移植耐受:不要忘记B细胞

A. Chong, S. Khiew
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引用次数: 17

摘要

在临床上,在有限数量的移植受者中,已经成功地建立了一种移植耐受状态,导致移植物无限期存活,而不需要终身免疫抑制。这些成功导致了旨在确定诊断同种异体移植物耐受性的潜在生物标志物的研究,并确定最适合药物最小化的患者,并涉及丰富的B细胞耐受性标志。在炎症和自身免疫性疾病中具有免疫调节功能的调节性B细胞(Bregs)的特殊亚群的出现,提出了Bregs在促进移植耐受性中发挥关键作用的可能性,并且Bregs是B细胞耐受性标志的潜在解释。然而,众所周知,B细胞在体液免疫中起着关键作用,供体特异性抗体的过量产生在移植中具有明显的有害作用。因此,为了保持持久的耐受性,同种异体抗体反应也必须通过抑制T细胞帮助或诱导B细胞内在功能障碍来减少。最近的研究结果表明,滤泡调节性T细胞(Tfr)的一个独特亚群可以抑制B细胞的功能并诱导表观遗传修饰,从而导致B细胞分化和功能的持续缺陷。在这篇综述中,我们总结了在动物和人类的研究表明Bregs和功能失调B细胞在移植耐受中的作用,并讨论了这些见解如何为新的诊断方法和诱导同种异体移植耐受的新疗法提供路线图。
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Transplantation tolerance: don't forget about the B cells
Establishing a state of transplantation tolerance that leads to indefinite graft survival without the need for lifelong immunosuppression has been achieved successfully in limited numbers of transplant recipients in the clinic. These successes led to studies aimed at identifying potential biomarkers that diagnose allograft tolerance and identify the patients most amenable to drug minimization, and implicated an enriched B cell signature of tolerance. The emergence of a specialized subset of regulatory B cell (Bregs), that possess immune‐modulatory function in inflammation and autoimmune disease, raised the possibility that Bregs play critical roles in the promotion of transplantation tolerance and that Bregs are the underlying explanation for the B cell signature of tolerance. However, B cells are best known to play a key role in humoral immunity, and excessive production of donor specific antibodies has clear deleterious effects in transplantation. Thus, for tolerance to be persistent, alloantibody responses must also be curtailed, either through the suppression of T cell help or the induction of B cell‐intrinsic dysfunction. Recent findings indicate a unique subset of follicular regulatory T cells (Tfr) that can suppress B cell function and induce epigenetic modifications that result in sustained defects in B cell differentiation and function. In this review, we summarize studies in animals and humans that suggest roles for Bregs and dysfunctional B cells in transplantation tolerance, and discuss how these insights may provide a roadmap for new approaches to diagnose, and new therapies to induce allograft tolerance.
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