Effect of Acute Lung Injury (ALI) Induced by Lipopolysaccharide (LPS) on the Pulmonary Pharmacokinetics of an Antibody.

IF 3 Q3 IMMUNOLOGY

Antibodies Pub Date : 2025-04-06 DOI:10.3390/antib14020033

Shweta Jogi, Dhaval K Shah

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引用次数: 0

Abstract

Objective: To investigate the effect of Lipopolysaccharide (LPS)-induced acute lung injury (ALI) on the pulmonary pharmacokinetics (PK) of a systemically administered antibody in mice.

Method: The PK of a non-target-binding antibody was evaluated in healthy mice and mice with intratracheal instillation of 5 mg/kg LPS. The plasma, bronchoalveolar lavage (BAL), trachea, bronchi, and lung homogenate PK of the antibody were measured following intravenous administration of 5 mg/kg antibody dose. Noncompartmental analysis was performed to determine AUC values. Antibody concentrations in all biological matrices were quantified using qualified ELISA. The effect of ALI on BAL albumin and total protein concentrations was also determined. BAL protein concentrations were corrected for dilution using plasma urea concentrations.

Results: Intratracheal instillation of LPS and the resultant ALI led to ~2-4-fold higher concentrations of albumin and proteins in the BAL. LPS-induced ALI also notably altered the pulmonary PK of the antibody. The effect of ALI on the antibody PK was time and tissue dependent. The trachea and bronchi showed ~1.7-fold and ~1.4-fold lower antibody exposure compared with the control group, but the BAL fluid exhibited ~4-fold increase in antibody exposure following LPS treatment. Most noticeable changes in antibody PK occurred 24 h after LPS administration, and the effect was temporary for the bronchi and trachea. However, the changes in lung homogenate and, more notably, in BAL persisted until the end of the experiment. Thus, our investigation suggests that due to the acute nature of ALI-induced pathophysiology and the changing severity of the disease, the dose and timing of antibody administration following ALI may need to be optimized based on the target site of action (e.g., bronchi, trachea, BAL, lung parenchyma, etc.) to maximize the therapeutic effect of the antibody.

Conclusions: ALI may significantly affect pulmonary PK of systemically administered antibodies. Changes caused by ALI are time and tissue dependent, and hence, the timing and dose of antibody following ALI may need to be optimized to maximize the therapeutic effect of the antibody at the site of action.

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脂多糖（LPS）诱导急性肺损伤（ALI）对抗体肺药代动力学的影响。

目的：探讨脂多糖（LPS）诱导的急性肺损伤（ALI）对小鼠全身给药抗体肺药代动力学（PK）的影响。方法：对健康小鼠和气管内注射5 mg/kg LPS小鼠进行非靶向结合抗体PK的测定。静脉给药5 mg/kg抗体后，测定血浆、支气管肺泡灌洗液（BAL）、气管、支气管和肺匀浆PK。采用非区室分析确定AUC值。所有生物基质的抗体浓度采用合格的ELISA进行定量。测定了ALI对BAL白蛋白和总蛋白浓度的影响。用血浆尿素浓度稀释校正BAL蛋白浓度。结果：气管内灌注LPS和由此产生的ALI可使BAL中白蛋白和蛋白质浓度升高~2-4倍。lps诱导的ALI也显著改变了抗体的肺PK。ALI对抗体PK的影响具有时间和组织依赖性。与对照组相比，气管和支气管的抗体暴露量分别降低了1.7倍和1.4倍，而LPS处理后BAL液的抗体暴露量增加了4倍。LPS给药后24 h抗体PK变化最明显，且对支气管和气管的影响是暂时的。然而，肺匀浆的变化，更明显的是BAL的变化一直持续到实验结束。因此，我们的研究表明，由于ALI诱导的病理生理的急性性质和疾病严重程度的变化，ALI后抗体给药的剂量和时间可能需要根据作用靶点（如支气管、气管、BAL、肺实质等）进行优化，以最大限度地发挥抗体的治疗效果。结论：ALI可能显著影响全身给药抗体的肺PK。ALI引起的变化是时间和组织依赖性的，因此，ALI后抗体的时间和剂量可能需要优化，以最大限度地提高抗体在作用部位的治疗效果。

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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来源期刊

Antibodies IMMUNOLOGY-

CiteScore

7.10

自引率

6.40%

发文量

审稿时长

11 weeks

期刊介绍： Antibodies (ISSN 2073-4468), an international, peer-reviewed open access journal which provides an advanced forum for studies related to antibodies and antigens. It publishes reviews, research articles, communications and short notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. Full experimental and/or methodical details must be provided. Electronic files or software regarding the full details of the calculation and experimental procedure - if unable to be published in a normal way - can be deposited as supplementary material. This journal covers all topics related to antibodies and antigens, topics of interest include (but are not limited to): antibody-producing cells (including B cells), antibody structure and function, antibody-antigen interactions, Fc receptors, antibody manufacturing antibody engineering, antibody therapy, immunoassays, antibody diagnosis, tissue antigens, exogenous antigens, endogenous antigens, autoantigens, monoclonal antibodies, natural antibodies, humoral immune responses, immunoregulatory molecules.