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Recent clinical evidence supports the potential of neurokinin NK1 receptor antagonists as novel antidepressant drugs. A number of NK1 antagonists have reduced affinity for rat and mouse NK1 receptors compared to human, making it difficult to test for efficacy in traditional animal models. NK1 antagonists, in general, have similar affinity at gerbil and human NK1 receptors. The aims of these studies were, first to validate the gerbil tail suspension test, a test used frequently to demonstrate antidepressant drug efficacy in mice, and second, to determine whether the test could be used to demonstrate the antidepressant potential of NK1 antagonists. Immobility time was reduced by oral administration of the antidepressants imipramine (3-30 mg/kg), desipramine (1-30 mg/kg), amitriptyline (30 mg/kg), fluoxetine (1-30 mg/kg), paroxetine (3-10 mg/kg), citalopram (0.1-3 mg/kg), sertraline (1-30 mg/kg), venlafaxine (1-30 mg/kg) and nefazodone (100 mg/kg). Furthermore, oral administration of the NK1 antagonists M K-869 (10 mg/kg), L-742,694 (110 mg/kg), L-733,060 (10 mg/kg), CP-99,994 (30 mg/kg), and CP-122,721 (3-30 mg/kg) reduced immobility time. Diazepam (1-10 mg/kg), chlordiazepoxide (1-10 mg/kg), buspirone (3-30 mgAg), FG-7142 (1-30 mg/kg), and haloperidol (1-10 mg/kg) did not reduce immobility. Amphetamine (0.3-10 mg/kg) and atropine (0.3-10 mg/kg) reduced immobility, suggesting susceptibility to false positives, e.g. compounds that affect locomotion. Compounds were therefore tested in a gerbil locomotor activity (LMA) test to ensure that the antidepressant-like effects were not secondary to effects on activity. Antidepressant drugs and NK1 antagonists had no effect on LMA at doses that reduced immobility, whereas amphetamine and atropine induced marked hyperactivity. These studies support both the utility of gerbils in behavioral pharmacology and the antidepressant potential of selective NK1 antagonists

Activity. --- Amphetamine. --- Animal model. --- Animal-model. --- Animal-models. --- Animal. --- Antidepressant drugs. --- Antidepressant. --- Anxiolytic-like. --- Atropine. --- Behavior. --- Blockade. --- Citalopram. --- Depression. --- Diazepam. --- Drug. --- Drugs. --- Fluoxetine. --- Gerbil. --- Gerbils. --- Haloperidol. --- Human. --- Hyperactivity. --- Immobility. --- Inhibition. --- Locomotion. --- Locomotor activity. --- Locomotor-activity. --- Mice. --- Model. --- Models. --- Mouse. --- Neurokinin nk1 receptor antagonists. --- Neurokinin nk1 receptor. --- Nk1 receptor antagonists. --- Nonpeptide antagonist. --- Pharmacology. --- Rat. --- Receptor antagonist. --- Receptor. --- Receptors. --- Social-interaction. --- Substance p. --- Substance-p receptors. --- Susceptibility. --- Tail suspension test. --- Test. --- Time.

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Identification and development of cancer biomarkers and targets have greatly accelerated progress towards precision medicine in oncology. Studies of tumor biology have not only provided insights into the mechanisms underlying carcinogenesis, but also led to discovery of molecules that have been developed into cancer biomarkers and targets. Multi-platforms for molecular characterization of tumors using next-generation genomic sequencing, immunohistochemistry, in situ hybridization, and blood-based biopsies have greatly expanded the portfolio of potential biomarkers and targets. These cancer biomarkers have been developed for diagnosis, early detection, prognosis, and prediction of treatment response. The molecular targets have been exploited for anti-cancer therapy and delivery of therapeutic agents. This Special Issue of Biomedicines focuses on recent advances in the discovery, characterization, translation, and clinical application of cancer biomarkers and targets in malignant diseases of the digestive system. The goal is to stimulate basic and translational research and clinical collaboration in this exciting field with the hope of developing strategies for prevention and early detection/diagnosis of cancer in digestive organs, and improving therapeutic and psychosocial outcomes in patients with these malignant diseases.

n/a --- liver graft injury --- HFE --- neurokinin --- chemotherapy --- intestinal tumors --- therapeutic targets --- biliary tract carcinoma --- hepatocellular carcinoma --- clinical trial --- cell adhesion molecules --- colorectal cancer --- biomarkers --- phenotypic mosaics --- gastrointestinal oncology --- Asian Cancer Research Group (ACRG) --- biomarker --- psychosocial support --- precision therapy --- pancreatic carcinoma --- precision medicine --- Liver transplantation --- predictive biomarkers --- CD274 --- cholecystokinin --- The Cancer Genome Atlas (TCGA) --- gastrin --- pembrolizumab --- immunotherapy --- gastrin-releasing peptide --- stereotactic body radiation therapy --- immunohistochemistry --- gastric carcinoma --- liver transplant --- CAM invasion assay --- intragraft gene expression profiles --- molecular profiling --- targeted therapy --- neurotensin --- intestinal disorder --- ramucirumab --- next-generation sequencing --- colorectal carcinoma --- tumor progenitor --- circulating tumor cells --- gastrointestinal malignancies --- bombesin --- trastuzumab --- somatostatin --- zebrafish --- G protein–coupled receptors --- G protein-coupled receptors

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Radiopharmaceuticals are used in the diagnosis and treatment of various diseases, especially cancer. In general, radiopharmaceuticals are either salts of radionuclides or radionuclides bound to biologically active molecules, drugs, or cells. Tremendous progress has been made in discovering, developing, and commercializing numerous radiopharmaceuticals for the imaging and therapy of cancer. Significant research is ongoing in academia and the pharmaceutical industry to develop more novel radiolabeled compounds as potential radiopharmaceuticals for unmet needs. This Special Issue aims to focus on all aspects of the design, characterization, evaluation, and development of novel radiolabeled compounds for the diagnosis and treatment of cancer and the application of new radiochemistry and methodologies for the development of novel radiolabeled compounds. Outstanding contributions presented in this Special Issue will significantly add to the field of radiopharmaceuticals.

Research & information: general --- Chemistry --- positron emission tomography (PET) --- pyrazoles --- fluorine-18 --- radionuclides --- PET probes --- imaging pharmaceuticals --- hypopharyngeal cancer --- 188Re-liposome --- repeated therapy --- NGS --- microRNA --- aprepitant --- radiopharmaceuticals --- neurokinin 1 receptor antagonist --- radionuclide chelators --- kidney uptake --- cleavable linkers --- neutral endopeptidase (NEP) --- renal brush border enzymes --- prostate-specific membrane antigen (PSMA) --- cancer imaging and therapy --- somatostatin analogs --- radiolabeling --- radionuclide therapy --- imaging --- adrenergic receptor --- positron emission tomography --- radiotracer --- cholecystokinin-2 receptor --- minigastrin --- molecular imaging --- targeted radiotherapy --- lutetium-177 --- EpCAM --- radionuclide --- SPECT --- iodine --- PIB --- breast --- cancer --- PET --- target-specific biomolecules --- immunoPET imaging pharmaceuticals --- production processes --- 124I-labeled monoclonal antibodies --- radiotracers --- AAZTA --- scandium-44 --- FAP --- SA --- DPP --- PREP --- radioiodine labeling --- radioiodination --- biomolecules --- peptides --- proteins --- monoclonal antibodies --- 123,124,125,131I-labeled molecules and biomolecules --- n/a

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The interest in opioids such as morphine, the prototypical opioid ligand, has been maintained through the years. The identification of endogenous opioids and their receptors (mu, delta, kappa, and nociceptin), molecular cloning, and the elucidation of the crystal structures of opioid receptors represent key milestones in opioid research. The opioid system modulates numerous pharmacological responses, with therapeutic (i.e., analgesia) and detrimental side effects (i.e., addiction). The medical use and misuse of opioids have dramatically increased, leading to the 21st century opioid crisis. This book presents recent developments in opioid drug discovery, specifically in the medicinal chemistry and pharmacology of new ligands targeting the opioid receptors as effective and safe therapeutics for human diseases. Furthermore, it draws a special attention to advancing concepts and strategies in opioid drug discovery to mitigate opioid liabilities. The diversity among the discussed topics is a testimony to the complexity of the opioid system, which results from the expression, regulation, and functional role of ligands and receptors. The array of multidisciplinary research areas illustrates the rapidly developing basic research and translational activities in opioid drug discovery. This book will serve as a useful reference while also stimulating continued research in the chemistry and pharmacology of opioids and their receptors, with the prospect of developing improved therapies for human diseases, but also improving health and quality of life in general.

opioid receptors --- neurokinin-1 receptor --- peptide synthesis --- receptor binding studies --- functional assay --- writhing test --- tolerance --- Leu-enkephalin --- beta-arrestin --- mu opioid receptor --- delta opioid receptor --- biased signaling --- DADLE --- ischemia --- plasma stability --- morphinan --- BNTX --- δ opioid receptor antagonist --- 1H-NMR experiments --- mechanism elucidation --- peripheral antinociception --- 14-methoxycodeine-6-O-sulfate --- codeine-6-O-sulfate --- opioid peptides and peptidomimetics --- DAMGO --- DALDA --- [Dmt1]DALDA --- KGOP01 --- binding --- molecular docking --- structure-activity relationships --- β2-amino acids --- β2-Homo-amino acids --- µ-opioid receptor --- opioid peptides --- TAPP --- racemic synthesis of β2-amino acids --- peripheral µ-opioid receptors --- analgesia --- peripheral analgesic tolerance --- dysbiosis --- opioid --- bifunctional ligands --- (−)-N-phenethylnorhydromorphone analogs --- [35S]GTPgammaS assay --- forskolin-induced cAMP accumulation assays --- β-arrestin recruitment assays --- MOR and DOR agonists --- respiratory depression --- bias factor --- molecular modeling &amp --- simulation --- δ opioid receptor --- NTI derivative --- sulfonamide --- inverse agonist --- neutral antagonist --- agonist --- opioids --- mu receptor --- opioid side effects --- biased agonism --- partial agonism --- zerumbone --- chronic constriction injury (CCI) --- allodynia --- hyperalgesia --- potassium channels --- over-the-counter drugs --- misuse --- abuse --- opioid drugs --- pharmacology --- codeine --- dihydrocodeine --- loperamide --- opioid peptide --- macrocyclic tetrapeptide --- multifunctional ligands --- kappa opioid receptor --- analgesics --- opioid liabilities --- μ opioid receptor --- receptor model --- biased ligands --- dependence --- pain therapy --- neonatal opioid withdrawal syndrome --- naltrexone --- 6β-naltrexol --- buprenorphine --- G-protein bias --- arrestin recruitment --- respiration --- mitragynine --- heteromer --- internalization --- primary hippocampal culture --- lysosomes --- µ opioid receptor --- molecular dynamics --- docking --- interaction fingerprints --- biased agonists --- SR-17018 --- PZM21 --- morphine --- fentanyl --- diphenethylamines --- design and synthesis --- structure–activity relationships --- partial agonist --- biased agonist --- antagonist --- binding affinity --- selectivity --- n/a

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The interest in opioids such as morphine, the prototypical opioid ligand, has been maintained through the years. The identification of endogenous opioids and their receptors (mu, delta, kappa, and nociceptin), molecular cloning, and the elucidation of the crystal structures of opioid receptors represent key milestones in opioid research. The opioid system modulates numerous pharmacological responses, with therapeutic (i.e., analgesia) and detrimental side effects (i.e., addiction). The medical use and misuse of opioids have dramatically increased, leading to the 21st century opioid crisis. This book presents recent developments in opioid drug discovery, specifically in the medicinal chemistry and pharmacology of new ligands targeting the opioid receptors as effective and safe therapeutics for human diseases. Furthermore, it draws a special attention to advancing concepts and strategies in opioid drug discovery to mitigate opioid liabilities. The diversity among the discussed topics is a testimony to the complexity of the opioid system, which results from the expression, regulation, and functional role of ligands and receptors. The array of multidisciplinary research areas illustrates the rapidly developing basic research and translational activities in opioid drug discovery. This book will serve as a useful reference while also stimulating continued research in the chemistry and pharmacology of opioids and their receptors, with the prospect of developing improved therapies for human diseases, but also improving health and quality of life in general.

Medicine --- opioid receptors --- neurokinin-1 receptor --- peptide synthesis --- receptor binding studies --- functional assay --- writhing test --- tolerance --- Leu-enkephalin --- beta-arrestin --- mu opioid receptor --- delta opioid receptor --- biased signaling --- DADLE --- ischemia --- plasma stability --- morphinan --- BNTX --- δ opioid receptor antagonist --- 1H-NMR experiments --- mechanism elucidation --- peripheral antinociception --- 14-methoxycodeine-6-O-sulfate --- codeine-6-O-sulfate --- opioid peptides and peptidomimetics --- DAMGO --- DALDA --- [Dmt1]DALDA --- KGOP01 --- binding --- molecular docking --- structure-activity relationships --- β2-amino acids --- β2-Homo-amino acids --- µ-opioid receptor --- opioid peptides --- TAPP --- racemic synthesis of β2-amino acids --- peripheral µ-opioid receptors --- analgesia --- peripheral analgesic tolerance --- dysbiosis --- opioid --- bifunctional ligands --- (−)-N-phenethylnorhydromorphone analogs --- [35S]GTPgammaS assay --- forskolin-induced cAMP accumulation assays --- β-arrestin recruitment assays --- MOR and DOR agonists --- respiratory depression --- bias factor --- molecular modeling &amp --- simulation --- δ opioid receptor --- NTI derivative --- sulfonamide --- inverse agonist --- neutral antagonist --- agonist --- opioids --- mu receptor --- opioid side effects --- biased agonism --- partial agonism --- zerumbone --- chronic constriction injury (CCI) --- allodynia --- hyperalgesia --- potassium channels --- over-the-counter drugs --- misuse --- abuse --- opioid drugs --- pharmacology --- codeine --- dihydrocodeine --- loperamide --- opioid peptide --- macrocyclic tetrapeptide --- multifunctional ligands --- kappa opioid receptor --- analgesics --- opioid liabilities --- μ opioid receptor --- receptor model --- biased ligands --- dependence --- pain therapy --- neonatal opioid withdrawal syndrome --- naltrexone --- 6β-naltrexol --- buprenorphine --- G-protein bias --- arrestin recruitment --- respiration --- mitragynine --- heteromer --- internalization --- primary hippocampal culture --- lysosomes --- µ opioid receptor --- molecular dynamics --- docking --- interaction fingerprints --- biased agonists --- SR-17018 --- PZM21 --- morphine --- fentanyl --- diphenethylamines --- design and synthesis --- structure-activity relationships --- partial agonist --- biased agonist --- antagonist --- binding affinity --- selectivity --- opioid receptors --- neurokinin-1 receptor --- peptide synthesis --- receptor binding studies --- functional assay --- writhing test --- tolerance --- Leu-enkephalin --- beta-arrestin --- mu opioid receptor --- delta opioid receptor --- biased signaling --- DADLE --- ischemia --- plasma stability --- morphinan --- BNTX --- δ opioid receptor antagonist --- 1H-NMR experiments --- mechanism elucidation --- peripheral antinociception --- 14-methoxycodeine-6-O-sulfate --- codeine-6-O-sulfate --- opioid peptides and peptidomimetics --- DAMGO --- DALDA --- [Dmt1]DALDA --- KGOP01 --- binding --- molecular docking --- structure-activity relationships --- β2-amino acids --- β2-Homo-amino acids --- µ-opioid receptor --- opioid peptides --- TAPP --- racemic synthesis of β2-amino acids --- peripheral µ-opioid receptors --- analgesia --- peripheral analgesic tolerance --- dysbiosis --- opioid --- bifunctional ligands --- (−)-N-phenethylnorhydromorphone analogs --- [35S]GTPgammaS assay --- forskolin-induced cAMP accumulation assays --- β-arrestin recruitment assays --- MOR and DOR agonists --- respiratory depression --- bias factor --- molecular modeling &amp --- simulation --- δ opioid receptor --- NTI derivative --- sulfonamide --- inverse agonist --- neutral antagonist --- agonist --- opioids --- mu receptor --- opioid side effects --- biased agonism --- partial agonism --- zerumbone --- chronic constriction injury (CCI) --- allodynia --- hyperalgesia --- potassium channels --- over-the-counter drugs --- misuse --- abuse --- opioid drugs --- pharmacology --- codeine --- dihydrocodeine --- loperamide --- opioid peptide --- macrocyclic tetrapeptide --- multifunctional ligands --- kappa opioid receptor --- analgesics --- opioid liabilities --- μ opioid receptor --- receptor model --- biased ligands --- dependence --- pain therapy --- neonatal opioid withdrawal syndrome --- naltrexone --- 6β-naltrexol --- buprenorphine --- G-protein bias --- arrestin recruitment --- respiration --- mitragynine --- heteromer --- internalization --- primary hippocampal culture --- lysosomes --- µ opioid receptor --- molecular dynamics --- docking --- interaction fingerprints --- biased agonists --- SR-17018 --- PZM21 --- morphine --- fentanyl --- diphenethylamines --- design and synthesis --- structure-activity relationships --- partial agonist --- biased agonist --- antagonist --- binding affinity --- selectivity