Glukhova M A, Frid M G, Shekhonin B V, Balabanov Y V, Koteliansky V E
Institute of Experimental Cardiology, Cardiology Research Center, Academy of Medical Sciences, Moscow, Union of Soviet Socialist Republics.
Dev Biol. 1990 Sep;141(1):193-202. doi: 10.1016/0012-1606(90)90114-x.
Monoclonal antibodies recognizing extra domain A (ED-A) and extra domain B (ED-B) fibronectin (FN) sequences were used to characterize FN variants expressed in human vascular smooth muscle cells (SMC) during fetal and postnatal development and to compare spectrum of FN variants produced by vascular and visceral SMC. In 8- to 12-week-old fetuses both ED-A-containing FN (A-FN) and ED-B-containing FN (B-FN) were found in all smooth muscles studied--aorta, esophagus, stomach, and jejunum. By 20-25 weeks of gestation relative amounts of both A-FN and B-FN were reduced significantly in the aortic media (fivefold for A-FN and twofold for B-FN), while in visceral SMC only B-FN content was decreased. All the adult visceral smooth muscles examined contained A-FN rather than B-FN. Therefore, the cells from adult aortic media appear to be the only SMC so far known to produce FN that contains neither ED-A nor ED-B. Moreover, the data obtained show that, unlike other cells, medial SMC are embedded in vivo in the extracellular matrix that contains FN lacking both ED-A and ED-B. SMC from the minor intimal thickenings in the human child aorta as well as those from the atherosclerotic plaques produce A-FN rather than B-FN. We conclude that (1) vascular SMC change the spectrum of produced FN variants at least twice--during prenatal development between 12 and 20 weeks of gestation, and during the postnatal period, when they are recruited into the intimal cell population; (2) the production of FN variants in visceral SMC is also developmentally regulated; (3) all visceral SMC unlike the cells from adult aortic media produce A-FN; (4) the presence of ED-A and ED-B sequences in the FN molecule is not necessary for the extracellular matrix assembly in vivo.
利用识别额外结构域A(ED-A)和额外结构域B(ED-B)纤连蛋白(FN)序列的单克隆抗体,来表征在胎儿期和出生后发育过程中人类血管平滑肌细胞(SMC)中表达的FN变体,并比较血管SMC和内脏SMC产生的FN变体谱。在8至12周龄的胎儿中,在所有研究的平滑肌——主动脉、食管、胃和空肠中均发现了含ED-A的FN(A-FN)和含ED-B的FN(B-FN)。到妊娠20至25周时,主动脉中膜中A-FN和B-FN的相对含量均显著降低(A-FN降低了五倍,B-FN降低了两倍),而在内脏SMC中,只有B-FN含量降低。所有检测的成年内脏平滑肌均含有A-FN而非B-FN。因此,成年主动脉中膜的细胞似乎是目前已知的唯一不产生含ED-A和ED-B的FN的SMC。此外,所获得的数据表明,与其他细胞不同,中膜SMC在体内嵌入到含有既不含ED-A也不含ED-B的FN的细胞外基质中。人类儿童主动脉小内膜增厚处的SMC以及动脉粥样硬化斑块中的SMC产生A-FN而非B-FN。我们得出以下结论:(1)血管SMC至少在两次过程中改变所产生的FN变体谱——在妊娠12至20周的产前发育期间,以及在出生后被募集到内膜细胞群体时;(2)内脏SMC中FN变体的产生也受到发育调控;(3)与成年主动脉中膜的细胞不同,所有内脏SMC均产生A-FN;(4)FN分子中ED-A和ED-B序列的存在对于体内细胞外基质组装并非必需。
