Association of gut microbiota with allograft injury in kidney transplant recipients: a comparative profiling through 16S metagenomics and quantitative PCR.

Priscilla Charles, Santosh Kumar, C P Girish Kumar, Sreejith Parameswaran, Pragasam Viswanathan, Rajesh Nachiappa Ganesh
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Abstract

Introduction. The existence of a mutual relationship between gut microbiota and immune homeostasis highlights its importance in the context of kidney transplantation.Gap statement. The translational utility of gut microbiota as a biomarker for allograft injury has not been assessed before.Aim. In this study, we aimed to characterize the gut microbial diversity in kidney transplant recipients and investigate the alterations in the gut microbial composition in association with allograft injury such as histopathological graft rejection and calcineurin inhibitor toxicity. In addition, we compared the gut microbial quantitation using 16S metagenomics and quantitative PCR (qPCR) to assess its translational utility.Methodology. In this prospective longitudinal cohort study, we enrolled 38 kidney transplant recipients and collected serial faecal specimens (n=114), once before the induction therapy, and twice after transplant, during the first and third month. We characterized the gut microbial composition through 16S rRNA sequencing and qPCR from the DNA isolates of the samples. The recipients were clinically followed up for a median of 600 days post-transplant. Histopathological evidence of allograft rejection and calcineurin inhibitor toxicity were used for the correlational analysis with gut microbial diversity.Results. Significant differences in the gut microbial diversity were observed between the pre- and post-transplant samples. Pre-transplant gut microbiota revealed a higher relative abundance of phylum Bacteroidetes in the allograft rejection group, and a higher relative abundance of phylum Firmicutes was observed in the histopathological features of calcineurin inhibitor toxicity (hCNI toxicity) group. We found a high concordance between 16S metagenomics and qPCR outputs for assessing the gut microbial diversity. Furthermore, the receiver operating characteristic curve analysis has also proven that the pre-transplant levels of gut microbial dysbiosis, as a potential predictive biomarker for allograft injury.Conclusion. Our pilot study found a strong statistical association of gut microbial dysbiosis with kidney allograft injury, highlighting the potential of gut microbiota as a predictive biomarker and that qPCR serves as a more reliable and economic tool for assessing dysbiosis paving the way for its translational utility.

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肾移植受者肠道微生物群与异体移植物损伤的关系:通过 16S 元基因组学和定量 PCR 进行比较分析。
简介。肠道微生物群与免疫平衡之间存在相互关系,这凸显了肠道微生物群在肾移植中的重要性。肠道微生物群作为异体移植损伤生物标志物的转化效用尚未得到评估。在这项研究中,我们旨在描述肾移植受者肠道微生物多样性的特征,并研究肠道微生物组成的改变与组织病理学移植物排斥反应和钙神经蛋白抑制剂毒性等异体移植损伤的关系。此外,我们还比较了 16S 元基因组学和定量 PCR(qPCR)的肠道微生物定量方法,以评估其转化效用。在这项前瞻性纵向队列研究中,我们招募了 38 名肾移植受者,并在诱导治疗前和移植后的第一个月和第三个月收集了两次粪便标本(n=114)。我们通过对样本中的 DNA 分离物进行 16S rRNA 测序和 qPCR 分析,确定了肠道微生物组成的特征。受者在移植后接受了中位数为 600 天的临床随访。异体移植排斥反应和钙神经蛋白抑制剂毒性的组织病理学证据被用于肠道微生物多样性的相关分析。移植前和移植后样本的肠道微生物多样性存在显著差异。移植前肠道微生物群显示,同种异体移植排斥反应组中细菌门的相对丰度较高,而在组织病理学特征为钙调素抑制剂毒性(hCNI toxicity)组中,则观察到固着菌门的相对丰度较高。我们发现 16S 元基因组学和 qPCR 输出结果在评估肠道微生物多样性方面具有很高的一致性。此外,接收者操作特征曲线分析也证明,移植前的肠道微生物菌群失调水平可作为异体移植损伤的潜在预测生物标志物。我们的试验性研究发现,肠道微生物菌群失调与肾脏移植物损伤有很强的统计学关联,突出了肠道微生物群作为预测性生物标志物的潜力,而且 qPCR 是评估菌群失调的一种更可靠、更经济的工具,为其转化应用铺平了道路。
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