Lazic Tatjana, Wyatt Todd A, Matic Milan, Meyerholz David K, Grubor Branka, Gallup Jack M, Kersting Karl W, Imerman Paula M, Almeida-De-Macedo Marcia, Ackermann Mark R
Department of Veterinary Pathology, 2740 College of Veterinary Medicine, Iowa State University, Ames, IA 50011-1250, USA.
Alcohol. 2007 Aug;41(5):347-55. doi: 10.1016/j.alcohol.2007.07.006.
In addition to neurodevelopmental effects, alcohol consumption at high levels during pregnancy is associated with immunomodulation and premature birth. Premature birth, in turn, is associated with increased susceptibility to various infectious agents such as respiratory syncytial virus (RSV). The initial line of pulmonary innate defense includes the mucociliary apparatus, which expels microorganisms trapped within the airway secretions. Surfactant proteins A and D (SP-A and SP-D, respectively) are additional components of pulmonary innate immunity and have an important role in pulmonary defense against inhaled pathogens. The purpose of this study was to determine if chronic alcohol consumption during the third trimester of pregnancy alters the function of the mucociliary apparatus and expression of SP-A and SP-D of fetal lung epithelia. Sixteen, date-mated ewes were assigned to two different groups; an ethanol-exposed group in which ewes received ethanol through surgically implanted intra-abomasal cannula during the third trimester of pregnancy, and a control group in which ewes received the equivalent amount of water instead of ethanol. Within these two groups, ewes were further randomly assigned to a full-term group in which the lambs were naturally delivered, and a preterm group in which the lambs were delivered prematurely via an abdominal incision and uterotomy. Ethanol was administered five times a week as a 40% solution at 1g/kg of body weight. The mean maternal serum alcohol concentration measured 6h postadministration was 16.3+/-4.36 mg/dl. Tracheas from six full-term lambs were collected to assess ciliary beat frequency (CBF). The lung tissue from all (24) lambs was collected for immunohistochemistry analysis of SP-A and SP-D protein production and fluorogenic real-time quantitative polymerase chain reaction analysis of SP-A and SP-D mRNA levels. Exposure to ethanol during pregnancy significantly blocked stimulated increase in CBF through ethanol-mediated desensitization of cAMP-dependent protein kinase. In addition, preterm born/ethanol-exposed lambs showed significantly decreased SP-A mRNA expression when compared with the preterm born/control group (P=.004); no significant changes were seen with SP-D. The full-term/ethanol-exposed lambs had no significant alterations in mRNA levels, but had significantly less detectable SP-A protein when compared with the full-term/control lambs (P=.02). These findings suggest that chronic maternal ethanol consumption during the third trimester of pregnancy alters innate immune gene expression in fetal lung. These alterations may underlie increased susceptibility of preterm infants, exposed to ethanol in utero, to RSV and other microbial agents.
除了对神经发育产生影响外,孕期大量饮酒还与免疫调节和早产有关。而早产又与对多种感染因子(如呼吸道合胞病毒(RSV))的易感性增加有关。肺部先天性防御的第一道防线包括黏液纤毛装置,它可排出被困在气道分泌物中的微生物。表面活性蛋白A和D(分别为SP-A和SP-D)是肺部先天性免疫的其他组成部分,在肺部抵御吸入病原体方面发挥着重要作用。本研究的目的是确定孕期第三个月长期饮酒是否会改变胎儿肺上皮细胞黏液纤毛装置的功能以及SP-A和SP-D的表达。16只已配种的母羊被分为两组;乙醇暴露组,母羊在孕期第三个月通过手术植入的真胃内插管接受乙醇;对照组,母羊接受等量的水而非乙醇。在这两组中,母羊又进一步随机分为足月组(羔羊自然分娩)和早产组(羔羊通过腹部切口和子宫切开术早产)。乙醇以40%的溶液,按1g/kg体重每周给药5次。给药后6小时测得的母羊血清平均酒精浓度为16.3±4.36mg/dl。收集6只足月羔羊的气管以评估纤毛摆动频率(CBF)。收集所有(24只)羔羊的肺组织,用于SP-A和SP-D蛋白产生的免疫组织化学分析以及SP-A和SP-D mRNA水平的荧光实时定量聚合酶链反应分析。孕期暴露于乙醇通过乙醇介导的环磷酸腺苷依赖性蛋白激酶脱敏,显著阻断了刺激引起CBF的增加。此外,与早产/对照组相比,早产/乙醇暴露组羔羊的SP-A mRNA表达显著降低(P = 0.004);SP-D未见显著变化。足月/乙醇暴露组羔羊的mRNA水平无显著改变,但与足月/对照组羔羊相比,可检测到的SP-A蛋白显著减少(P = 0.02)。这些发现表明,孕期第三个月母亲长期摄入乙醇会改变胎儿肺中的先天性免疫基因表达。这些改变可能是子宫内暴露于乙醇的早产儿对RSV和其他微生物制剂易感性增加的原因。