Sarnat Harvey B, Yu Weiming, Flores-Sarnat Laura
Clin Neuropathol. 2021 Mar-Apr;40(2):70-86. doi: 10.5414/NP301317.
Keratan sulfate (KS) is an abundant proteoglycan in the developing human CNS where it functions as an extracellular axonal guidance molecule, repelling glutamatergic while facilitating GABAergic axons. It ensheaths axonal fascicles. In fetal brain maturation, KS acts as a barrier to axonal penetration. Its possible role in the pathogenesis of fetal holoprosencephaly (HPE) was studied.
Forebrains of 6 human fetuses with HPE identified by prenatal ultrasound were examined at autopsy with KS immunoreactivity and other markers of cellular maturation and synaptogenesis, with age-matched controls.
KS was strongly expressed in astrocytes in the thalamus from 13 weeks gestational age (GA) and in globus pallidus but not corpus striatum. Cortical plate reactivity was limited to the molecular zone, where KS was excessive, ensheathing individual transverse molecular zone axons. Axonal envelopment preceding myelination also was seen in the internal capsule and thalamocortical projections, but perifascicular KS was diminished. KS was not expressed in hippocampus in either HPE or controls. Glutamate receptor-2 (GluR2) was evident in hippocampal granular and pyramidal neurons at mid-gestation. KS distribution did not, however, correlate with synaptophysin.
Excessive ensheathment of axons by KS provides additional protection of GABAergic inhibitory axons and synapses that may help suppress epileptogenesis. Though involved in selection of excitatory and inhibitory synaptogenesis, KS does not follow a developmental sequence corresponding to synaptophysin or GluR2 reactivities in either HPE or in normal fetal brain.
硫酸角质素(KS)是发育中的人类中枢神经系统中一种丰富的蛋白聚糖,它作为一种细胞外轴突导向分子发挥作用,排斥谷氨酸能轴突同时促进γ-氨基丁酸能轴突生长。它包裹轴突束。在胎儿脑成熟过程中,KS充当轴突穿透的屏障。研究了其在胎儿全前脑畸形(HPE)发病机制中的可能作用。
对6例经产前超声诊断为HPE的人类胎儿的前脑进行尸检,检测其KS免疫反应性以及细胞成熟和突触形成的其他标志物,并与年龄匹配的对照组进行比较。
从妊娠13周起,KS在丘脑星形胶质细胞中强烈表达,在苍白球中也有表达,但在纹状体中无表达。皮质板反应仅限于分子层,该层KS过多,包裹单个横向分子层轴突。在脑内囊和丘脑皮质投射中也可见到髓鞘形成前的轴突包裹,但束周KS减少。在HPE和对照组的海马中均未检测到KS表达。谷氨酸受体2(GluR2)在妊娠中期海马颗粒神经元和锥体细胞中明显表达。然而,KS的分布与突触素不相关。
KS对轴突的过度包裹为γ-氨基丁酸能抑制性轴突和突触提供了额外保护,这可能有助于抑制癫痫发生。尽管KS参与兴奋性和抑制性突触形成的选择,但在HPE或正常胎儿脑中,其并不遵循与突触素或GluR2反应性相对应的发育顺序。
