| Nome |
# |
|
Trazodone treatment protects neuronal-like cells from inflammatory insult by inhibiting NF-κB, p38 and JNK, file e0d6c930-732f-fcf8-e053-d805fe0aa794
|
445
|
|
Prevention of Excessive Endothelin-1 Release in Sclerotherapy: In Vitro and In Vivo Studies., file e0d6c927-1579-fcf8-e053-d805fe0aa794
|
360
|
|
Toward highly potent cancer agents by modulating the C-2 group of the arylthioindole class of tubulin polymerization inhibitors, file e0d6c929-3660-fcf8-e053-d805fe0aa794
|
228
|
|
A public dataset of 24-H multi-levels psycho-physiological responses in young healthy adults, file e0d6c92f-2037-fcf8-e053-d805fe0aa794
|
223
|
|
TSPO PIGA ligands promote neurosteroidogenesis and human astrocyte well-being, file e0d6c927-910c-fcf8-e053-d805fe0aa794
|
219
|
|
TSPO ligand residence time: a new parameter to predict compound neurosteroidogenic efficacy, file e0d6c926-d013-fcf8-e053-d805fe0aa794
|
213
|
|
AM251 induces apoptosis and G2/M cell cycle arrest in A375 human melanoma cells, file e0d6c92b-d18c-fcf8-e053-d805fe0aa794
|
213
|
|
TSPO ligand residence time influences human glioblastoma multiforme cell death/life balance, file e0d6c926-900d-fcf8-e053-d805fe0aa794
|
205
|
|
The Citrus Flavanone Naringenin Protects Myocardial Cells against Age-Associated Damage, file e0d6c929-00f1-fcf8-e053-d805fe0aa794
|
174
|
|
TSPO-ligands prevent oxidative damage and inflammatory response in C6 glioma cells by neurosteroid synthesis, file e0d6c931-0a81-fcf8-e053-d805fe0aa794
|
174
|
|
The Anxiolytic Etifoxine Binds to TSPO Ro5-4864 Binding Site with Long Residence Time Showing a High Neurosteroidogenic Activity, file e0d6c930-bea2-fcf8-e053-d805fe0aa794
|
167
|
|
The citrus flavanone naringenin produces cardioprotective effects in hearts from 1 year old rat, through activation of mitoBK channels, file e0d6c929-00ef-fcf8-e053-d805fe0aa794
|
156
|
|
Regulation of Erythropoietin Receptor Activity in Endothelial Cells by Different Erythropoietin (EPO) Derivatives: An in Vitro Study., file e0d6c927-5d86-fcf8-e053-d805fe0aa794
|
138
|
|
New 6- and 7-heterocyclyl-1H-indole derivatives as potent tubulin assembly and cancer cell growth inhibitors, file e0d6c931-13f5-fcf8-e053-d805fe0aa794
|
122
|
|
The Citrus Flavonoid Naringenin Protects the Myocardium from Ageing-Dependent Dysfunction: Potential Role of SIRT1, file e0d6c92e-7269-fcf8-e053-d805fe0aa794
|
121
|
|
Combined inhibition of AKT/mTOR and MDM2 enhances Glioblastoma Multiforme cell apoptosis and differentiation of cancer stem cells, file e0d6c929-17ee-fcf8-e053-d805fe0aa794
|
110
|
|
Translocator protein and steroidogenesis, file e0d6c930-dfb9-fcf8-e053-d805fe0aa794
|
104
|
|
Antioxidant and Antisenescence Effects of Bergamot Juice, file e0d6c92b-0ab9-fcf8-e053-d805fe0aa794
|
101
|
|
Human glioblastoma multiforme: p53 reactivation by a novel MDM2 inhibitor, file e0d6c926-446c-fcf8-e053-d805fe0aa794
|
85
|
|
Theranostic properties of a survivin-directed molecular beacon in human melanoma cells, file e0d6c92b-e63f-fcf8-e053-d805fe0aa794
|
83
|
|
Deepening the Topology of the Translocator Protein Binding Site by Novel N,N-Dialkyl-2-arylindol-3-ylglyoxylamides, file e0d6c92b-cb7f-fcf8-e053-d805fe0aa794
|
77
|
|
Cytokine secretion responsiveness of lymphomonocytes following cortisol cell exposure: Sex differences, file e0d6c92a-fe77-fcf8-e053-d805fe0aa794
|
72
|
|
Mitochondriotropic and Cardioprotective Effects of Triphenylphosphonium-Conjugated Derivatives of the Diterpenoid Isosteviol, file e0d6c92a-0233-fcf8-e053-d805fe0aa794
|
65
|
|
New Indole Tubulin Assembly Inhibitors Cause Stable Arrest of Mitotic Progression, Enhanced Stimulation of Natural Killer Cell Cytotoxic Activity, and Repression of Hedgehog-Dependent Cancer, file e0d6c930-fde1-fcf8-e053-d805fe0aa794
|
60
|
|
Lead Optimization of 2-Phenylindolylglyoxylyldipeptide Murine Double Minute (MDM)2/Translocator Protein (TSPO) Dual Inhibitors for the Treatment of Gliomas, file e0d6c930-9943-fcf8-e053-d805fe0aa794
|
52
|
|
Apoptosis Therapy in Cancer: The First Single-molecule Co-activating p53 and the Translocator Protein in Glioblastoma, file e0d6c929-3740-fcf8-e053-d805fe0aa794
|
51
|
|
Microglial pro-inflammatory and anti-inflammatory phenotypes are modulated by translocator protein activation, file e0d6c92e-57d7-fcf8-e053-d805fe0aa794
|
48
|
|
Exploiting the 4-Phenylquinazoline Scaffold for the Development of High Affinity Fluorescent Probes for the Translocator Protein (TSPO), file e0d6c930-7bf9-fcf8-e053-d805fe0aa794
|
47
|
|
Remarkable Enhancement in Boron Uptake Within Glioblastoma Cells With Carboranyl–Indole Carboxamides, file e0d6c930-22ad-fcf8-e053-d805fe0aa794
|
34
|
|
Analysis of the Antitumor Activity of Clotrimazole on A375 Human Melanoma Cells, file e0d6c92b-c1e0-fcf8-e053-d805fe0aa794
|
30
|
|
Bifunctional Inhibitors as a New Tool To Reduce Cancer Cell Invasion by Impairing MMP-9 Homodimerization, file e0d6c930-9f49-fcf8-e053-d805fe0aa794
|
21
|
|
Cyclic adenosine monophosphate responsive element binding protein in post-traumatic stress disorder, file e0d6c931-5a2e-fcf8-e053-d805fe0aa794
|
19
|
|
Residence Time (RT), a new parameter to predict neurosteroidogenic efficacy of Translocator Protein (TSPO) ligands: N,N-dialkyl-2-arylindol-3-ylglyoxylamides, a case study, file e0d6c92b-a2b1-fcf8-e053-d805fe0aa794
|
18
|
|
Translocator protein as a promising target
for novel anxiolytics, file e0d6c926-3eff-fcf8-e053-d805fe0aa794
|
16
|
|
Bifunctional Inhibitors as a New Tool To Reduce Cancer Cell Invasion by Impairing MMP-9 Homodimerization, file e0d6c928-ebfc-fcf8-e053-d805fe0aa794
|
7
|
|
Exploiting the 4-Phenylquinazoline Scaffold for the Development of High Affinity Fluorescent Probes for the Translocator Protein (TSPO), file e0d6c92a-0b3b-fcf8-e053-d805fe0aa794
|
7
|
|
Differential Effects of Fondaparinux and Bemiparin on Angiogenic and Vasculogenesis-like processes., file e0d6c929-1928-fcf8-e053-d805fe0aa794
|
5
|
|
An update into the medicinal chemistry of translocator protein (TSPO) ligands, file e0d6c92f-2892-fcf8-e053-d805fe0aa794
|
5
|
|
Synthesis and biological evaluation in U87MG
glioma cells of (ethynylthiophene)sulfonamido-based hydroxamates as matrix
metalloproteinase inhibitors, file e0d6c926-f864-fcf8-e053-d805fe0aa794
|
4
|
|
Unbinding of Translocator Protein 18 kDa (TSPO) Ligands: From in Vitro Residence Time to in Vivo Efficacy via in Silico Simulations, file e0d6c92e-1981-fcf8-e053-d805fe0aa794
|
4
|
|
The Anxiolytic Etifoxine Binds to TSPO Ro5-4864 Binding Site with Long Residence Time Showing a High Neurosteroidogenic Activity, file e0d6c930-c184-fcf8-e053-d805fe0aa794
|
4
|
|
Sonno e matematica: un progetto interdisciplinare, file c1cad50a-4c65-4a81-87fd-0c25245fb87a
|
3
|
|
An antibody-free strategy
for screening putative HDM2 inhibitors using crude bacterial lysates expressing
GST-HDM2 recombinant protein, file e0d6c926-3999-fcf8-e053-d805fe0aa794
|
3
|
|
Deepening the Topology of the Translocator Protein Binding Site by Novel N,N-Dialkyl-2-arylindol-3-ylglyoxylamides, file e0d6c927-1b29-fcf8-e053-d805fe0aa794
|
3
|
|
Residence Time (RT), a new parameter to predict neurosteroidogenic efficacy of Translocator Protein (TSPO) ligands: N,N-dialkyl-2-arylindol-3-ylglyoxylamides, a case study, file e0d6c92b-a2ae-fcf8-e053-d805fe0aa794
|
3
|
|
AM251 induces apoptosis and G2/M cell cycle arrest in A375 human melanoma cells, file e0d6c92b-e036-fcf8-e053-d805fe0aa794
|
3
|
|
Carbonic anhydrase activation profile of indole-based derivatives, file e0d6c931-882d-fcf8-e053-d805fe0aa794
|
3
|
|
De novo neurosteroidogenesis in human microglia: Involvement of the 18 kda translocator protein, file e0d6c931-a2a0-fcf8-e053-d805fe0aa794
|
3
|
|
Intermittent hypoxia treatments cause cellular priming in human microglia, file 534b1bbd-cad3-451c-9f4a-760354130264
|
2
|
|
Analysis of the Antitumor Activity of Clotrimazole on A375 Human Melanoma Cells, file e0d6c92b-b49e-fcf8-e053-d805fe0aa794
|
2
|
|
Lead Optimization of 2-Phenylindolylglyoxylyldipeptide Murine Double Minute (MDM)2/Translocator Protein (TSPO) Dual Inhibitors for the Treatment of Gliomas, file e0d6c930-69b9-fcf8-e053-d805fe0aa794
|
2
|
|
Targeting the 18-kDa translocator protein: Recent perspectives for neuroprotection, file e0d6c930-eab8-fcf8-e053-d805fe0aa794
|
2
|
|
Identification of a Novel p53 Modulator Endowed with Antitumoural and Antibacterial Activity through a Scaffold Repurposing Approach, file 01a3238b-df78-4bb1-9b4e-44984e2e1fa3
|
1
|
|
Ether analogues of DPA-714 with subnanomolar affinity for the translocator protein (TSPO)., file e0d6c926-8d6c-fcf8-e053-d805fe0aa794
|
1
|
|
Structure-Activity Relationship Refinement and Further Assessment of 4-Phenylquinazoline-2-carboxamide Translocator Protein Ligands as Antiproliferative Agents in Human Glioblastoma Tumors., file e0d6c929-31e8-fcf8-e053-d805fe0aa794
|
1
|
|
Antioxidant, cardiomyocyte anti-ageing properties and phytochemical profile of Citrus bergamia juices, file e0d6c92a-013c-fcf8-e053-d805fe0aa794
|
1
|
|
Synthesis and Biological Evaluation of 4-Phenylquinazoline-2-carboxamides Designed as a Novel Class of Potent Ligands of the Translocator Protein, file e0d6c92a-41d1-fcf8-e053-d805fe0aa794
|
1
|
|
Evaluation of Novel N1-Methyl-2-phenylindol-3-ylglyoxylamides as a New Chemotype 2 of 18 kDa Translocator Protein-Selective Ligand Suitable for the Development 3 of Positron Emission Tomography Radioligands.,, file e0d6c92a-615e-fcf8-e053-d805fe0aa794
|
1
|
|
Novel Irreversible Fluorescent Probes Targeting the 18 kDa Translocator Protein: Synthesis and Biological Characterization, file e0d6c92a-6a9a-fcf8-e053-d805fe0aa794
|
1
|
|
Unbinding of Translocator Protein 18 kDa (TSPO) Ligands: From in Vitro Residence Time to in Vivo Efficacy via in Silico Simulations, file e0d6c92d-ecd7-fcf8-e053-d805fe0aa794
|
1
|
|
18-kDa translocator protein association complexes in the brain: From structure to function, file e0d6c92f-2891-fcf8-e053-d805fe0aa794
|
1
|
| Totale |
4.325 |