Aravind Cherukuri scite author profile

Human B cells with immunoregulatory properties in vitro (Bregs) have been defined by the expression of IL-10 and are enriched in various B-cell subsets. However, proinflammatory cytokine expression in B-cell subsets is largely unexplored. We examined the cytokine profiles of human PBMCs and found that subsets of CD24 hi CD38 hi transitional B cells (TrBs), CD24 hi CD27 + memory B cells, and naïve B cells express IL-10 and the proinflammatory cytokine TNF-a simultaneously. TrBs had the highest IL-10/TNF-a ratio and suppressed proinflammatory helper T cell 1 (Th1) cytokine expression by autologous T cells in vitro more potently than memory B cells did, despite similar IL-10 expression. Whereas neutralization of IL-10 significantly inhibited TrB-mediated suppression of autologous Th1 cytokine expression, blocking TNF-a increased the suppressive capacity of both memory and naïve B-cell subsets. Thus, the ratio of IL-10/TNF-a expression, a measure of cytokine polarization, may be a better indicator of regulatory function than IL-10 expression alone. Indeed, compared with TrB cells from patients with stable kidney graft function, TrBs from patients with graft rejection displayed similar IL-10 expression levels but increased TNF-a expression (i.e., reduced IL-10/TNF-a ratio), did not inhibit in vitro expression of Th1 cytokines by T cells, and abnormally suppressed expression of Th2 cytokines. In patients with graft dysfunction, a low IL-10/TNF-a ratio in TrBs associated with poor graft outcomes after 3 years of follow-up. In summary, these results indicate that B cell-mediated immune regulation is best characterized by the cytokine polarization profile, a finding that was confirmed in renal transplant patients.

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Predicting 5-Year Risk of Kidney Transplant Failure: A Prediction Instrument Using Data Available at 1 Year Posttransplantation

Shabir

Halimi

Cherukuri

et al. 2014

American Journal of Kidney Diseases

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Reduced human transitional B cell T1/T2 ratio is associated with subsequent deterioration in renal allograft function

Cherukuri

Salama

Carter

et al. 2017

Kidney International

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Human transitional B cells express relatively high IL-10 and low TNF-α levels, which correlate with B regulatory activity in vitro. Herein, we aim to further define B regulatory phenotype and determine whether B regulatory activity can serve as a prognostic marker for renal allograft dysfunction (graft loss or 2-fold fall in estimated glomerular filtration rate). Transitional B cells can be divided into T1 and T2 subsets based on surface phenotype. T1 cells express a significantly higher ratio of IL-10 to TNF-α than T2 cells or other B subsets. When analyzed in 45 kidney transplant recipients at the time of late for-cause biopsy, the T1/T2 ratio was independently associated with allograft dysfunction over the next 5 years. Next, the T1/T2 ratio was examined in an independent set of 97 clinically stable kidney transplant recipients 2 years after transplant. Again, the T1/T2 ratio was strongly and independently associated with allograft dysfunction over the ensuing 5 years. In these clinically quiescent patients, a low T1/T2 ratio identified a 41-patient subgroup in which 35% developed allograft dysfunction, with 25% losing their allografts. However, none of the 56 patients with a high ratio developed graft dysfunction. In both the initial study and validation groups, the T1/T2 ratio was a much stronger predictor of graft dysfunction than donor-specific antibodies or the estimated glomerular filtration rate. Thus, the T1/T2 ratio, a relative measure of expressing an anti-inflammatory cytokine profile, is a novel prognostic marker that might inform individualized immunosuppression.

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Post-transplant donor specific antibody is associated with poor kidney transplant outcomes only when combined with both T-cell–mediated rejection and non-adherence

Cherukuri

Mehta

Sharma

et al. 2019

Kidney International

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Regulatory B cells: TIM‐1, transplant tolerance, and rejection

Cherukuri

Mohib

Rothstein

2021

Immunological Reviews

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Regulatory B cells (Bregs) ameliorate autoimmune disease and prevent allograft rejection. Conversely, they hinder effective clearance of pathogens and malignancies. Breg activity is mainly attributed to IL‐10 expression, but also utilizes additional regulatory mechanisms such as TGF‐β, FasL, IL‐35, and TIGIT. Although Bregs are present in various subsets defined by phenotypic markers (including canonical B cell subsets), our understanding of Bregs has been limited by the lack of a broadly inclusive and specific phenotypic or transcriptional marker. TIM‐1, a broad marker for Bregs first identified in transplant models, plays a major role in Breg maintenance and induction. Here, we expand on the role of TIM‐1+ Bregs in immune tolerance and propose TIM‐1 as a unifying marker for Bregs that utilize various inhibitory mechanisms in addition to IL‐10. Further, this review provides an in‐depth assessment of our understanding of Bregs in transplantation as elucidated in murine models and clinical studies. These studies highlight the major contribution of Bregs in preventing allograft rejection, and their ability to serve as highly predictive biomarkers for clinical transplant outcomes.

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