A Three-Gene Assay for Monitoring Immune Quiescence in Kidney Transplantation.

Organ transplant recipients face life-long immunosuppression and consequently are at high risk of comorbidities. Occasionally, kidney transplant recipients develop a state of targeted immune quiescence (operational tolerance) against an HLA-mismatched graft, allowing them to withdraw all immunosuppression and retain stable graft function while resuming immune responses to third-party antigens. Methods to better understand and monitor this state of alloimmune quiescence by transcriptional profiling may reveal a gene signature that identifies patients for whom immunosuppression could be titrated to reduce patient and graft morbidities. Therefore, we investigated 571 unique peripheral blood samples from 348 HLA-mismatched renal transplant recipients and 101 nontransplant controls in a four-stage study including microarray, quantitative PCR, and flow cytometry analyses. We report a refined and highly validated (area under the curve, 0.95; 95% confidence interval, 0.92 to 0.97) peripheral blood three-gene assay (KLF6, BNC2, CYP1B1) to detect the state of operational tolerance by quantitative PCR. The frequency of predicted alloimmune quiescence in stable renal transplant patients receiving long-term immunosuppression (n=150) was 7.3% by the three-gene assay. Targeted cell sorting of peripheral blood from operationally tolerant patients showed a significant shift in the ratio of circulating monocyte-derived dendritic cells with significantly different expression of the genes constituting the three-gene assay. Our results suggest that incorporation of patient screening by specific cellular and gene expression assays may support the safety of drug minimization trials and protocols.

Immune response of young children using ATP-based Cylex assay: a brief report.

Data on immune responses of young children using ATP release-based Cylex assay are insufficient. This study measured the immune response of healthy children less than three years of age to mitogens, PHA and Con-A. Blood was obtained from children attending routine health care visits. The Cylex assay was used to measure ATP production by CD4+ and CD3+ cells in response to PHA and Con-A, respectively. Samples from 20 children less than three years (range 10-27 months) were evaluated. The mean ATP production by CD4+ lymphocytes following PHA stimulation was 376 ng/mL (95% CI 17.1-735), which was similar to the response of older children in Hooper et al.'s (Clin Transplant 2005;19:834) study (p-value 0.28). The mean and median ATP production by CD3+ cells following Con-A stimulation were 114 ng/mL and 93.3 ng/mL, respectively (95% CI for median 45.2,148.6). The data suggest that although the immune system of young infants and toddlers is evolving, they are still able to respond to mitogen stimulation similar to older children.

Antilymphoid antibody preconditioning and tacrolimus monotherapy for pediatric kidney transplantation.

OBJECTIVE: Heavy post-transplant immunosuppression may contribute to long-term immunosuppression dependence by subverting tolerogenic mechanisms; thus, we sought to determine if this undesirable consequence could be mitigated by pretransplant lymphoid depletion and minimalistic post-transplant monotherapy. STUDY DESIGN: Lymphoid depletion in 17 unselected pediatric recipients of live (n = 14) or deceased donor kidneys (n = 3) was accomplished with antithymocyte globulin (ATG) (n = 8) or alemtuzumab (n = 9). Tacrolimus was begun post-transplantation with subsequent lengthening of intervals between doses (spaced weaning). Maintenance immunosuppression, morbidity, graft function, and patient/graft survival were collated. RESULTS: Steroids were added temporarily to treat rejection in two patients (both ATG subgroup) or to treat hemolytic anemia in two others. After 16 to 31 months (mean 22), patient and graft survival was 100% and 94%, respectively. The only graft loss was in a nonweaned noncompliant recipient. In the other 16, serum creatinine was 0.85 +/- 0.35 mg/dL and creatinine clearance was 90.8 +/- 22.1 mL/1.73 m2. All 16 patients are on monotherapy (15 tacrolimus, one sirolimus), and 14 receive every other day or 3 times per week doses. There were no wound or other infections. Two patients developed insulin-dependent diabetes. CONCLUSION: The strategy of lymphoid depletion and minimum post-transplant immunosuppression appears safe and effective for pediatric kidney recipients.

Early outcomes in human lung transplantation with Thymoglobulin or Campath-1H for recipient pretreatment followed by posttransplant tacrolimus near-monotherapy.

OBJECTIVES: Acute and chronic rejection remain unresolved problems after lung transplantation, despite heavy multidrug immunosuppression. In turn, the strong immunosuppression has been responsible for mortality and pervasive morbidity. It also has been postulated to interdict potential mechanisms of alloengraftment. METHODS: In 48 lung recipients we applied 2 therapeutic principles: (1) recipient pretreatment with antilymphoid antibody preparations (Thymoglobulin [SangStat, Fremont, Calif] or Campath [alemtuzumab; manufactured by ILEX Pharmaceuticals, LP, San Antonio, Tex; distributed by Berlex Laboratories, Richmond, Calif]) and (2) minimal posttransplant immunosuppression with tacrolimus monotherapy or near-monotherapy. Our principal analysis was of the events during the critical first 6 posttransplant months of highest immunologic and infectious disease risk. Results were compared with those of 28 historical lung recipients treated with daclizumab induction and triple immunosuppression (tacrolimus-prednisone-azathioprine). RESULTS: Recipient pretreatment with both antilymphoid preparations allowed the use of postoperative tacrolimus monotherapy with prevention or control of acute rejection. Freedom from rejection was significantly greater with Campath than with Thymoglobulin (P = .03) or daclizumab (P = .05). After lymphoid depletion with Thymoglobulin or Campath, patient and graft survival at 6 months was 90% or greater. Patient and graft survival after 9 to 24 months is 84.2% in the Thymoglobulin cohort, and after 10 to 12 months, it is 90% in the Campath cohort. There has been a subjective improvement in quality of life relative to our historical experience. CONCLUSION: Our results suggest that improvements in lung transplantation can be accomplished by altering the timing, dosage, and approach to immunosuppression in ways that might allow natural mechanisms of alloengraftment and diminish the magnitude of required maintenance immunosuppression.

Gene expression profiles of early pneumococcal otitis media in the rat.

OBJECTIVE: To define the gene expression patterns during the early phases of a bacterial middle ear infection in the rat model. METHOD: Using cDNA gene array technology, we profiled the mRNA expression of 1176 genes in a rat model of acute otitis media. We identified changes in gene expression two-fold or greater 12 and 48 h after bilateral ME inoculation with either tryptic soy broth (TSB) or Streptococcus pneumoniae in TSB. RESULTS: Transcripts of cytokines and cell adhesion molecules were up-regulated by 12 h, but returned to placebo transcription levels by 48 h. Three of six stress-response genes, including inducible nitric oxide synthase, GADD45 and heat shock protein 27 (HSP27) were up-regulated by 12 h, with HSP27 transcription levels continuing to rise through 48 h. All assayed transcription factors were up-regulated by 12 h, but only c-fos and c-jun up-regulation persisted to the 48-h time point. Up-regulation of apoptosis-related genes, except for bcl-x, was not evident until 48 h. These gene expression patterns reflected an early proinflammatory response consisting of cytokines, cell adhesion and stress-response molecules at 12 h followed by an up-regulation of apoptosis-related genes at 48 h. CONCLUSION: Downstream targets of several transcription factors, up-regulated transiently at 12 h, control secondary effects of S. pneumoniae infection, including apoptosis of neutrophils and mucosal epithelial cells, bone proliferation and promotion of leukocyte differentiation. These observations lead to a greater understanding of the early events in the pathogenesis of an AOM episode and highlight therapeutic targets, which may play a roll in the sequelae of AOM.

Reduced immunosuppression in pediatric liver-intestine transplant recipients with CD8+CD28- T-suppressor cells.

Twelve pediatric liver (n = 7), liver-kidney (n = 1), and small bowel (n = 4) transplant recipients, median age 6.5 years (1-21), who received rabbit anti-human thymocyte globulin (rATG) and steroid-free tacrolimus/sirolimus, were screened for the presence of CD8+CD28- T suppressor cells. Four control liver transplant recipients, median age 15 years (5-20), in whom conventional immunosuppression without rATG was successfully discontinued for at least 1 year, were also screened as a reference population. Median time to CD8+CD28- T-suppressor cells analysis was 16 months (2-24) in rATG subjects and 168 months (16-228) in no-immunosuppression subjects. Nine of 16 patients demonstrated the presence of CD8+CD28- T-suppressor cells in the circulation, whereas seven patients did not. CD8+CD28- T-suppressor cells were present in 4/4 children with no immunosuppression, and absent from three of four subjects with acute cellular rejection, all of whom experienced more than one acute cellular rejection episode. In the reduced immunosuppression group (n = 8), four children demonstrated presence of CD8+CD28- T-suppressor cells in the circulation and four did not. The presence of donor-specific T-suppressor cells in the circulation may characterize transplant recipients, in whom graft function can be maintained with minimal or no immunosuppression. Such assays may also permit safe evaluation of prospective immunosuppression withdrawal strategies.