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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The biologic role and repertoire of cells bearing the gamma delta
T cell receptor
has not been fully defined. However, their tropism for epithelial microenvironments is recognized and suggests an important role for these cells in immune defense at mucosal tissue surfaces. The study presented below utilizes an experimental model in which repeated exposure of
Brown
Norway rats to OVA by inhalation induces a state of Ag-specific, IgE isotype-specific "tolerance" via immune deviation. This process seems similar to oral tolerance in the gut. This form of tolerance was adoptively transferred to naive syngeneic recipients by i.p. injection of as few as 10(3) positively selected TCR-gamma delta+ cells from OVA-exposed rats. These TCR-gamma delta+ T-cells are demonstrated to produce high levels of INF-gamma in response to OVA stimulation, and this provides a potential mechanism for the inhibition of Th2 cell proliferation, resulting in suppression of IgE production. The unique potency of these cells in selective suppression of IgE Ab production in response to natural "mucosal" Ag exposure suggests a potentially important role in protection against primary allergic sensitization in vivo.
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PMID:Gamma delta T cells down-regulate primary IgE responses in rats to inhaled soluble protein antigens. 772 96
Allograft rejection is a process that depends on
T cell receptor
-ligand interaction and costimulatory signals generated when accessory molecules binds to their ligands, such as CD28 to the B7 molecules. We investigated the possibility that B7 blockade in vivo by the soluble CD28 receptor homolog CTLA4Ig modulates rejection process in a rat model of kidney allograft. Lewis rats orthotopically transplanted with MHC incompatible kidney from
Brown
-Norway rats were given an intraperitoneal injection of CTLA4Ig (0.2 or 0.5 mg/day) or a nonspecific immunoglobulin for seven days, starting the day of transplant. While control rats rejected the graft within 10 days, all animals given CTLA4Ig had a prolonged kidney allograft survival, independently from the dose of the fusion protein employed. Actually, at the dose of 0.2 mg/day kidney grafts survived 36 to 50 days (median 44 days), while with the highest dose graft survival was 40 to 60 days (median 50 days). In all CTLA4Ig-treated rats renal grafts were well functioning as documented by serum creatinine concentrations comparable to age- and sex-matched control rats 30 days after transplant. At this time in vitro mixed lymphocyte culture (MLR) experiments showed a significant reduction of proliferation of peripheral blood lymphocytes from CTLA4Ig-treated rats when challenged with BN but not third party Wistar Furth lymphocytes. We have also shown that combining a short course of CTLA4Ig (0.2 mg/day) with a dose of cyclosporine (CsA) low enough to fail to inhibit graft rejection allowed indefinite engraftment of kidney allograft without the need of continuous immunosuppression.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Toward novel antirejection strategies: in vivo immunosuppressive properties of CTLA4Ig. 773 Nov 52
Spodoptera frugiperda (Sf9) insect cells secreted a class I MHC RT1.Aa heavy chain protein when infected with baculovirus that bore a construct that contained a honeybee melittin secretion (ms) signal attached to RT1.Aa cDNA. The RT1.Aa heavy chain protein in the culture supernatant and cell lysate immunoprecipitated in the presence of 5 individual anti-RT1.Aa-specific mAb. As was revealed by densitometric analysis, the ms signal increased the production (7- to 17-fold) and secretion (20- to 47-fold) of RT1.Aa protein by Sf9 cells (compared with RT1Aa-Sf9 cells without the ms signal). Subcutaneous immunization with secreted RT1.Aa heavy chain protein of Wistar-Furth (WF; RT1u) rats (day -4) accelerated the rejection of ACI (RT1a), but not third-party
Brown
Norway (BN; RT1n), heart allografts from 5.9 +/- 0.5 days in controls to 4.0 +/- 0.0 days (P < 0.001); cell lysate from RT1.Aa-Sf9 or ms/RT1.Aa-Sf9 cells reduced ACI heart allograft survival to 3.8 +/- 0.4 days or 3.7 +/- 0.5 days, respectively (P < 0.001). Indirect presentation of RT1.Aa heavy chain proteins by syngeneic macrophages shortened the survival of RT1.Aa-disparate PVG.R8 (RT1.AaDuBuCu) heart allografts in PVG.1U (RT1u) hosts from 6.3 +/- 0.5 days in controls to 4.0 +/- 0.0 days (P < 0.01). Finally, RT1.Aa heavy chain proteins injected into the thymus or into the portal vein (day -14) in combination with anti-
T cell receptor
mAb (days -14 and -13) induced indefinite survival of ACI liver allografts in Lewis (RT1l) recipients ( > 250 days). Thus, indirect presentation of soluble class I MHC heavy chain proteins (produced in a baculovirus/Sf9 cell system) may either sensitize or induce tolerance in the same fashion as native class I MHC alloantigens expressed on donor tissues.
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PMID:Induction of specific allograft immunity by soluble class I MHC heavy chain protein produced in a baculovirus expression system. 861 Mar 60
In the present experiments, a multimodality regimen was developed that included an anti-
T cell receptor
R73 monoclonal antibody and the pharmacologic agents brequinar (BQR), cyclosporine (CsA), and sirolimus (rapamycin; RAPA) to prolong the survival of small bowel (SB) allografts. BQR was the most potent single drug: the 4.0 or 8.0 mg/kg/day BQR doses delivered every second day (q.o.d.) per gavage for 28 days prolonged the survival of
Brown
Norway (BN; RT1n) SB allografts in Lewis (LEW; RT1l) recipients from a mean survival time of 10.6 +/- 1.9 days in untreated controls to 29.2 +/- 5.8 days, respectively (both P < 0.001). When treatment was extended to 56 days, 8.0 mg/kg/q.o.d BQR produced a mean survival time of 83.8 +/0 33.8 days (P < 0.001), with 2/5 hosts surviving more than 100 days. In a host-versus-graft model, BQR (8.0 mg/kg/q.o.d) delivered for 28 days with CsA (2.0 mg/kg/day) and RAPA (0.04 mg/kg/day) delivered intravenously for 14 days prolonged the survival of BN SB grafts in LEW recipients to 54.4 +/- 21.0 days (P < 0.001). Extending triple-drug therapy to 42 days induced the prolongation of SB allograft survival to greater than 100 days in 5/7 recipients. Although pretransplant perfusion of the grafts with R73 mAb was ineffective alone, the combination of graft perfusion and a 28-day course of BQR (8.0 mg/kg/q.o.d) in the GVH model indefinitely prolonged LEW graft in F1 recipients. Alternatively, indefinite survival of SB allografts ( > 100 days; P < 0.001) was achieved by the combination of a 14-day course of a triple-drug regimen using each agent at subtherapeutic doses, namely BQR (2.0 mg/kg/q.o.d.), CsA (2.0 mg/kg/day), and RAPA (0.04 mg/kg/day). The state of transplantation tolerance is these hosts was documented by the acceptance of donor-type but not third-party heart allografts.
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PMID:Beneficial effect of graft perfusion with anti-T cell receptor monoclonal antibodies on survival of small bowel allografts in rat recipients treated with brequinar alone or in combination with cyclosporine and sirolimus. 861 Mar 61
T cell response to alloantigen is dependent not only on
T cell receptor
activation, but also upon co-stimulation through the CD28 receptor, as
T cell receptor
activation alone is insufficient for an optimal immune response. The CD28 receptor on helper T cells interacts with its ligand B7 on activated B cells/macrophages as the co-stimulus to support T cell activity. The natural ligand for CD28, B7 is expressed in both constituitive and inducible forms. Expression of the inducible form, B7.1 is the most co-stimulatory and may peak at 48 hr following antigen presentation. CTLA4Ig (a soluble CD28 receptor analog) binds both B7's and inhibits CD28 activation. This experiment was undertaken to examine the optimal time course of CTLA4Ig effect at or following antigen presentation. In vivo studies used a rat MHC mismatch heterotopic cardiac allograft transplant model (
Brown
-Norway to Lewis). Controls received no immunotherapy. Experimental recipients received CTLA4Ig (0.05 mg i.p.) the day of transplant only or had CTLA4Ig x 7-21 days begun at Day 0, 3, or 5 following transplant. Rejection was defined as a lack of allograft contraction. Allograft survival was best when CTLA4Ig was present on Day 2. These findings demonstrate that CTLA4Ig was most effective 48 hr following antigen presentation, perhaps reflecting induction of tolerance at a time of maximal CTLA4Ig/B7.1 blockade. CTLA4Ig given later, at a time when the recognition/rejection process has already begun was not as effective indicating the lack of immunosuppressive function of CTLA4Ig itself and confirms CTLA4Ig's mechanism of co-stimulation blockade.
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PMID:The time course of CTLAIg effect on cardiac allograft rejection. 866 Dec 18
Although transplantation remains the treatment of choice for diabetes mellitus, immunological rejection of allografts continues to be a major problem. The search for strategies to prevent graft rejection led us to examine if the fate of developing T cells may be influenced by the presence of allo MHC class I peptides in the thymus because
T cell receptor
-MHC class I/self-peptide interaction regulates thymocyte development. We studied the effects of intrathymic (IT) injection of a short segment of a synthetic immunogenic MHC class I peptide (peptide 2, residues 67-85) of the hypervariable domain of RT1.A derived from WAG rat (RT1U) on islet graft survival in the WF(RT1U)-to-ACI combination. Adult diabetic male recipients were treated with IT injection of a single WAG-derived MHC class I peptide 7 days before intraportal islet transplantation. Long-term unresponsive islet recipients were examined for the development of alloantigen (Ag)-specific regulatory cells. The results showed that while IT injection of 150 microg peptide 2 on day -7 did not prolong graft survival in naive recipients [median survival time (MST) of 14.0 days vs. 9.6 in controls], IT injection of 300 or 600 microg peptide 2 led to normoglycemia and permanent islet survival (> 200 days) in 4/6 and 3/5 STZ-induced diabetic ACI recipients, respectively. IT injection of 150, 300, or 600 microg peptide 2 combined with 0.5 antilymphocyte serum (ALS) immunosuppression on day -7 led to 100% permanent islet allograft survival (> 200 days) compared to MST of 15.0 +/- 2.3 days in ALS alone-treated controls. Similarly prepared animals rejected third-party
Brown
Norway (BN) islets in an acute fashion, thus demonstrating donor specificity. Intravenous injection of 300 microg peptide 2 combined with 0.5 ml ALS did not prolong islet allograft survival. The long-term unresponsive islet allograft recipients challenged with second set grafts accepted permanently 100% donor-type cardiac allografts while rejecting third-party (BN) hearts without rejecting the primary Wistar Furth (WF) islets. In analyzing the underlying mechanisms of acquired systemic tolerance, we found no suppressor/regulatory cells in adoptive transfer studies in tolerant animals at 30 days after IT injection of allopeptides. In contrast, adoptive transfer of 5 x 10(7) unseparated spleen cells from tolerant animals at 60 and 100 days after islet transplantation into lightly irradiated [200 rad total body irradiation (TBI)] ACI recipients led to donor-specific permanent islet graft survival in 2/3 and 4/5 secondary recipients, respectively, compared to an MST of 13.8 days in lightly irradiated ACI given unmodified syngeneic spleen cells. In addition, adoptive transfer of 2 x 10(7) purified T cells obtained from long-term functioning islet recipients led to permanent donor-specific islet survival in secondary recipients. The finding that IT injection of a short segment of a synthetic immunodominant MHC class I peptide derived from WAG that shares the RT1.A(U) domain with the graft donor is capable of inducing acquired systemic tolerance to WF islets suggests that linked recognition or epitope suppression may be involved in the induction of unresponsiveness. Generation of peripheral Ag-specific regulatory cells that suppress Ag-specific alloreactive T cells is, in part, responsible for the maintenance of tolerance in this model.
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PMID:Regulatory T cells maintain peripheral tolerance to islet allografts induced by intrathymic injection of MHC class I allopeptides. 1047 17
CD26 truncates several chemokines as well as neuropeptides and influences immune responses via modulation of cell adhesion and T cell activation, suggesting an involvement of CD26 in asthmatic and airway inflammation. Therefore, Fischer 344 (F344),
Brown
Norway (BN) and Lewis (LEW) rat strains, which differ in their CD26-like enzymatic activity, were compared using an asthma model. Additionally, two CD26-deficient mutant F344 rat substrains were included and compared to the wild-type F344 substrain. Immunization was performed twice with ovalbumin (OVA), and 2 weeks later the rats were challenged with OVA intratracheally Flow cytometry (FACS) analysis of different leucocyte subsets as well as enzyme-linked immunosorbent assay (ELISA) for IgE levels in the blood and bronchoalveolar lavage (BAL) were performed 24 h after challenge. LEW rats with the lowest CD26 activity among the rat strains investigated here displayed significantly reduced CD4+ T cell numbers in the BAL compared to wild-type F344 and BN rats. Moreover, in asthma, the ratio of CD26+ to CD26-
T cell receptor
(
TCR
)-positive cells increased significantly in F344 and LEW but not BN rats. Most intriguingly, in both CD26-deficient F344 rat substrains the number of CD4+ T lymphocytes was markedly reduced compared to wild-type F344. The decrease in T cell recruitment observed in the CD26-deficient rats was associated with significantly reduced OVA-specific IgE-titres. This is the first report to show a remarkably reduced T cell recruitment in rat strains that either lack or exhibit reduced CD26-like enzymatic activity, suggesting a role for CD26 in the pathogenesis of asthma via T cell-dependent processes such as antibody production.
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PMID:CD26 (dipeptidyl-peptidase IV)-dependent recruitment of T cells in a rat asthma model. 1560 9
Background:
Angioimmunoblastic T-cell lymphoma (AITL) is an aggressive subtype of peripheral T-cell lymphoma (PTCL) that has a poor 5-year overall survival rate due to its lack of precise therapeutic targets. Identifying potential prognostic markers of AITL may provide information regarding the development of precision medicine.
Methods:
RNA sequence data from PTCL and patient clinic traits were obtained from the Gene Expression Omnibus (GEO) database. Differentially expressed gene (DEG) analysis and weighted gene co-expression network analysis (WGCNA) were performed to identify DEGs between the different PTCL subtypes and investigate the relationship underlying co-expression modules and clinic traits. Gene ontology (GO) and protein-protein interaction (PPI) network analyses based on DAVID and the STRING website, respectively, were utilized to deeply excavate hub genes.
Results:
After removing the outliers from the GSE65823, GSE58445, GSE19069, and GSE6338 datasets using the results from an unsupervised cluster heatmap, 50 AITL samples and 55 anaplastic large cell lymphoma (ALCL) samples were screened. A total of 677 upregulated DEGs and 237 downregulated DEGs were identified in AITL and used to construct a PPI network complex. Using WGCNA, 12 identified co-expression modules were constructed from the 5468 genes with the top 10% of variance, and 192 genes from the Turquoise and
Brown
modules were with a Gene Significance (GS) cut-off threshold >0.6. Eleven hub genes (CDH1, LAT, LPAR1, CXCL13, CD27, ICAM2, CD3E, CCL19, CTLA-4, CXCR5, and C3) were identified. Only CTLA-4 overexpressed was found to be a poor prognostic factor according to survival analysis. Gene set enrichment analysis (GSEA) identified and validated the intersection of key pathways (
T cell receptor
, primary immunodeficiency, and chemokine signaling pathways).
Conclusion:
Our findings provide the framework for the identification of AITL co-expression gene modules and identify key pathways and driving genes that may be novel treatment targets and helpful for the development of a prognostic evaluation index.
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PMID:Identification of hub genes and key pathways associated with angioimmunoblastic T-cell lymphoma using weighted gene co-expression network analysis. 3123 75
