about
Prevention of house dust mite induced allergic airways disease in mice through immune toleranceTowards an advanced therapy medicinal product based on mesenchymal stromal cells isolated from the umbilical cord tissue: quality and safety data.Modulation of IL-17 and Foxp3 expression in the prevention of autoimmune arthritis in miceRegulatory T cells and dendritic cells in transplantation tolerance: molecular markers and mechanisms.Co-receptor and co-stimulation blockade for mixed chimerism and tolerance without myelosuppressive conditioning.Chronic arthritis leads to disturbances in the bone collagen network.Regulation of the germinal center reaction by Foxp3+ follicular regulatory T cells.Identification of a cytokine network sustaining neutrophil and Th17 activation in untreated early rheumatoid arthritis.Identification of regulatory T cells in tolerated allografts.Regulatory T cells in the induction and maintenance of peripheral transplantation tolerance.Dominant transplantation tolerance. Opinion.Serial analysis of gene expression provides new insights into regulatory T cells.Antibody-induced transplantation tolerance: the role of dominant regulation.Regulatory T cells and organ transplantation.CD4-blockade can induce protection from peanut-induced anaphylaxis.Donor-specific transplantation tolerance: the paradoxical behavior of CD4+CD25+ T cells.Dominant tolerance: activation thresholds for peripheral generation of regulatory T cells.The blind-spot of regulatory T cells.Immune privilege induced by regulatory T cells in transplantation tolerance.Regulatory T cell maintenance of dominant tolerance: induction of tissue self-defense?Haemophilia care in children--benefits of early prophylaxis for inhibitor prevention.Mechanisms of tolerance and allergic sensitization in the airways and the lungs.T cell apoptosis and induction of Foxp3+ regulatory T cells underlie the therapeutic efficacy of CD4 blockade in experimental autoimmune encephalomyelitis.T follicular helper and T follicular regulatory cells have different TCR specificity.In vivo delivery of peptides and Toll-like receptor ligands by mannose-functionalized polymeric nanoparticles induces prophylactic and therapeutic anti-tumor immune responses in a melanoma model.Poly(lactic acid)-based particulate systems are promising tools for immune modulation.T follicular regulatory cells in mice and men.IL-9 Expression by Invariant NKT Cells Is Not Imprinted during Thymic Development.Directed differentiation of dendritic cells from mouse embryonic stem cells.Development of functionalized nanoparticles for vaccine delivery to dendritic cells: a mechanistic approach.Regulatory T cells and the control of the allergic response.The role of human umbilical cord tissue-derived mesenchymal stromal cells (UCX®) in the treatment of inflammatory arthritis.Alterations on peripheral blood B-cell subpopulations in very early arthritis patients.Response to comment on "Induced IL-17-producing invariant NKT cells require activation in presence of TGF-β and IL-1β".Adjuvant facilitates tolerance induction to factor VIII in hemophilic mice through a Foxp3-independent mechanism that relies on IL-10.BAFF and TACI gene expression are increased in patients with untreated very early rheumatoid arthritis.Induced IL-17-producing invariant NKT cells require activation in presence of TGF-β and IL-1β.Route of Antigen Presentation Can Determine the Selection of Foxp3-Dependent or Foxp3-Independent Dominant Immune Tolerance.Human blood Tfr cells are indicators of ongoing humoral activity not fully licensed with suppressive function.The fate of CD4+ T cells under tolerance-inducing stimulation: a modeling perspective.
P50
Q27331682-BB183AF8-F00A-41CE-831D-7AA7A5451222Q30736517-CD496522-D7F4-42BD-B211-4F665D2E04F7Q30982756-1AF0ED6F-BD76-4C19-AA02-C20F5AB0DBDEQ33195020-52D66349-C040-4B5B-8370-01D84E54CD09Q33241067-D9D2DE99-E672-4DEC-88F8-B03450660AC5Q33524546-108925E0-811A-4852-860D-916127534C78Q34222672-90515A47-1D4B-4F8A-B6A8-AE96F98830F0Q34346409-699A069F-3F7E-4C0E-8ABB-AD8A9F0026FCQ34524237-0C0EA251-D8A3-402E-BB02-DC82DF0C555EQ35069619-04216E8F-5045-49ED-9A99-3A962C1D67BFQ35538145-6C634707-1241-4B1C-A5AB-5999283B11D6Q35613442-503EF1A7-AC2B-4B14-971D-AD0A79C1F7B9Q35624704-1BDFE9FB-60B9-44DC-A523-2683D9B53BAEQ35703532-7002D559-4CF0-4518-8704-80735CC126C8Q35927387-8E0CD571-09B5-4D27-BB2F-9430C8CDD24DQ35971446-EC4392D7-298F-49B9-8F5D-35CB8CEF617FQ36061019-E6DEA8F5-0F2C-4032-A8C7-7518A0D5FF05Q36435299-A1487649-9212-4DCB-9375-5487CC56077FQ36593774-A11842A2-6453-472E-9A5A-1A36C923201CQ36677942-24F2C961-1BC2-4075-AC76-ADE01544732AQ37363293-AB9250F3-301B-466C-8CC0-A035D459C4B6Q37509047-FC479C8A-641D-4E43-B6D0-5268B6C371BCQ38457848-2B887B92-E56E-4970-BE21-E050AC0763E9Q38827181-9F269D86-349F-4BBF-BF63-49DA1F178379Q38931309-28044FD8-F3EC-4EF7-8C4A-6B89E0C86C17Q39003273-6FBB2C45-8D93-460C-972B-ACFB6D17787EQ39375758-6362F9E9-6A14-437E-8FCB-B99FA0702555Q40617067-2F1D05AB-733E-4EDF-B253-C5B3FA09413CQ40837850-62270E52-8B86-428D-AB6F-3F3654C62BC1Q41662420-1C0CB604-A8EF-4BFE-B053-6239CB09D2C3Q41834768-5A9F04FD-7E0A-438B-ACF0-E7E6156C788DQ41972955-96417CE7-5AB5-4046-AD7A-935D95275D8CQ43138273-AC0062EF-AA60-4D54-A6CE-4D5EFB37DCD1Q43525225-7127427E-8BB6-45AE-8A3F-D921AC45487DQ44561738-546AB291-B62F-4595-87FD-E6C437804FBDQ46466905-A11AD218-3965-4B41-A263-3919493D2CDFQ46902978-02C87FED-5D71-41EE-B8A5-5CE5B75BD96FQ47372693-ED8939DA-2089-440E-84CD-E6952E540FFBQ48248992-2B881CB7-6DA4-4E4E-B96B-36435F96E102Q51149504-D24772E2-BF7C-43B9-82D4-C4BDEE004317
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Luis Graca
@ast
Luis Graca
@en
Luis Graca
@es
Luis Graca
@sl
Luís Graça
@pt
type
label
Luis Graca
@ast
Luis Graca
@en
Luis Graca
@es
Luis Graca
@sl
Luís Graça
@pt
prefLabel
Luis Graca
@ast
Luis Graca
@en
Luis Graca
@es
Luis Graca
@sl
Luís Graça
@pt
P1053
B-8887-2008
P106
P1153
36138488700
P21
P31
P3829
P496
0000-0001-6935-8500