Singh G D, Moxham B J, Langley M S, Embery G
Department of Dental Surgery and Periodontology, Dundee Dental Hospital and School, University of Dundee, Scotland, UK.
Arch Oral Biol. 1997 May;42(5):355-63. doi: 10.1016/s0003-9969(97)00031-9.
The biosynthesis and hydration of glycosaminoglycans (GAG) has been implicated in the generation of palatal shelf-elevating force(s) in mammals, although the nature of the palatal shelf extracellular matrices during cleft palate formation remains poorly understood. This study quantifies the GAG composition in the palatal shelves of Wistar rat fetuses at various periods of palatogenesis where clefts were induced experimentally using 5-fluoro-2-deoxyuridine (FUDR). For both normal and cleft palatal shelves, hyaluronan, heparan sulphate and chondroitin-4-sulphate were detected but not dermatan sulphate or chondroitin-6-sulphate. Throughout the period of cleft development studied, the total amount of GAG was significantly decreased (by approx. 30%) compared with normal development, this decrease being particularly marked at a time equivalent to post-elevation during normal development (approx. 75%). Furthermore, and unlike normal palatogenesis, no significant differences were recorded between the anterior and posterior parts of the palatal shelves during cleft formation. As for normal palatogenesis, however, the percentages of each GAG were not altered at any stage. The findings are consistent with the view that suppression of GAG biosynthesis is related to the development of cleft palate in FUDR-treated rat fetuses and can therefore be interpreted as providing evidence of a role for the mesenchymal glycoconjugates in shelf elevation during normal palatogenesis.
糖胺聚糖(GAG)的生物合成和水合作用与哺乳动物腭突抬高力的产生有关,尽管腭裂形成过程中腭突细胞外基质的性质仍知之甚少。本研究对不同腭发育阶段的Wistar大鼠胎儿腭突中的GAG组成进行了定量分析,这些胎儿是通过实验使用5-氟-2-脱氧尿苷(FUDR)诱导腭裂的。在正常和腭裂腭突中均检测到透明质酸、硫酸乙酰肝素和硫酸软骨素-4,但未检测到硫酸皮肤素或硫酸软骨素-6。在所研究的腭裂发育期间,与正常发育相比,GAG的总量显著减少(约30%),这种减少在相当于正常发育中抬高后阶段(约75%)时尤为明显。此外,与正常腭发育不同,在腭裂形成过程中,腭突前后部之间未记录到显著差异。然而,与正常腭发育一样,每个GAG的百分比在任何阶段均未改变。这些发现与以下观点一致,即GAG生物合成的抑制与FUDR处理的大鼠胎儿腭裂的发生有关,因此可以解释为提供了间充质糖缀合物在正常腭发育过程中对腭突抬高起作用的证据。