Palaniyar Nades, Zhang Liquian, Kuzmenko Alexander, Ikegami Machiko, Wan Sijue, Wu Huixing, Korfhagen Thomas R, Whitsett Jeffrey A, McCormack Francis X
Division of Pulmonary/Critical Care Medicine, Department of Medicine, Children's Hospital Research Foundation, University of Cincinnati School of Medicine, Cincinnati, OH 45267-0564, USA.
J Biol Chem. 2002 Jul 26;277(30):26971-9. doi: 10.1074/jbc.M110080200. Epub 2002 May 15.
The N-terminal domains of the lung collectins, surfactant proteins A (SP-A) and D (SP-D), are critical for surfactant phospholipid interactions and surfactant homeostasis, respectively. To further assess the importance of lung collectin N-terminal domains in surfactant structure and function, a chimeric SP-D/SP-A (D/A) gene was constructed by substituting nucleotides encoding amino acids Asn(1)-Ala(7) of rat SP-A with the corresponding N-terminal sequences from rat SP-D, Ala(1)-Asn(25). Recombinant D/A migrated as a 35-kDa band on reducing SDS-PAGE and as a ladder of disulfide-linked multimers under nonreducing conditions. The recombinant D/A bound and aggregated phosphatidylcholine containing vesicles as effectively as rat SP-A. Mice in which endogenous pulmonary collectins were replaced with D/A were developed by human SP-C promoter-driven overexpression of the D/A gene in SP-A(-/-) and SP-D(-/-) animals. Analysis of lavage fluid from SP-A(-/-,D/A) mice revealed that glycosylated, oligomeric D/A was secreted into the air spaces at levels that were comparable with the authentic collectins and that the N-terminal interchange converted SP-A from a "bouquet" to a cruciform configuration. Transmission electron microscopy of surfactant from the SP-A(-/-,D/A) mice revealed atypical tubular myelin containing central "target-like" electron density. Surfactant isolated from SP-A(-/-,D/A) mice exhibited elevated surface tension both in the presence and absence of plasma inhibitors, but whole lung compliance of the SP-A(-/-,D/A) animals was not different from the SP-A(-/-) littermates. Lung-specific overexpression of D/A in the SPD(-/-) mouse resulted in hetero-oligomer formation with mouse SP-A and did not correct the air space dilation or phospholipidosis that occurs in the absence of SP-D. These studies indicate that the N terminus of SP-D 1) can functionally replace the N terminus of SP-A for lipid aggregation and tubular myelin formation, but not for surface tension lowering properties of SP-A, and 2) is not sufficient to reverse the structural and metabolic pulmonary defects in the SP-D(-/-) mouse.
肺凝集素的N端结构域,即表面活性蛋白A(SP-A)和D(SP-D),分别对表面活性物质磷脂相互作用和表面活性物质稳态至关重要。为了进一步评估肺凝集素N端结构域在表面活性物质结构和功能中的重要性,构建了一个嵌合的SP-D/SP-A(D/A)基因,即将大鼠SP-A编码氨基酸Asn(1)-Ala(7)的核苷酸替换为大鼠SP-D相应的N端序列Ala(1)-Asn(25)。重组D/A在还原SDS-PAGE上迁移为一条35 kDa的条带,在非还原条件下迁移为二硫键连接的多聚体阶梯状。重组D/A与含磷脂酰胆碱的囊泡结合并聚集的效果与大鼠SP-A一样有效。通过人SP-C启动子驱动D/A基因在SP-A(-/-)和SP-D(-/-)动物中过表达,培育出内源性肺凝集素被D/A替代的小鼠。对SP-A(-/-,D/A)小鼠支气管肺泡灌洗液的分析表明,糖基化的寡聚体D/A以与天然凝集素相当的水平分泌到气腔中,并且N端互换将SP-A从“花束”构型转变为十字形构型。对SP-A(-/-,D/A)小鼠表面活性物质的透射电子显微镜观察显示出含有中央“靶样”电子密度的非典型管状髓鞘。从SP-A(-/-,D/A)小鼠分离的表面活性物质在有和没有血浆抑制剂的情况下均表现出表面张力升高,但SP-A(-/-,D/A)动物的全肺顺应性与SP-A(-/-)同窝小鼠没有差异。在SP-D(-/-)小鼠中肺特异性过表达D/A导致与小鼠SP-A形成异源寡聚体,并且没有纠正SP-D缺失时发生的气腔扩张或磷脂沉着症。这些研究表明,SP-D的N端:1)在脂质聚集和管状髓鞘形成方面可以在功能上替代SP-A的N端,但不能替代SP-A降低表面张力的特性;2)不足以逆转SP-D(-/-)小鼠的结构和代谢性肺部缺陷。