Memon Naureen, Griffin Ian J, Lee Chris W, Herdt Aimee, Weinberger Barry I, Hegyi Thomas, Carayannopoulos Mary O, Aleksunes Lauren M, Guo Grace L
MidAtlantic Neonatology Associates, Morristown, NJ, USA.
Goryeb Children's Hospital, Atlantic Health System, Morristown, NJ, USA.
J Matern Fetal Neonatal Med. 2020 Mar;33(6):987-992. doi: 10.1080/14767058.2018.1513483. Epub 2018 Oct 29.
Fibroblast growth factor 19 (FGF19) is a gut-derived hormone that regulates the expression of CYP7A1, the rate-limiting enzyme in bile acid (BA) synthesis pathway. Dysregulation of the FGF19-CYP7A1 (gut-liver) axis is associated with cholestatic liver disease. Infants, especially preterm infants and those with intestinal failure are at high risk for developing cholestatic liver disease. The activity of the gut-liver axis has not been characterized in this population. Our objective was to assess relationships between circulating FGF19 concentrations and CYP7A1 activity in neonates. Plasma samples were obtained longitudinally from term and preterm infants (22-41-week gestation) hospitalized in a neonatal intensive care unit. Infants with congenital and acquired gastrointestinal disorders were excluded. Plasma levels of 7α-hydroxy-4-cholesten-3-one (C4), a marker of CYP7A1 activity, were quantified using HPLC-MS/MS. Plasma FGF19 concentrations were quantified by ELISA. Data were analyzed using linear regression models and structural equation modeling. One hundred eighty-one plasma samples were analyzed from 62 infants. C4 concentrations were undetectable prior to 30 weeks' gestation and, thereafter, increased with advancing gestational age and with volume of enteral feeds. They did not correlate with serum FGF19 concentrations, which decreased with advancing gestational age and volume of enteral feeds. The activity of CYP7A1, the rate-limiting BA synthetic enzyme in adults, is developmentally regulated and undetectable in newborns less than 30 weeks' gestation. FGF19 concentrations do not correlate with CYP7A1 activity, suggesting that the gut-liver axis is not functional in infants. High FGF19 concentrations at birth in infants less than 37 weeks' gestation is a novel finding, and its source and role in preterm infants warrants further investigation. The intestinal hormone, fibroblast growth factor 19 (FGF19), is a major regulator of CYP7A1, the rate limiting enzyme in bile acid (BA) synthesis. Recently, dysregulation of the gut-liver (FGF19-CYP7A1) axis has been implicated in adult cholestatic liver disease, and animal studies have shown that exogenous FGF19 protects against liver injury. Given the therapeutic potential related to this signaling pathway, we sought to characterize the association between CYP7A1 and FGF19 in term and preterm infants. We conducted a prospective, observational study that measured CYP7A1 activity and FGF19 concentrations in 62 term and preterm infants ( = 181 samples). We found that CYP7A1 activity is developmentally regulated; its activity is undetectable prior to 30 weeks' gestation and increases with advancing gestational age and volume of enteral feeds. Contrary to expectation, we demonstrated that FGF19 is expressed at birth in preterm infants and decreases over time, even as enteral feeds increase. Using structural equation modeling, we were able to show that CYP7A1 activity does not correlate with FGF19 concentrations. Our results suggest that the gut-liver axis is not upregulated in preterm and term infants and that neonates with cholestatic liver disease will unlikely benefit from supplemental FGF19. We also report novel findings of elevated FGF19 concentrations in preterm infants at birth and speculate that there may be an extra-intestinal source of FGF19 that is developmentally expressed in these infants.
成纤维细胞生长因子19(FGF19)是一种源自肠道的激素,可调节胆汁酸(BA)合成途径中的限速酶CYP7A1的表达。FGF19-CYP7A1(肠-肝)轴的失调与胆汁淤积性肝病有关。婴儿,尤其是早产儿和肠道衰竭患儿,患胆汁淤积性肝病的风险很高。该人群中肠-肝轴的活性尚未得到表征。我们的目的是评估新生儿循环中FGF19浓度与CYP7A1活性之间的关系。从新生儿重症监护病房住院的足月儿和早产儿(妊娠22-41周)纵向采集血浆样本。排除患有先天性和后天性胃肠道疾病的婴儿。使用HPLC-MS/MS对CYP7A1活性标志物7α-羟基-4-胆甾烯-3-酮(C4)的血浆水平进行定量。通过ELISA对血浆FGF19浓度进行定量。使用线性回归模型和结构方程模型分析数据。对62名婴儿的181份血浆样本进行了分析。妊娠30周前未检测到C4浓度,此后,C4浓度随胎龄增加和肠内喂养量增加而升高。它们与血清FGF19浓度无关,血清FGF19浓度随胎龄增加和肠内喂养量增加而降低。成人体内胆汁酸合成的限速酶CYP7A1的活性受发育调控,在妊娠小于30周的新生儿中检测不到。FGF19浓度与CYP7A1活性无关,这表明婴儿的肠-肝轴无功能。妊娠小于37周的婴儿出生时FGF19浓度高是一个新发现,其来源及其在早产儿中的作用值得进一步研究。肠道激素成纤维细胞生长因子19(FGF19)是胆汁酸(BA)合成中的限速酶CYP7A1的主要调节因子。最近,肠-肝(FGF19-CYP7A1)轴失调与成人胆汁淤积性肝病有关,动物研究表明外源性FGF19可预防肝损伤。鉴于该信号通路的治疗潜力,我们试图表征足月儿和早产儿中CYP7A1与FGF19之间的关联。我们进行了一项前瞻性观察性研究,测量了62名足月儿和早产儿(n=181份样本)的CYP7A1活性和FGF19浓度。我们发现CYP7A1活性受发育调控;在妊娠30周前未检测到其活性,其活性随胎龄增加和肠内喂养量增加而升高。与预期相反,我们证明FGF19在早产儿出生时就有表达,并且随着时间的推移而降低,即使肠内喂养量增加也是如此。使用结构方程模型,我们能够表明CYP7A1活性与FGF19浓度无关。我们的结果表明,足月儿和早产儿的肠-肝轴未上调,胆汁淤积性肝病的新生儿不太可能从补充FGF19中获益。我们还报告了早产儿出生时FGF19浓度升高的新发现,并推测这些婴儿中可能存在在发育过程中表达的FGF19的肠外来源。
