S. Dugnani scite author profile

Melatonin plays different physiological functions ranging from the regulation of circadian rhythms to tumor inhibition, owing to its antioxidant, immunomodulatory and anti-aging properties. Due to its pleiotropic functions, melatonin has been shown to elicit cytoprotective processes in normal cells and trigger pro-apoptotic signals in cancer cells. The therapeutic potential of melatonin analogues prompted us to investigate the in vitro and in vivo antitumor activity of new melatonin derivatives and explore the underlying molecular mechanisms. The experiments revealed that the new melatonin analogues inhibited the growth of melanoma and breast cancer cells in a dose- and time-dependent manner. In addition, our results indicated that melatonin derivative UCM 1037 could induce apoptosis in melanoma and breast cancer cells, as well as cell necrosis, in MCF-7. Together, apoptosis and necrosis could be two possible mechanisms to explain the cytotoxic effect of the melatonin analogue against cancer cells. The suppression of tumor growth by the melatonin analogues was further demonstrated in vivo in a xenograft mice model. A decrease in the activation of MAPK pathway was observed in all cancer cells following UCM 1037 treatment. Overall, this study describes a promising antitumor compound showing antiproliferative and cytotoxic activity in melanoma and breast cancer cells.

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MT₁‐Selective Melatonin Receptor Ligands: Synthesis, Pharmacological Evaluation, and Molecular Dynamics Investigation of N‐{[(3‐O‐Substituted)anilino]alkyl}amides

Rivara

Pala

Lodola

et al. 2012

ChemMedChem

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The design of compounds selective for the MT1 melatonin receptor is still a challenging task owing to the limited knowledge of the structural features conferring selectivity for the MT1 subtype, and only few selective compounds have been reported so far. N-(Anilinoalkyl)amides are a versatile class of melatonin receptor ligands that include nonselective MT1/MT2 agonists and MT2-selective antagonists. We synthesized a new series of N-(anilinoalkyl)amides bearing 3-arylalkyloxy or 3-alkyloxy substituents at the aniline ring, looking for new potent and MT1-selective ligands. To evaluate the effect of substituent size and shape on binding affinity and intrinsic activity, both flexible and conformationally constrained derivatives were prepared. The phenylbutyloxy substituent gave the best result, providing the partial agonist 4 a, which was endowed with high MT1 binding affinity (pKi=8.93) and 78-fold selectivity for the MT1 receptor. To investigate the molecular basis for agonist recognition, and to explain the role of the 3-arylalkyloxy substituent, we built a homology model of the MT1 receptor based on the β2 adrenergic receptor crystal structure in its activated state. A binding mode for MT1 agonists is proposed, as well as a hypothesis regarding the receptor structural features responsible for MT1 selectivity of compounds with lipophilic arylalkyloxy substituents.

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A New Model Examining Intracellular and Extracellular Activity of Amoxicillin, Azithromycin, and Clarithromycin in Infected Cells

et al. 1993

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An in vitro infection model was created using a suspension of macrophages, polymorphonuclear leukocytes, lymphocytes, fibroblasts, and human serum to which pathogen and antibiotic were added. Separate intracellular and extracellular antibiotic concentrations and activity against Staphylococcus aureus and Legionella pneumophila were assessed for three antimicrobial agents: amoxicillin, azithromycin and clarithromycin. Amoxicillin was found almost exclusively in extracellular fluid, where it was active; intracellularly, it was ineffective. Azithromycin, in contrast, was primarily concentrated and active intracellularly, with little activity in extracellular fluid. Clarithromycin was present in both compartments and possessed significant activity both intracellularly and extracellularly.

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The diffusion of clarithromycin and roxithromycin into nasal mucosa, tonsil and lung in humans

Fraschini

Scaglione

Pintucci

et al. 1991

Journal of Antimicrobial Chemotherapy

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The diffusion of clarithromycin and roxithromycin into respiratory tract tissues was studied in 174 adult patients undergoing surgery. Patients received clarithromycin 250 mg orally (500 mg in the case of lung tissue), or roxithromycin 150 mg orally, both given every 12 h, for three days with the last dose administered at different times before surgery. Clarithromycin reached peak tissue levels 4 h after administration and achieved mean peak concentrations of 8.32 mg/kg +/- 2.57 in nasal mucosa, 6.47 mg/kg +/- 2.8 in tonsil, and 17.47 mg/kg +/- 3.29 in lung tissue. Roxithromycin reached peak tissue levels between 4 and 6 h after administration, achieving mean peak concentrations of 1.78 mg/kg +/- 0.73 in nasal mucosa, 2.2 mg/kg +/- 1.21 in tonsil, and 2.14 mg/kg +/- 0.87 in lung tissue. Clarithromycin and roxithromycin demonstrated contrasting pharmacokinetic behaviour. Roxithromycin was characterized by high concentrations in serum and low concentrations in tissues. Clarithromycin on the other hand, is characterized by therapeutic serum concentrations and high tissue concentrations.

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Toward the Definition of Stereochemical Requirements for MT₂-Selective Antagonists and Partial Agonists by Studying 4-Phenyl-2-propionamidotetralin Derivatives

et al. 2011

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New derivatives of 4-phenyl-2-propionamidotetralin (4-P-PDOT) were prepared and tested on cloned MT1 and MT2 receptors, with the purpose of merging previously reported pharmacophores for nonselective agonists and for MT2-selective antagonists. A 8-methoxy group increases binding affinity of both (±)-cis- and (±)-trans-4-P-PDOT, and it can be bioisosterically replaced by a bromine. Conformational analysis of 8-methoxy-4-P-PDOT by molecular dynamics, supported by NMR data, revealed an energetically favored conformation for the (2S,4S)-cis isomer and a less favorable conformation for the (2R,4S)-trans one, fulfilling the requirements of a pharmacophore model for nonselective melatonin receptor agonists. A new superposition model, including features characteristic of MT2-selective antagonists, suggests that MT1/MT2 agonists and MT2 antagonists can share the same arrangement for their pharmacophoric elements. The model correctly predicted the eutomers of (±)-cis- and (±)-trans-4-P-PDOT. The model was validated by preparing three dihydronaphthalene derivatives, either able or not able to reproduce the putative active conformation of 4-P-PDOT.

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S. Dugnani

Antiproliferative and pro-apoptotic activity of melatonin analogues on melanoma and breast cancer cells

MT₁‐Selective Melatonin Receptor Ligands: Synthesis, Pharmacological Evaluation, and Molecular Dynamics Investigation of N‐{[(3‐O‐Substituted)anilino]alkyl}amides

A New Model Examining Intracellular and Extracellular Activity of Amoxicillin, Azithromycin, and Clarithromycin in Infected Cells

The diffusion of clarithromycin and roxithromycin into nasal mucosa, tonsil and lung in humans

Toward the Definition of Stereochemical Requirements for MT₂-Selective Antagonists and Partial Agonists by Studying 4-Phenyl-2-propionamidotetralin Derivatives

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S. Dugnani

Antiproliferative and pro-apoptotic activity of melatonin analogues on melanoma and breast cancer cells

MT1‐Selective Melatonin Receptor Ligands: Synthesis, Pharmacological Evaluation, and Molecular Dynamics Investigation of N‐{[(3‐O‐Substituted)anilino]alkyl}amides

A New Model Examining Intracellular and Extracellular Activity of Amoxicillin, Azithromycin, and Clarithromycin in Infected Cells

The diffusion of clarithromycin and roxithromycin into nasal mucosa, tonsil and lung in humans

Toward the Definition of Stereochemical Requirements for MT2-Selective Antagonists and Partial Agonists by Studying 4-Phenyl-2-propionamidotetralin Derivatives

Contact Info

Product

Resources

About

MT₁‐Selective Melatonin Receptor Ligands: Synthesis, Pharmacological Evaluation, and Molecular Dynamics Investigation of N‐{[(3‐O‐Substituted)anilino]alkyl}amides

Toward the Definition of Stereochemical Requirements for MT₂-Selective Antagonists and Partial Agonists by Studying 4-Phenyl-2-propionamidotetralin Derivatives