Department of Medicine, University of Alberta, Edmonton, AB, Canada.
Department of Cardiac Surgery, Medical University of Vienna, Vienna, Austria.
Transplantation. 2022 Nov 1;106(11):2205-2216. doi: 10.1097/TP.0000000000004231. Epub 2022 Oct 21.
The INTERHEART study (ClinicalTrials.gov #NCT02670408) used genome-wide microarrays to detect rejection in endomyocardial biopsies; however, many heart transplants with no rejection have late dysfunction and impaired survival. We used the microarray measurements to develop a molecular classification of parenchymal injury.
In 1320 endomyocardial biopsies from 645 patients previously studied for rejection-associated transcripts, we measured the expression of 10 injury-induced transcript sets: 5 induced by recent injury; 2 reflecting macrophage infiltration; 2 normal heart transcript sets; and immunoglobulin transcripts, which correlate with time. We used archetypal clustering to assign injury groups.
Injury transcript sets correlated with impaired function. Archetypal clustering based on the expression of injury transcript sets assigned each biopsy to 1 of 5 injury groups: 87 Severe-injury, 221 Late-injury, and 3 with lesser degrees of injury, 376 No-injury, 526 Mild-injury, and 110 Moderate-injury. Severe-injury had extensive loss of normal transcripts (dedifferentiation) and increase in macrophage and injury-induced transcripts. Late-injury was characterized by high immunoglobulin transcript expression. In Severe- and Late-injury, function was depressed, and short-term graft failure was increased, even in hearts with no rejection. T cell-mediated rejection almost always had parenchymal injury, and 85% had Severe- or Late-injury. In contrast, early antibody-mediated rejection (AMR) had little injury, but late AMR often had the Late-injury state.
Characterizing heart transplants for their injury state provides new understanding of dysfunction and outcomes and demonstrates the differential impact of T cell-mediated rejection versus AMR on the parenchyma. Slow deterioration from AMR emerges as a major contributor to late dysfunction.
INTERHEART 研究(ClinicalTrials.gov #NCT02670408)使用全基因组微阵列检测心肌活检中的排斥反应;然而,许多没有排斥反应的心脏移植后会出现晚期功能障碍和存活率降低。我们使用微阵列测量来开发实质损伤的分子分类。
在先前研究过与排斥相关转录物的 645 名患者的 1320 份心肌活检中,我们测量了 10 个损伤诱导转录组的表达:5 个由近期损伤诱导;2 个反映巨噬细胞浸润;2 个正常心脏转录组;以及与时间相关的免疫球蛋白转录本。我们使用原型聚类来分配损伤组。
损伤转录组与功能障碍相关。基于损伤转录组表达的原型聚类将每个活检分配到 5 个损伤组之一:87 个严重损伤,221 个晚期损伤,以及 3 个损伤程度较轻的,376 个无损伤,526 个轻度损伤,110 个中度损伤。严重损伤表现为正常转录本广泛丢失(去分化)和巨噬细胞和损伤诱导转录本增加。晚期损伤的特点是免疫球蛋白转录本表达较高。在严重和晚期损伤中,即使在没有排斥反应的心脏中,功能也受到抑制,短期移植物衰竭增加。T 细胞介导的排斥反应几乎总是有实质损伤,85%有严重或晚期损伤。相比之下,早期抗体介导的排斥反应(AMR)损伤较小,但晚期 AMR 常出现晚期损伤状态。
对心脏移植进行损伤状态分类为功能障碍和结局提供了新的认识,并证明了 T 细胞介导的排斥反应与 AMR 对实质的不同影响。AMR 的缓慢恶化成为晚期功能障碍的主要原因。
