Intertwined roles for GDF-15, HMGB1, and MIG/CXCL9 in Pediatric Acute Liver Failure.

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Frontiers in systems biology Pub Date : 2024-10-15 eCollection Date: 2024-01-01 DOI:10.3389/fsysb.2024.1470000

Ruben Zamora, Jinling Yin, Derek Barclay, James E Squires, Yoram Vodovotz

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Abstract

Introduction: Pediatric Acute Liver Failure (PALF) presents as a rapidly evolving, multifaceted, and devastating clinical syndrome whose precise etiology remains incompletely understood. Consequently, predicting outcomes-whether survival or mortality-and informing liver transplantation decisions in PALF remain challenging. We have previously implicated High-Mobility Group Box 1 (HMGB1) as a central mediator in PALF-associated dynamic inflammation networks that could be recapitulated in acetaminophen (APAP)-treated mouse hepatocytes (HC) in vitro. Here, we hypothesized that Growth/Differentiation Factor-15 (GDF-15) is involved along with HMGB1 in PALF.

Methods: 28 and 23 inflammatory mediators including HMGB1 and GDF15 were measured in serum samples from PALF patients and cell supernatants from wild-type (C57BL/6) mouse hepatocytes (HC) and from cells from HC-specific HMGB1-null mice (HC-HMGB1^-/-) exposed to APAP, respectively. Results were analyzed computationally to define statistically significant and potential causal relationships.

Results: Circulating GDF-15 was elevated significantly (P < 0.05) in PALF non-survivors as compared to survivors, and together with HMGB1 was identified as a central node in dynamic inflammatory networks in both PALF patients and mouse HC. This analysis also pointed to MIG/CXCL9 as a differential node linking HMGB1 and GDF-15 in survivors but not in non-survivors, and, when combined with in vitro studies, suggested that MIG suppresses GDF-15-induced inflammation.

Discussion: This study suggests GDF-15 as a novel PALF outcome biomarker, posits GDF-15 alongside HMGB1 as a central node within the intricate web of systemic inflammation dynamics in PALF, and infers a novel, negative regulatory role for MIG.

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GDF-15、HMGB1和MIG/CXCL9在小儿急性肝衰竭中的相互作用

儿科急性肝衰竭（PALF）是一种迅速发展的、多方面的、毁灭性的临床综合征，其确切的病因尚不完全清楚。因此，预测结果——无论是生存还是死亡——并告知PALF的肝移植决定仍然具有挑战性。我们之前的研究表明，高迁移率组框1 （HMGB1）是palf相关动态炎症网络的中心介质，可以在体外对乙酰氨基酚（APAP）处理的小鼠肝细胞（HC）中重现。在这里，我们假设生长/分化因子-15 （GDF-15）与HMGB1一起参与了PALF。方法：分别从暴露于APAP的野生型（C57BL/6）小鼠肝细胞（HC）和HC特异性HMGB1缺失小鼠（HC-HMGB1-/-）的细胞上清液中检测PALF患者血清样本和细胞上清液中28和23种炎症介质HMGB1和GDF15。对结果进行计算分析，以确定统计上显著的和潜在的因果关系。结果：与幸存者相比，PALF非幸存者的循环GDF-15显著升高（P < 0.05），并与HMGB1一起被确定为PALF患者和小鼠HC动态炎症网络的中心节点。该分析还指出，在幸存者中，MIG/CXCL9是连接HMGB1和GDF-15的差异节点，而在非幸存者中则不是，并且，当结合体外研究时，表明MIG抑制GDF-15诱导的炎症。讨论：本研究表明GDF-15是一种新的PALF结局生物标志物，假设GDF-15与HMGB1一起是PALF系统性炎症动态复杂网络中的中心节点，并推断出MIG的一种新的负调控作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in systems biology

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