the assumption of no-interaction, leading to a reduction of the objective function compared to the additive model. On this basis, several simulations were performed to identify possible starting dose combinations of trazodone and gabapentin in humans, by selecting doses yielding systemic exposures close to those being synergic in the mouse. Simulations indicated that doses of 50-100 mg trazodone could enhance gabapentin antinociceptive effect in humans, supporting the development of a low dose combination for optimal analgesia treatment., (© 2023 Angelini Pharma S.p.A. Clinical and Translational Science published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.)

Published
2023
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36. Presynaptic 5-HT 2A -mGlu2/3 Receptor-Receptor Crosstalk in the Prefrontal Cortex: Metamodulation of Glutamate Exocytosis.

Author

Taddeucci A, Olivero G, Roggeri A, Milanese C, Giorgio FPD, Grilli M, Marchi M, Garrone B, and Pittaluga A

Subjects
Animals, Autoreceptors metabolism, D-Aspartic Acid pharmacology, Exocytosis physiology, Glutamic Acid metabolism, Ketanserin pharmacology, Prefrontal Cortex metabolism, Rats, Receptor, Serotonin, 5-HT2A metabolism, Serotonin, Clozapine pharmacology, Receptors, Metabotropic Glutamate metabolism, Trazodone pharmacology
Abstract

The glutamatergic nerve endings of a rat prefrontal cortex (PFc) possess presynaptic 5-HT 2A heteroreceptors and mGlu2/3 autoreceptors, whose activation inhibits glutamate exocytosis, and is measured as 15 mM KCl-evoked [ 3 H]D-aspartate ([ 3 H]D-asp) release (which mimics glutamate exocytosis). The concomitant activation of the two receptors nulls their inhibitory activities, whereas blockade of the 5-HT 2A heteroreceptors with MDL11,939 (1 μM) strengthens the inhibitory effect elicited by the mGlu2/3 receptor agonist LY329268 (1 μM). 5-HT 2A receptor antagonists (MDL11,939; ketanserin; trazodone) amplify the impact of low (3 nM) LY379268. Clozapine (0.1-10 μM) mimics the 5-HT 2A agonist (±) DOI and inhibits the KCl-evoked [ 3 H]D-asp overflow in a MDL11,939-dependent fashion, but does not modify the (±) DOI-induced effect. mGlu2 and 5-HT 2A proteins do not co-immunoprecipitate from synaptosomal lysates, nor does the incubation of PFc synaptosomes with MDL11,939 (1 μM) or clozapine (10 µM) modify the insertion of mGlu2 subunits in synaptosomal plasma membranes. In conclusion, 5-HT 2A and mGlu2/3 receptors colocalize, but do not physically associate, in PFc glutamatergic terminals, where they functionally interact in an antagonist-like fashion to control glutamate exocytosis. The mGlu2/3-5-HT 2A metamodulation could be relevant to therapy for central neuropsychiatric disorders, including schizophrenia, but also unveil cellular events accounting for their development, which also influence the responsiveness to drugs regimens.

Published
2022
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37. Chromosome 8 Polysomy Accounting for MYC Over-Expression in Angiosarcoma Arising as Somatic-Type Malignancy in Metastatic Teratoma. Case Report.

Author

Vargas AC, Grimison P, Joy C, Garrone B, Bonar F, Ghahan RM, Davidson T, and Maclean FM

Subjects
Chromosomes, Human, Pair 8 genetics, Chromosomes, Human, Pair 8 metabolism, Gene Amplification, Humans, Male, Proto-Oncogene Proteins c-myc genetics, Hemangiosarcoma genetics, Hemangiosarcoma pathology, Neoplasms, Second Primary genetics, Teratoma genetics
Abstract

MYC over-expression by immunohistochemistry (IHC) is utilised in routine pathology practice as a surrogate marker for MYC amplification, which plays a key oncogenic role in post-irradiation and chronic lymphedema-associated angiosarcoma. We present the case of a 32-year old male, who presented with high-grade angiosarcoma arising in a background of metastatic testicular teratoma. IHC for MYC showed strong nuclear expression in the angiosarcoma cells prompting the consideration of post-irradiation-induced angiosarcoma but our patient did not undergo radiotherapy. Fluorescence in-situ hybridization (FISH) excluded MYC amplification and instead showed Chromosome 8 polysomy, which accounted for the strong MYC IHC expression present, not previously described in the context of germ cell tumours. The occurrence of MYC over-expression due to polysomy illustrates a novel clinical scenario (angiosarcoma arising as somatic malignancy) where strong MYC IHC expression can be found in the absence of underlying amplification or prior radiotherapy exposure.

Published
2022
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38. The novel potent GSK3 inhibitor AF3581 reverts fragile X syndrome phenotype.

Author

Porceddu PF, Ciampoli M, Romeo E, Garrone B, Durando L, Milanese C, Di Giorgio FP, and Reggiani A

Subjects
Animals, Disease Models, Animal, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism, Glycogen Synthase Kinase 3 genetics, Glycogen Synthase Kinase 3 metabolism, Mice, Mice, Knockout, Phenotype, Fragile X Syndrome drug therapy, Fragile X Syndrome genetics
Abstract

Glycogen-synthase kinase 3 (GSK3) is a kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK3 has been linked to several disease conditions such as fragile X syndrome (FXS). Recent evidences demonstrating an increased activity of GSK3 in murine models of FXS, suggest that dysregulation/hyperactivation of the GSK3 path should contribute to FXS development. A likely possibility could be that in FXS there is a functional impairment of the upstream inhibitory input over GSK3 thus making overactive the kinase. Since GSK3 signaling is a central regulatory node for critical neurodevelopmental pathways, understanding the contribution of GSK3 dysregulation to FXS, may provide novel targets for therapeutic interventions for this disease. In this study we used AF3581, a potent GSK3 inhibitor that we recently discovered, in an in vivo FXS mouse model to elucidate the crucial role of GSK3 in specific behavioral patterns (locomotor activity, sensorimotor gating and social behavior) associated with this disease. All the behavioral alterations manifested by Fmr1 knockout mice were reverted after a chronic treatment with our GSK3 inhibitor, confirming the importance of this pathway as a therapeutic target., (© The Author(s) 2021. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2022
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39. Lessons learnt from MDM2 fluorescence in-situ hybridisation analysis of 439 mature lipomatous lesions with an emphasis on atypical lipomatous tumour/well-differentiated liposarcoma lacking cytological atypia.

Author

Vargas AC, Joy C, Cheah AL, Jones M, Bonar F, Brookwell R, Garrone B, Talbot J, Harraway J, Gill AJ, and Maclean FM

Subjects
Adult, Aged, Humans, In Situ Hybridization, Fluorescence, Lipoma genetics, Lipoma pathology, Liposarcoma genetics, Liposarcoma pathology, Middle Aged, Proto-Oncogene Proteins c-mdm2 genetics, Retrospective Studies, Soft Tissue Neoplasms genetics, Soft Tissue Neoplasms pathology, Lipoma metabolism, Liposarcoma metabolism, Proto-Oncogene Proteins c-mdm2 metabolism, Soft Tissue Neoplasms metabolism
Abstract

Aims: Amplification of the murine double minute-2 (MDM2) gene, which is usually detected with fluorescence in-situ hybridisation (FISH), is the key driving event for atypical lipomatous tumours (ALTs)/well-differentiated liposarcomas (WDLs). We sought to determine the concordance between the histopathological findings and MDM2 FISH in the diagnosis of ALT/WDL, and to identify the histological features of MDM2-amplified tumours lacking classic atypia., Methods and Results: We performed a retrospective analysis of all mature lipomatous lesions subjected to MDM2 FISH analysis at our institution. MDM2 FISH analysis was performed on 439 mature lipomatous lesions: 364 (82.9%) were negative and 75 (17%) were positive. In 17 of 75 (22.6%) ALTs/WDLs, cytological atypia was not identified on initial histological assessment, thus favouring lipoma. On review, these cases shared common histological features, consisting of a very low number of relatively small stromal cells within the tumour lobules, with mildly coarse chromatin and oval nuclei, admixed with unremarkable adipocytes in a tumour background devoid of fibroconnective septa, areas of fibrosis, or blood vessels. These cells matched the cells in which FISH showed MDM2 amplification. In contrast, 13 cases (3.5%) regarded as suspicious for ALT/WDL on the basis of histology lacked MDM2 amplification and were reclassified following the FISH findings., Conclusions: We conclude that a subset of lipoma-like ALTs/WDLs are not associated with any of the features typically described in ALT/WDL. Our study also showed that tumours >100 mm are more likely to be ALT/WDL; however, a history of recurrence or concerning clinical/radiological features was not significantly associated with classification as ALT/WDL., (© 2021 John Wiley & Sons Ltd.)

Published
2022
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40. Testing Fmr1 KO Phenotypes in Response to GSK3 Inhibitors: SB216763 versus AFC03127.

Author

Westmark PR, Garrone B, Ombrato R, Milanese C, Di Giorgio FP, and Westmark CJ

Abstract

Glycogen synthase kinase 3 (GSK3) is a proline-directed serine-threonine kinase that is associated with several neurological disorders, including Alzheimer's disease and fragile X syndrome (FXS). We tested the efficacy of a novel GSK3 inhibitor AFC03127, which was developed by Angelini Pharma, in comparison to the metabotropic glutamate receptor 5 inhibitor 2-Methyl-6-(phenylethynyl)pyridine hydrochloride (MPEP) and the GSK3 inhibitor SB216763 in in vivo and in vitro assays in Fmr1 KO mice, a mouse model useful for the study of FXS. The in vivo assay tested susceptibility to audiogenic-induced seizures (AGS) whereas the in vitro assays assessed biomarker expression and dendritic spine length and density in cultured primary neurons as a function of drug dose. MPEP and SB216763 attenuated AGS in Fmr1 KO mice, whereas AFC03127 did not. MPEP and AFC03127 significantly reduced dendritic expression of amyloid-beta protein precursor (APP). All drugs rescued spine length and the ratio of mature dendritic spines. Spine density was not statistically different between vehicle and GSK3 inhibitor-treated cells. The drugs were tested over a wide concentration range in the in vitro assays to determine dose responses. A bell-shaped dose response decrease in APP expression was observed in response to AFC03127, which was more effective than SB216763. These findings confirm previous studies demonstrating differential effects of various GSK3 inhibitors on AGS propensity in Fmr1 KO mice and confirm APP as a downstream biomarker that is responsive to GSK3 activity., Competing Interests: BG, RO, CM, and FD are employees of Angelini Pharma S.p.A. Angelini Pharma S.p.A. played no role in the design of the study or the collection and analysis of the data. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Westmark, Garrone, Ombrato, Milanese, Di Giorgio and Westmark.)

Published
2021
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41. Synergistic interaction between trazodone and gabapentin in rodent models of neuropathic pain.

Author

Garrone B, di Matteo A, Amato A, Pistillo L, Durando L, Milanese C, Di Giorgio FP, and Tongiani S

Subjects
Analgesics pharmacology, Animals, Anti-Anxiety Agents pharmacology, Depressive Disorder, Major drug therapy, Disease Models, Animal, Drug Synergism, Gabapentin pharmacology, Male, Mice, Nociception drug effects, Trazodone pharmacology, Analgesics therapeutic use, Anti-Anxiety Agents therapeutic use, Gabapentin therapeutic use, Neuralgia drug therapy, Trazodone therapeutic use
Abstract

Neuropathic pain is a chronic debilitating condition caused by injury or disease of the nerves of the somatosensory system. Although several therapeutic approaches are recommended, none has emerged as an optimal treatment leaving a need for developing more effective therapies. Given the small number of approved drugs and their limited clinical efficacy, combining drugs with different mechanisms of action is frequently used to yield greater efficacy. We demonstrate that the combination of trazodone, a multifunctional drug for the treatment of major depressive disorders, and gabapentin, a GABA analogue approved for neuropathic pain relief, results in a synergistic antinociceptive effect in the mice writhing test. To explore the potential relevance of this finding in chronic neuropathic pain, pharmacodynamic interactions between low doses of trazodone (0.3 mg/kg) and gabapentin (3 mg/kg) were evaluated in the chronic constriction injury (CCI) rat model, measuring the effects of the two drugs both on evoked and spontaneous nociception and on general well being components. Two innate behaviors, burrowing and nest building, were used to assess these aspects. Besides exerting a significant antinociceptive effect on hyperalgesia and on spontaneous pain, combined inactive doses of trazodone and gabapentin restored in CCI rats innate behaviors that are strongly reduced or even abolished during persistent nociception, suggesting that the combination may have an impact also on pain components different from somatosensory perception. Our results support the development of a trazodone and gabapentin low doses combination product for optimal multimodal analgesia treatment., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: BG, AdM, AA, LP, LD, CM, FPDG and ST are employees of Angelini S.p.A. BG and LD are inventors in patent WO2017067870A1. This does not alter our adherence to PLOS ONE policies on sharing data and materials following signature of an appropriate Material Transfer Agreement.

Published
2021
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42. The mood stabilizing properties of AF3581, a novel potent GSK-3β inhibitor.

Author

Capurro V, Lanfranco M, Summa M, Porceddu PF, Ciampoli M, Margaroli N, Durando L, Garrone B, Ombrato R, Tongiani S, and Reggiani A

Subjects
Aggression drug effects, Anhedonia drug effects, Animals, Bipolar Disorder enzymology, Bipolar Disorder physiopathology, Bipolar Disorder psychology, Brain enzymology, Brain physiopathology, Brain-Derived Neurotrophic Factor metabolism, Depression enzymology, Depression physiopathology, Depression psychology, Disease Models, Animal, Food Preferences drug effects, Glycogen Synthase Kinase 3 beta metabolism, Hydrocortisone blood, Locomotion drug effects, Male, Mice, Inbred C57BL, Self Concept, Affect drug effects, Behavior, Animal drug effects, Bipolar Disorder drug therapy, Brain drug effects, Depression drug therapy, Enzyme Inhibitors pharmacology, Glycogen Synthase Kinase 3 beta antagonists & inhibitors
Abstract

Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzymeand highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients. Glycogen synthase kinase 3β (GSK-3β) is a serine/threonine protein kinase mediating phosphorylation on serine and threonine amino acid residues of several target molecules. The enzyme is involved in the regulation of many cellular processes and aberrant activity of GSK-3β has been linked to several disease conditions. There is now large evidence on the role of GSK-3β in the pathophysiology of mood disturbances with special regard to bipolar disorders. In the present study we further investigated the role of GSK-3β in bipolar disorders by studying AF3581, the prototype of a novel class of ATP-competitive GSK-3β inhibitors having the common N-[(1- alkylpiperidin-4-yl) methyl]-1H-indazole-3-carboxamide scaffold. Based on previous studies, AF3581 inhibits GSK-3β in the nanomolar range on purified human enzyme and highly selective with respect to other kinases. Current study demonstrates that the compound has efficacy both in the chronic mild stress paradigm of depression (mimicking the down phase of bipolar disorder) and on mice aggressiveness in the resident intruder model (mimicking the up phase). These findings underline the importance of aberrant GSK-3β activity in the development/ maintenance of mood oscillation in this peculiar pathological condition. Moreover, the present work also suggests a therapeutic potential for selective GSK-3 β inhibitors in the management of bipolar disorders patients., Competing Interests: Declaration of Competing Interest None., (Copyright © 2020 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2020
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43. Acute Low Dose of Trazodone Recovers Glutamate Release Efficiency and mGlu2/3 Autoreceptor Impairments in the Spinal Cord of Rats Suffering From Chronic Sciatic Ligation.

Author

Cisani F, Roggeri A, Olivero G, Garrone B, Tongiani S, Di Giorgio FP, and Pittaluga A

Abstract

We investigated whether chronic sciatic ligation modifies the glutamate release in spinal cord nerve endings (synaptosomes) as well as the expression and the function of presynaptic release-regulating mGlu2/3 autoreceptors and 5-HT 2A heteroreceptors in these particles. Synaptosomes were from the spinal cord of animals suffering from the sciatic ligation that developed on day 6 post-surgery a significant decrease of the force inducing paw-withdrawal in the lesioned paw. The exocytosis of glutamate (quantified as release of preloaded [ 3 H]D-aspartate, [ 3 H]D-Asp) elicited by a mild depolarizing stimulus (15 mM KCl) was significantly increased in synaptosomes from injured rats when compared to controls (uninjured rats). The mGlu2/3 agonist LY379268 (1000 pM) significantly inhibited the 15 mM KCl-evoked [ 3 H]D-Asp overflow from control synaptosomes, but not in terminals isolated from injured animals. Differently, a low concentration (10 nM) of (±) DOI, unable to modify the 15 mM KCl-evoked [ 3 H]D-Asp overflow in control spinal cord synaptosomes, significantly reduced the glutamate exocytosis in nerve endings isolated from the injured rats. Acute oral trazodone (TZD, 0.3 mg/kg on day 7 post-surgery) efficiently recovered glutamate exocytosis as well as the efficiency of LY379268 in inhibiting this event in spinal cord synaptosomes from injured animals. The sciatic ligation significantly reduced the expression of mGlu2/3, but not of 5-HT 2A , receptor proteins in spinal cord synaptosomal lysates. Acute TZD recovered this parameter. Our results support the use of 5-HT 2A antagonists for restoring altered spinal cord glutamate plasticity in rats suffering from sciatic ligation., (Copyright © 2020 Cisani, Roggeri, Olivero, Garrone, Tongiani, Di Giorgio and Pittaluga.)

Published
2020
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44. Pharmacological Characterization of the Microsomal Prostaglandin E 2 Synthase-1 Inhibitor AF3485 In Vitro and In Vivo .

Author

Di Francesco L, Bruno A, Ricciotti E, Tacconelli S, Dovizio M, Guillem-Llobat P, Alisi MA, Garrone B, Coletta I, Mangano G, Milanese C, FitzGerald GA, and Patrignani P

Abstract

Rationale: The development of inhibitors of microsomal prostaglandin (PG)E 2 synthase-1 (mPGES-1) was driven by the promise of attaining antiinflammatory agents with a safe cardiovascular profile because of the possible diversion of the accumulated substrate, PGH 2 , towards prostacyclin (PGI 2 )., Objectives: We studied the effect of the human mPGES-1 inhibitor, AF3485 (a benzamide derivative) on prostanoid biosynthesis in human whole blood in vitro . To characterize possible off-target effects of the compound, we evaluated: i)the impact of its administration on the systemic biosynthesis of prostanoids in a model of complete Freund's adjuvant (CFA)-induced monoarthritis in rats; ii) the effects on cyclooxygenase (COX)-2 expression and the biosynthesis of prostanoids in human monocytes and human umbilical vein endothelial cells (HUVECs) in vitro ., Methods: Prostanoids were assessed in different cellular models by immunoassays. The effect of the administration of AF3485 (30 and 100 mg/kg,i.p.) or celecoxib (20mg/kg, i.p.), for 3 days, on the urinary levels of enzymatic metabolites of prostanoids, PGE-M, PGI-M, and TX-M were assessed by LC-MS., Results: In LPS-stimulated whole blood, AF3485 inhibited PGE 2 biosynthesis, in a concentration-dependent fashion. At 100μM, PGE 2 levels were reduced by 66.06 ± 3.30%, associated with a lower extent of TXB 2 inhibition (40.56 ± 5.77%). AF3485 administration to CFA-treated rats significantly reduced PGE-M (P < 0.01) and TX-M (P < 0.05) similar to the selective COX-2 inhibitor, celecoxib. In contrast, AF3485 induced a significant (P < 0.05) increase of urinary PGI-M while it was reduced by celecoxib. In LPS-stimulated human monocytes, AF3485 inhibited PGE 2 biosynthesis with an IC 50 value of 3.03 µM (95% CI:0.5-8.75). At 1μM, AF3485 enhanced TXB 2 while at higher concentrations, the drug caused a concentration-dependent inhibition of TXB 2 . At 100 μM, maximal inhibition of the two prostanoids was associated with the downregulation of COX-2 protein by 86%. These effects did not involve AMPK pathway activation, IkB stabilization, or PPARγ activation. In HUVEC, AF3485 at 100 μM caused a significant (P < 0.05) induction of COX-2 protein associated with enhanced PGI 2 production. These effects were reversed by the PPARγ antagonist GW9662., Conclusions: The inhibitor of human mPGES-1 AF3485 is a novel antiinflammatory compound which can also modulate COX-2 induction by inflammatory stimuli. The compound also induces endothelial COX-2-dependent PGI 2 production via PPARγ activation, both in vitro and in vivo , which might translate into a protective effect for the cardiovascular system., (Copyright © 2020 Di Francesco, Bruno, Ricciotti, Tacconelli, Dovizio, Guillem-Llobat, Alisi, Garrone, Coletta, Mangano, Milanese, FitzGerald and Patrignani.)

Published
2020
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45. Optimization of Indazole-Based GSK-3 Inhibitors with Mitigated hERG Issue and In Vivo Activity in a Mood Disorder Model.

Author

Prati F, Buonfiglio R, Furlotti G, Cavarischia C, Mangano G, Picollo R, Oggianu L, di Matteo A, Olivieri S, Bovi G, Porceddu PF, Reggiani A, Garrone B, Di Giorgio FP, and Ombrato R

Abstract

Bipolar disorders still represent a global unmet medical need and pose a requirement for novel effective treatments. In this respect, glycogen synthase kinase 3β (GSK-3β) aberrant activity has been linked to the pathophysiology of several disease conditions, including mood disorders. Therefore, the development of GSK-3β inhibitors with good in vivo efficacy and safety profile associated with high brain exposure is required. Accordingly, we have previously reported the selective indazole-based GSK-3 inhibitor 1 , which showed excellent efficacy in a mouse model of mania. Despite the favorable preclinical profile, analog 1 suffered from activity at the hERG ion channel, which prevented its further progression. Herein, we describe our strategy to improve this off-target liability through modulation of physicochemical properties, such as lipophilicity and basicity. These efforts led to the potent inhibitor 14 , which possessed reduced hERG affinity, promising in vitro ADME properties, and was very effective in a mood stabilizer in vivo model., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published
2020
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46. Targeting Serotonin 2A and Adrenergic α 1 Receptors for Ocular Antihypertensive Agents: Discovery of 3,4-Dihydropyrazino[1,2-b]indazol-1(2H)-one Derivatives.

Author

Furlotti G, Alisi MA, Cazzolla N, Ceccacci F, Garrone B, Gasperi T, La Bella A, Leonelli F, Loreto MA, Magarò G, Mangano G, Bettolo RM, Masini E, Miceli M, Migneco LM, and Vitiello M

Subjects
Animals, Drug Discovery, Indazoles chemistry, Indazoles pharmacology, Intraocular Pressure drug effects, Pyrazines chemistry, Pyrazines pharmacology, Rats, Structure-Activity Relationship, Indazoles therapeutic use, Ocular Hypertension drug therapy, Pyrazines therapeutic use, Receptor, Serotonin, 5-HT2A drug effects, Receptors, Adrenergic, alpha-1 drug effects
Abstract

Glaucoma affects millions of people worldwide and causes optic nerve damage and blindness. The elevation of the intraocular pressure (IOP) is the main risk factor associated with this pathology, and decreasing IOP is the key therapeutic target of current pharmacological treatments. As potential ocular hypotensive agents, we studied compounds that act on two receptors (serotonin 2A and adrenergic α 1 ) linked to the regulation of aqueous humour dynamics. Herein we describe the design, synthesis, and pharmacological profiling of a series of novel bicyclic and tricyclic N2-alkyl-indazole-amide derivatives. This study identified a 3,4-dihydropyrazino[1,2-b]indazol-1(2H)-one derivative with potent serotonin 2A receptor antagonism, >100-fold selectivity over other serotonin subtype receptors, and high affinity for the α 1 receptor. Moreover, upon local administration, this compound showed superior ocular hypotensive action in vivo relative to the clinically used reference compound timolol., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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47. 5-HT 2A -mGlu2/3 receptor complex in rat spinal cord glutamatergic nerve endings: A 5-HT 2A to mGlu2/3 signalling to amplify presynaptic mechanism of auto-control of glutamate exocytosis.

Author

Olivero G, Grilli M, Vergassola M, Bonfiglio T, Padolecchia C, Garrone B, Di Giorgio FP, Tongiani S, Usai C, Marchi M, and Pittaluga A

Subjects
Animals, Biotinylation, Cerebral Cortex metabolism, Dose-Response Relationship, Drug, Excitatory Amino Acid Agents pharmacology, Exocytosis drug effects, Female, Glutamic Acid pharmacology, Immunoprecipitation, Male, Microscopy, Confocal, Nerve Endings drug effects, Rats, Serotonin Agents pharmacology, Signal Transduction drug effects, Statistics, Nonparametric, Synaptosomes drug effects, Synaptosomes metabolism, Vesicular Glutamate Transport Protein 1 metabolism, Exocytosis physiology, Glutamic Acid metabolism, Nerve Endings metabolism, Receptor, Serotonin, 5-HT2A metabolism, Receptors, Metabotropic Glutamate metabolism, Signal Transduction physiology, Spinal Cord ultrastructure
Abstract

Presynaptic mGlu2/3 autoreceptors exist in rat spinal cord nerve terminals as suggested by the finding that LY379268 inhibited the 15 mM KCl-evoked release of [ 3 H]D-aspartate ([ 3 H]D-Asp) in a LY341495-sensitive manner. Spinal cord glutamatergic nerve terminals also possess presynaptic release-regulating 5-HT 2A heteroreceptors. Actually, the 15 mM KCl-evoked [ 3 H]D-Asp exocytosis from spinal cord synaptosomes was reduced by the 5-HT 2A agonist (±)DOI, an effect reversed by the 5-HT 2A antagonists MDL11,939, MDL100907, ketanserin and trazodone (TZD). We investigated whether mGlu2/3 and 5-HT 2A receptors colocalize and cross-talk in these terminals and if 5-HT 2A ligands modulate the mGlu2/3-mediated control of glutamate exocytosis. Western blot analysis and confocal microscopy highlighted the presence of mGlu2/3 and 5-HT 2A receptor proteins in spinal cord VGLUT1 positive synaptosomes, where mGlu2/3 and 5-HT 2A receptor immunoreactivities largely colocalize. Furthermore, mGlu2/3 immunoprecipitates from spinal cord synaptosomes were also 5-HT 2A immunopositive. Interestingly, the 100 pM LY379268-induced reduction of the 15 mM KCl-evoked [ 3 H]D-Asp overflow as well as its inhibition by 100 nM (±)DOI became undetectable when the two agonists were concomitantly added. Conversely, 5-HT 2A antagonists (MDL11,939, MDL100907, ketanserin and TZD) reinforced the release-regulating activity of mGlu2/3 autoreceptors. Increased expression of mGlu2/3 receptor proteins in synaptosomal plasmamembranes paralleled the gain of function of the mGlu2/3 autoreceptors elicited by 5-HT 2A antagonists. Based on these results, we propose that in spinal cord glutamatergic terminals i) mGlu2/3 and 5-HT 2A receptors colocalize and interact one each other in an antagonist-like manner, ii) 5-HT 2A antagonists are indirect positive allosteric modulator of mGlu2/3 autoreceptors controlling glutamate exocytosis., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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48. Discovery and pharmacological profile of new 1H-indazole-3-carboxamide and 2H-pyrrolo[3,4-c]quinoline derivatives as selective serotonin 4 receptor ligands.

Author

Furlotti G, Alisi MA, Apicella C, Capezzone de Joannon A, Cazzolla N, Costi R, Cuzzucoli Crucitti G, Garrone B, Iacovo A, Magarò G, Mangano G, Miele G, Ombrato R, Pescatori L, Polenzani L, Rosi F, Vitiello M, and Di Santo R

Subjects
Animals, Computational Biology, Dogs, ERG1 Potassium Channel, Ether-A-Go-Go Potassium Channels antagonists & inhibitors, Ether-A-Go-Go Potassium Channels metabolism, Humans, Ligands, Macaca fascicularis, Mice, Molecular Structure, Protein Binding, Quinolines chemical synthesis, Radioligand Assay, Rats, Structure-Activity Relationship, Swine, Drug Design, Microsomes, Liver drug effects, Nociception drug effects, Quinolines pharmacology, Receptors, Serotonin, 5-HT4 metabolism
Abstract

Since the discovery of the serotonin 4 receptor (5-HT(4)R), a large number of receptor ligands have been studied. The safety concerns and the lack of market success of these ligands have mainly been attributed to their lack of selectivity. In this study we describe the discovery of N-[(4-piperidinyl)methyl]-1H-indazole-3-carboxamide and 4-[(4-piperidinyl)methoxy]-2H-pyrrolo[3,4-c]quinoline derivatives as new 5-HT(4)R ligands endowed with high selectivity over the serotonin 2A receptor and human ether-a-go-go-related gene potassium ion channel. Within these series, two molecules (11 ab and 12 g) were identified as potent and selective 5-HT(4)R antagonists with good in vitro pharmacokinetic properties. These compounds were evaluated for their antinociceptive action in two analgesia animal models. 12 g showed a significant antinociceptive effect in both models and is proposed as an interesting lead compound as a 5-HT(4)R antagonist with analgesic action.

Published
2012
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49. Targeting monocyte chemotactic protein-1 synthesis with bindarit induces tumor regression in prostate and breast cancer animal models.

Author

Zollo M, Di Dato V, Spano D, De Martino D, Liguori L, Marino N, Vastolo V, Navas L, Garrone B, Mangano G, Biondi G, and Guglielmotti A

Subjects
Animals, Cell Line, Tumor, Cell Movement, Cell Proliferation, Chemokine CCL2 chemistry, Chemokine CCL2 metabolism, Female, Humans, Macrophages metabolism, Male, Mice, Mice, Inbred BALB C, NF-kappa B metabolism, Neoplasm Metastasis, Neoplasm Transplantation, Signal Transduction, Breast Neoplasms pathology, Chemokine CCL2 biosynthesis, Indazoles pharmacology, Propionates pharmacology, Prostatic Neoplasms pathology
Abstract

Prostate and breast cancer are major causes of death worldwide, mainly due to patient relapse upon disease recurrence through formation of metastases. Chemokines are small proteins with crucial roles in the immune system, and their regulation is finely tuned in early inflammatory responses. They are key molecules during inflammatory processes, and many studies are focusing on their regulatory functions in tumor growth and angiogenesis during metastatic cell seeding and spreading. Bindarit is an anti-inflammatory indazolic derivative that can inhibit the synthesis of MCP-1/CCL2, with a potential inhibitory function in tumor progression and metastasis formation. We show here that in vitro, bindarit can modulate cancer-cell proliferation and migration, mainly through negative regulation of TGF-β and AKT signaling, and it can impair the NF-κB signaling pathway through enhancing the expression of the NF-κB inhibitor IkB-α. In vivo administration of bindarit results in impaired metastatic disease in prostate cancer xenograft mice (PC-3M-Luc2 cells injected intra-cardially) and impairment of local tumorigenesis in syngeneic Balb/c mice injected under the mammary gland with murine breast cancer cells (4T1-Luc cells). In addition, bindarit treatment significantly decreases the infiltration of tumor-associated macrophages and myeloid-derived suppressor cells in 4T1-Luc primary tumors. Overall, our data indicate that bindarit is a good candidate for new therapies against prostate and breast tumorigenesis, with an action through impairment of inflammatory cell responses during formation of the tumor-stroma niche microenvironment.

Published
2012
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50. Alpha-tocopheryl succinate inhibits autophagic survival of prostate cancer cells induced by vitamin K3 and ascorbate to trigger cell death.

Author

Tomasetti M, Nocchi L, Neuzil J, Goodwin J, Nguyen M, Dong L, Manzella N, Staffolani S, Milanese C, Garrone B, Alleva R, Borghi B, Santarelli L, and Guerrieri R

Subjects
Animals, Apoptosis Inducing Factor metabolism, Ascorbic Acid administration & dosage, Caspases metabolism, Cell Line, Tumor, Disease Progression, Humans, Male, Mice, Poly(ADP-ribose) Polymerases metabolism, Prostatic Neoplasms genetics, Protein Transport, Reactive Oxygen Species metabolism, Succinates administration & dosage, Vitamin K 3 administration & dosage, Xenograft Model Antitumor Assays, Ascorbic Acid pharmacology, Autophagy drug effects, Prostatic Neoplasms metabolism, Succinates pharmacology, Vitamin K 3 pharmacology
Abstract

Background: The redox-silent vitamin E analog α-tocopheryl succinate (α-TOS) was found to synergistically cooperate with vitamin K3 (VK3) plus ascorbic acid (AA) in the induction of cancer cell-selective apoptosis via a caspase-independent pathway. Here we investigated the molecular mechanism(s) underlying cell death induced in prostate cancer cells by α-TOS, VK3 and AA, and the potential use of targeted drug combination in the treatment of prostate cancer., Methodology/principal Findings: The generation of ROS, cellular response to oxidative stress, and autophagy were investigated in PC3 prostate cancer cells by using drugs at sub-toxic doses. We evaluated whether PARP1-mediated apoptosis-inducing factor (AIF) release plays a role in apoptosis induced by the combination of the agents. Next, the effect of the combination of α-TOS, VK3 and AA on tumor growth was examined in nude mice. VK3 plus AA induced early ROS formation associated with induction of autophagy in response to oxidative stress, which was reduced by α-TOS, preventing the formation of autophagosomes. α-TOS induced mitochondrial destabilization leading to the release of AIF. Translocation of AIF from mitochondria to the nucleus, a result of the combinatorial treatment, was mediated by PARP1 activation. The inhibition of AIF as well as of PARP1 efficiently attenuated apoptosis triggered by the drug combination. Using a mouse model of prostate cancer, the combination of α-TOS, VK3 and AA was more efficient in tumor suppression than when the drugs were given separately, without deleterious side effects., Conclusions/significance: α-TOS, a mitochondria-targeting apoptotic agent, switches at sub-apoptotic doses from autophagy-dependent survival of cancer cells to their demise by promoting the induction of apoptosis. Given the grim prognosis for cancer patients, this finding is of potential clinical relevance.

Published
2012
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