about
Perspectives on reprograming cancer-associated dendritic cells for anti-tumor therapiesToll-like Receptors in Ovarian Cancer as Targets for ImmunotherapiesLetal, A tumor-associated NKG2D immunoreceptor ligand, induces activation and expansion of effector immune cellsMinireview: Regulatory T Cells and Ovarian Cancer.Use of immuno-LCM to identify the in situ expression profile of cellular constituents of the tumor microenvironment.Increased immunogenicity of surviving tumor cells enables cooperation between liposomal doxorubicin and IL-18.Tumor endothelium FasL establishes a selective immune barrier promoting tolerance in tumorsThe interplay between surfaces and soluble factors define the immunologic and angiogenic properties of myeloid dendritic cells.Modulation of the antitumor immune response by complement.Toll-like receptor 3 is critical for coxsackievirus B4-induced type 1 diabetes in female NOD mice.Time-dependent cytotoxic drugs selectively cooperate with IL-18 for cancer chemo-immunotherapy.Osteopathic manipulative therapy induces early plasma cytokine release and mobilization of a population of blood dendritic cells.Male bovine GH transgenic mice have decreased adiposity with an adipose depot-specific increase in immune cell populations.Generation of a syngeneic mouse model to study the effects of vascular endothelial growth factor in ovarian carcinoma.Adhesion to substrates induces dendritic cell endothelization and decreases immunological response.Expression of E-selectin ligands on circulating tumor cells: cross-regulation with cancer stem cell regulatory pathways?Whole tumor antigen vaccination using dendritic cells: comparison of RNA electroporation and pulsing with UV-irradiated tumor cells.Cancer prevention and therapy through the modulation of the tumor microenvironment.Biological therapy with oncolytic herpesvirus.Antigen-specific mRNA transfection of autologous dendritic cells.Dendritic cells: In vitro culture in two- and three-dimensional collagen systems and expression of collagen receptors in tumors and atherosclerotic microenvironments.Phenylmethimazole suppresses dsRNA-induced cytotoxicity and inflammatory cytokines in murine pancreatic beta cells and blocks viral acceleration of type 1 diabetes in NOD mice.Endothelin B receptor mediates the endothelial barrier to T cell homing to tumors and disables immune therapy.GH action influences adipogenesis of mouse adipose tissue-derived mesenchymal stem cells.In vitro and in vivo activity of eugenol on human herpesvirus.Different effects of glucose starvation on expression and stability of VEGF mRNA isoforms in murine ovarian cancer cells.Anti-inflammatory activities of Trichilia glabra aqueous leaf extract.Nitric oxide and HSV vaginal infection in BALB/c mice.Early inhibition of nitric oxide production increases HSV-1 intranasal infection.Herpes virus oncolytic therapy reverses tumor immune dysfunction and facilitates tumor antigen presentation.Effect of undernourishment on Herpes Simplex Virus Type 1 ocular infection in the Wistar rat model.Trait reflection predicts interleukin-6 response to a social-evaluative stressor.Immunotherapy for ovarian cancer: what are the targets of the future?Regulation of inflammatory factors by double-stranded RNA receptors in breast cancer cells.Effect of Melia azedarach L. leaf extracts on human complement and polymorphonuclear leukocytes.Stress-Induced Parasympathetic Control and Its Association With Inflammatory Reactivity.In vitro antiphagocytic effect of basil oil on mouse macrophages.Antiviral activity of sandalwood oil against herpes simplex viruses-1 and -2.Differential effects of poststressor rumination and distraction on cortisol and C-reactive proteinPlease stand by: how oncolytic viruses impact bystander cells
P50
Q26830839-9C16598D-2BB5-4B8F-819A-AF9D4C865338Q26861234-DAF80898-0470-4161-85A3-254223F73850Q28204913-18F5B9DE-0B4E-4E0E-AD5C-C19CA6C3FCF6Q30244214-E0642065-692B-418A-B0E4-598B5C486E24Q33240538-AB09C2CE-4F64-4D5C-93E6-0E03883C72C6Q33552702-EEA03B0C-DE66-4F0B-88E7-7B612F7EA332Q33765767-CD4BF0BF-EF75-4821-B3BD-020AD2B81987Q33924531-D8124A46-CEC3-487A-BC41-C982CD9411A7Q34838919-A1BBDF1E-879A-490D-940B-F562C8FB7F19Q34982303-FE2FC13B-5889-4C03-AE70-8B32AE7F3345Q35053993-DF94424A-D811-418F-8B56-4FD49626AFD5Q35116485-C7E87C5F-5D0F-4FFD-B09F-9A167E4A0E9BQ35436137-C8C171B5-CA9F-4163-8B32-3066098E65ADQ35748149-D26986E9-E1D8-4227-A5D2-30608DFD65CCQ36146867-483E2925-FC06-4AE8-BED4-741F201981E1Q36175119-247B83F6-B9BA-46CD-BFA0-3709ECD1BBC2Q36691357-AEE8679A-4769-441D-9746-9A003A5585AFQ37058267-ABE3B2D2-F05C-4D4C-9835-926EC731E070Q37188887-08747340-D3D5-4D9E-842D-573AE82473DBQ39016386-63DDF907-C596-4E19-9259-86FA80274CE3Q39020907-21D10702-4DFF-4F85-880D-509689B3421CQ39174728-A3ECCD4A-94E1-4886-AA62-75874AAA7D70Q40031362-99ED1CEA-50D2-45DE-A0EC-4E8E2857DC02Q42581639-DD6621C8-C452-4C61-9452-CEE6E6572CF8Q43509001-7C76202C-21EE-4944-A87E-521AE69C8D2FQ43955099-10DC0120-30F2-44F0-9CF0-B785335356C8Q44245338-6BFDEC3E-9852-42BB-B5F1-9395A2DF238AQ44426361-B08A5BF8-B69E-44B8-9658-E8B479EFFFD9Q44880308-7302094F-3827-4DE0-AAB6-BBD980D961DEQ45395292-3618D0FB-3749-4495-BB57-6B2F8C04F561Q45731989-310D42A4-258B-4B77-94FF-9C06D6D3AEFEQ47625258-AA316E10-B74C-4E0D-80C5-B2D6515167C8Q48489326-7ABE7725-2286-4F19-A19D-430AC3337AB9Q50055862-2EA31611-6F6D-42E5-9B5C-E114BAEA5BBDQ50776279-C7FF23DF-566E-4D7F-89DE-15BCEFE61A4AQ51244931-BFF5351B-058B-45C6-A99C-A9FFD5037457Q51708085-4B85B5CB-7333-474D-9CE5-3ADEAC8CD851Q55033109-D01B0A3E-A9A7-4A6C-9B37-4DED1F0329A5Q57715251-B25376CE-6C16-40A2-8253-77803F1D2966Q59351336-6174401C-DC08-4EA1-90CB-9A93B764D544
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Fabian Benencia
@ast
Fabian Benencia
@en
Fabian Benencia
@es
Fabian Benencia
@nl
Fabian Benencia
@sl
type
label
Fabian Benencia
@ast
Fabian Benencia
@en
Fabian Benencia
@es
Fabian Benencia
@nl
Fabian Benencia
@sl
prefLabel
Fabian Benencia
@ast
Fabian Benencia
@en
Fabian Benencia
@es
Fabian Benencia
@nl
Fabian Benencia
@sl
P106
P21
P31
P496
0000-0003-3049-6150