Dylong Florentine, Riedel Jan, Amonkar Gaurang M, Peukert Nicole, Lieckfeldt Paula, Sturm Katinka, Höxter Benedikt, Tse Wai Hei, Miyake Yuichiro, Moormann Maria, Bode Lena Marie, Mayer Steffi, Keijzer Richard, Lacher Martin, Ai Xingbin, Gosemann Jan-Hendrik, Wagner Richard
Department of Pediatric Surgery, University Hospital Leipzig, Leipzig, Germany.
Division of Newborn Medicine, Department of Pediatrics, Massachusetts General Hospital, Boston, Massachusetts; and.
Am J Respir Cell Mol Biol. 2023 Nov;69(5):545-555. doi: 10.1165/rcmb.2023-0138OC.
Abnormal lung development is the main cause of morbidity and mortality in neonates with congenital diaphragmatic hernia (CDH), a common birth defect (1:2,500) of largely unknown pathobiology. Recent studies discovered that inflammatory processes, and specifically NF-κB-associated pathways, are enriched in human and experimental CDH. However, the molecular signaling of NF-κB in abnormal CDH lung development and its potential as a therapeutic target require further investigation. Using sections and hypoplastic lung explant cultures from the nitrofen rat model of CDH and human fetal CDH lungs, we demonstrate that NF-κB and its downstream transcriptional targets are hyperactive during abnormal lung formation in CDH. NF-κB activity was especially elevated in the airway epithelium of nitrofen and human CDH lungs at different developmental stages. Fetal rat lung explants had impaired pseudoglandular airway branching after exposure to nitrofen, together with increased phosphorylation and transcriptional activity of NF-κB. Dexamethasone, the broad and clinically applicable antiinflammatory NF-κB antagonist, rescued lung branching and normalized NF-κB signaling in hypoplastic lung explants. Moreover, specific NF-κB inhibition with curcumenol similarly rescued lung hypoplasia and restored NF-κB signaling. Last, we showed that prenatal intraperitoneal dexamethasone administration to pregnant rat dams carrying fetuses with hypoplastic lungs significantly improves lung branching and normalizes NF-κB . Our results indicate that NF-κB is aberrantly activated in human and nitrofen CDH lungs. Antiinflammatory treatment with dexamethasone and/or specific NF-κB inhibition should be investigated further as a therapeutic avenue to target lung hypoplasia in CDH.
肺发育异常是先天性膈疝(CDH)新生儿发病和死亡的主要原因,CDH是一种常见的出生缺陷(1:2500),其病理生物学机制大多未知。最近的研究发现,炎症过程,特别是与NF-κB相关的通路,在人类和实验性CDH中富集。然而,NF-κB在CDH异常肺发育中的分子信号传导及其作为治疗靶点的潜力需要进一步研究。利用CDH的硝呋太尔大鼠模型和人类胎儿CDH肺的切片及发育不全的肺外植体培养,我们证明NF-κB及其下游转录靶点在CDH异常肺形成过程中过度活跃。在不同发育阶段,NF-κB活性在硝呋太尔和人类CDH肺的气道上皮中尤其升高。暴露于硝呋太尔后,胎鼠肺外植体的假腺泡气道分支受损,同时NF-κB的磷酸化和转录活性增加。地塞米松是一种广泛应用于临床的抗炎NF-κB拮抗剂,可挽救肺分支并使发育不全的肺外植体中的NF-κB信号正常化。此外,姜黄素醇对NF-κB的特异性抑制同样挽救了肺发育不全并恢复了NF-κB信号。最后,我们表明,对携带发育不全肺胎儿的孕鼠进行产前腹腔注射地塞米松可显著改善肺分支并使NF-κB正常化。我们的结果表明,NF-κB在人类和硝呋太尔CDH肺中被异常激活。作为针对CDH肺发育不全的治疗途径,应进一步研究地塞米松和/或特异性NF-κB抑制的抗炎治疗。
