Lymphodepletion and homeostatic proliferation: implications for transplantation.
about
Role of Memory T Cells and Perspectives for Intervention in Organ TransplantationThe seventh zinc finger motif of A20 is required for the suppression of TNF-α-induced apoptosisPorcine reproductive and respiratory syndrome (PRRS): an immune dysregulatory pandemic.Restoring the balance: immunotherapeutic combinations for autoimmune diseaseImmunophenotyping and efficacy of low dose ATG in non-sensitized kidney recipients undergoing early steroid withdrawal: a randomized pilot study.IL-18 synergizes with IL-7 to drive slow proliferation of naive CD8 T cells by costimulating self-peptide-mediated TCR signals.Immunological considerations in in utero hematopoetic stem cell transplantation (IUHCT)The Microbiome, Systemic Immune Function, and Allotransplantation.Sequential Targeting of CD52 and TNF Allows Early Minimization Therapy in Kidney Transplantation: From a Biomarker to Targeting in a Proof-Of-Concept Trial.CD4 T Cell Help via B Cells Is Required for Lymphopenia-Induced CD8 T Cell ProliferationInterferon Gamma ELISPOT Testing as a Risk-Stratifying Biomarker for Kidney Transplant Injury: Results From the CTOT-01 Multicenter Study.Dose response kinetics of CD8 lymphocytes from young animals transfused into old animals and challenged with influenza.Combining Theoretical and Experimental Techniques to Study Murine Heart Transplant Rejection.HCV-specific immune responses induced by CIGB-230 in combination with IFN-α plus ribavirin.Involvement of suppressive B-lymphocytes in the mechanism of tolerogenic dendritic cell reversal of type 1 diabetes in NOD miceImmune reconstitution 20 years after treatment with alemtuzumab in a rheumatoid arthritis cohort: implications for lymphocyte depleting therapies.Loss of immune homeostasis dictates SHIV rebound after stem-cell transplantation.Concise review: immunologic lessons from solid organ transplantation for stem cell-based therapies.Cellular immunotherapy for plasma cell myeloma.Homeostatic T cell proliferation after islet transplantation.Current status of allograft tolerance in intestinal transplantation.Homeostatic expansion as a barrier to lymphocyte depletion strategies.Memory T Cells in Transplantation.Innate memory T cells.A septin requirement differentiates autonomous and contact-facilitated T cell proliferation.IL-7 receptor blockade following T cell depletion promotes long-term allograft survival.Challenges and opportunities in targeting the CD28/CTLA-4 pathway in transplantation and autoimmunity.Memory T cells in organ transplantation: progress and challenges.Generation of donor-specific Tr1 cells to be used after kidney transplantation and definition of the timing of their in vivo infusion in the presence of immunosuppression.Cytomegalovirus-Responsive CD8+ T Cells Expand After Solid Organ Transplantation in the Absence of CMV Disease.Role of Memory T Cells in Allograft Rejection and ToleranceAlemtuzumab as Antirejection Therapy: T Cell Repopulation and Cytokine Responsiveness.Combined induction therapy with rabbit antithymocyte globulin and rituximab in highly sensitized renal recipients.Impact of irradiation and immunosuppressive agents on immune system homeostasis in rhesus macaques.Impact of Human Mutant TGFβ1/Fc Protein on Memory and Regulatory T Cell Homeostasis Following Lymphodepletion in Nonhuman Primates.Tmem time: memory T-cells in cardiac allograft vasculopathy : editorial to: "memory t cells mediate cardiac allograft vasculopathy and are inactivated by anti-OX40L monoclonal antibody" by Hao Wang et al.Posttransplant Immune Activation: Innocent Bystander or Insidious Culprit of Posttransplant Accelerated Atherosclerosis.Homeostatic 'bystander' proliferation of human peripheral blood B cells in response to polyclonal T-cell stimulation in vitro.Modeling Human Antitumor Responses In Vivo Using Umbilical Cord Blood-Engrafted Mice.Depletion-Resistant CD4 T Cells Enhance Thymopoiesis During Lymphopenia.
P2860
Q26781279-BB058442-70AF-4892-AA33-9D646F0B9519Q28117534-56865104-F09D-47BD-BF72-F24BFCD6A37EQ30364184-1AD20282-1A39-4967-8012-EF2B9D4804C0Q33555986-36B12B55-B62C-4361-87E0-57E3A46F7431Q34027642-46F6B4DA-CFED-472E-B8D3-1C18A6CE4106Q34289372-7D6B91E7-341F-4EFB-ACBD-2E90024EB3B5Q34839054-C4E8B44A-C72D-4135-9504-E5B408BFE9D1Q35866187-BC4B28CF-BBE7-4C09-B317-533C98D2CEE2Q36248860-1FB7A81B-5034-42BE-9FBB-D3AD4CB34DA8Q36633574-D42EBAC0-3D3A-4A42-9C24-8BBECF9C0363Q37097454-843DF8B3-EB0F-4B0E-B0B3-060517047BA0Q37151977-2F191586-35C4-4CF4-830B-16F385B9DFDBQ37396882-780CFDD9-043B-4C2C-9EE3-C7DA6BC7BB95Q37454425-E1B2231F-1714-4638-B7E9-A2C6ECF5F1C0Q37490637-0D3774AA-0963-4111-BF09-C11870DD1993Q37518302-395E194B-D3C1-4B3F-B127-64AE3FD1971FQ37661792-E7EA19C9-5E61-4A2E-8209-C6808D28FE25Q38076687-F63EBEB4-6728-4B53-ABC4-98E7BC932D50Q38104288-4D5479DB-7440-48C9-8057-5B6EC2620D0CQ38130933-3C4AA437-6B29-4917-9B75-3DD1333E6677Q38170420-708D7584-E9CB-4D90-BE7A-CD7EE1FA0C40Q38219995-B2BF96CF-0297-46D3-8302-02B2D963B1AFQ38272861-6A76644F-92DD-482A-B3B3-887A6C897AA1Q38366356-653E8863-7547-4F78-B652-75173DE59BBEQ38513499-2C08A10E-BF4E-43AE-BA4F-FAC4CAE1169EQ38592500-CF8850E0-C5BE-4389-96E6-42BAE3DE109EQ38681685-203F43D6-9DFD-43BD-BC65-32615C5FC89DQ38753494-61236D5C-2BAF-4FD2-92B1-CE6BB3A8B8AAQ38949736-D6A4AA7A-D130-42C1-A98D-7AD5A808367EQ38960187-A38CE4EE-95AC-4E82-8E71-F60A94743CE3Q39178547-106E8292-15AE-4D80-BDE5-28DDE8C768CDQ39513891-BA864C13-8D4A-4F24-B850-0FB52B9B2918Q41258755-446AD40C-9C46-4615-87BD-08AC5065A090Q41296016-A5963AA1-36F6-4D2B-90FF-441B99356920Q41631573-BB329D45-CF18-4A99-B4AE-EFDFA8928F1FQ42409883-F27C4188-0914-4559-9F7B-4894BCA4D4B0Q47119851-9E6385C1-436F-4EFE-81A0-148D070539A1Q48668716-CC2D45E2-6F92-488C-9BF8-8979A919FC30Q50054545-EBBAA910-8154-4A4E-A39C-BE79B2A8F5A9Q50588254-87BE04E1-BD6B-4320-8ACA-D273BDA0DE51
P2860
Lymphodepletion and homeostatic proliferation: implications for transplantation.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@en
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@nl
type
label
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@en
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@nl
prefLabel
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@en
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@nl
P2860
P1476
Lymphodepletion and homeostatic proliferation: implications for transplantation.
@en
P2093
P2860
P304
P356
10.1111/J.1600-6143.2012.04008.X
P407
P577
2012-03-15T00:00:00Z