在鼠和人肾脏中作为潜在的肾脏疾病生物标志物的 proenkephalin-A 的定位和特征化。

Institute of Physiology, University of Regensburg, Regensburg, Germany.

Department of Nephropathology, Universitätsklinikum Erlangen-Nürnberg, Erlangen, Germany.

Biomarkers. 2023 Feb;28(1):76-86. doi: 10.1080/1354750X.2022.2146196. Epub 2022 Nov 21.

INTRODUCTION

Exact measurement of renal function is essential for the treatment of patients. Elevated serum-creatinine levels, while established, are influenced by other parameters and show a significant time-lag. This drives the search for novel biomarkers of renal function and injury. Beside Lipocalin-2 and kidney-injury-molecule-1 (KIM-1), the endogenous opioid precursor proenkephalin-A (Penk) has recently emerged as a promising marker for renal function. But the cellular origin and regulation of Penk outside the brain has not yet been investigated in depth.

MATERIALS AND METHODS

This study characterizes the cellular origin of Penk expression with high-resolution in situ hybridization in two models of renal fibrosis in mice and human tissue.

RESULTS

Interstitial cells are the main expression site for renal Penk. This classifies Penk as biomarker for interstitial damage as opposed to tubular damage markers like Lipocalin-2 and KIM-1. Furthermore, our data indicate that renal Penk expression is not regulated by classical profibrotic pathways.

DISCUSSION

This study characterizes changing Penk expression in the kidneys. The similarity of Penk expression across species gives rise to further investigations into the function of Penk in healthy and injured kidneys.

CONCLUSION

Penk is a promising biomarker for interstitial renal damage that warrants further studies to utilize its predictive potential.Clinical significanceKnowledge of real-time renal function is essential for proper treatment of critically ill patients and in early diagnosis of acute kidney injury (AKI). Proenkephalin-A has been measured in a number of patient cohorts as a highly accurate and predictive biomarker of renal damage.The present study identifies Penk as a biomarker for interstitial damage in contrast to the tubular biomarkers such as Lipocalin-2 or KIM-1.Our data show that Penk is regulated independently of classical profibrotic or proinflammatory pathways, indicating it might be more robust against extra-renal influences.Data presented in this study provide fundamental information about cell type-specific localization and regulation of the potential new biomarker Penk across species as foundation for further research.

简介

准确测量肾功能对于患者的治疗至关重要。虽然血清肌酐水平已经确立，但它受到其他参数的影响，并且存在显著的时间滞后。这促使人们寻找新的肾功能和损伤生物标志物。除了脂联素 2 和肾损伤分子 1（KIM-1）外，内源性阿片前体 proenkephalin-A（Penk）最近也作为肾功能的有前途的标志物出现。但是，Penk 在大脑外的细胞起源和调节尚未深入研究。

材料和方法

本研究通过在两种小鼠和人类组织的肾纤维化模型中进行高分辨率原位杂交，对 Penk 表达的细胞起源进行了表征。

结果

间质细胞是肾脏 Penk 的主要表达部位。这将 Penk 归类为间质损伤的生物标志物，而不是像脂联素 2 和 KIM-1 这样的管状损伤标志物。此外，我们的数据表明，肾 Penk 表达不受经典的促纤维化途径调节。

讨论

本研究对肾脏中 Penk 表达的变化进行了特征描述。Penk 在不同物种中的表达相似性促使人们进一步研究 Penk 在健康和受损肾脏中的功能。

结论

Penk 是一种有前途的间质肾损伤生物标志物，值得进一步研究以利用其预测潜力。

临床意义

实时肾功能知识对于正确治疗危重病患者和早期诊断急性肾损伤（AKI）至关重要。已经在许多患者队列中测量了 proenkephalin-A，作为肾损伤的高度准确和有预测性的生物标志物。本研究将 Penk 确定为与管状生物标志物（如脂联素 2 或 KIM-1）相反的间质损伤生物标志物。我们的数据表明，Penk 的调节独立于经典的促纤维化或促炎途径，表明它可能更能抵抗肾外影响。本研究提供的关于潜在新生物标志物 Penk 在跨物种中的细胞类型特异性定位和调节的基本信息，为进一步的研究奠定了基础。