| Summary: | Keratan sulfate (KS) is an elongated glycosaminoglycan (GAG) chain found throughout the cornea, the clear tissue at the front of the eye. It is thought that KS plays a specialized role in maintaining the ordered spatial arrangement of collagen fibrils that comprise the thickest layer of the cornea, the stroma. Repeating N-‐acetylglucosamine (GlcNAc) and galactose monosaccharides make up the fine structure of KS, and sulfate groups frequently modify their C-‐6 positions. Recent studies have linked improper sulfation of GlcNAc residues to macular corneal dystrophy, a vision condition characterized by a progressive loss of corneal transparency. Since then, in vitro experiments have implicated four enzymes in highly sulfated KS biosynthesis. It is currently believed that β-‐1,3-‐N-‐ acetylglucosaminyltransferase 7 (β3GnT7), corneal GlcNAc 6-‐O sulfotransferase (CGn6ST), and β-‐1,4-‐ lactosyltransferase 4 (β4GalT4) sequentially catalyze the addition of GlcNAc, transfer sulfate to its C-‐6 position, and link galactose to the growing KS backbone, respectively. The fourth enzyme, KS galactose 6-‐O sulfotransferase (KSGal6ST) is thought to act last, sulfating galactose residues. Mutant mice deficient in CGn6ST, KSGal6ST, or β3GnT7 were recently developed to investigate the consequences of dysfunctional sulfo-‐ or glycosyltransferases on corneal morphology. Electron microscopy and immunohistochemistry data in this thesis showed that the systemic absence of CGn6ST or β3GnT7 resulted in a corneal stroma devoid of KS, but mutation of only KSGal6ST led to a KS phenotype similar to that of wild type controls. Western blot analysis conducted on β3GnT7-‐null corneas indicated that KS assumed an unusually truncated form, as compared to wild type controls. A secondary result evident in electron micrographs was that in cases where KS levels dropped below the detectable threshold (i.e. in CGn6ST and β3GnT7 mutant corneas), a concurrent appearance of atypically elongated GAGs was visible, suggesting a compensatory mechanism to preserve corneal organization. Since the unusual GAGs were susceptible to chondroitinase ABC digestion, it is thought they are comprised of chondroitin/dermatan sulfate (CS/DS). Studies using high performance liquid chromatography were also undertaken to establish protocols in which future work could quantify the change in CS/DS expression observed in CGn6ST and β3GnT7 mutant corneas.
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