4-Methylumbelliferyl-beta-xyloside (Xyl beta MU) primes glycosaminoglycan synthesis by first serving as an acceptor for the addition of 2 galactoses and 1 glucuronic acid residue to make the typical core structure, GlcUA beta 1, 3Gal beta 1,3Gal beta 1,4Xyl beta MU. To investigate the relative localization of these biosynthetic enzymes, intact and properly oriented rat liver Golgi preparations were incubated with Xyl beta MU and 1 mu M UDP-[H-3]Gal and then chased with 5 mu M of unlabeled UDP-Gal, UDP-GlcUA, UDP-GlcNAc, UDP-GalNAc, and CMP-Neu5Ac. Under these conditions, no intervesicular transport occurs and acceptor labeling depends entirely upon transporter-mediated delivery of the labeled sugar nucleotides into the lumen of a vesicle and co-localization of the appropriate glycosyltransferases. The labeled products were isolated from the incubation medium and from within the Golgi and their structures analyzed by C18, anion-exchange, and amine adsorption high performance liquid chromatography in combination with glycosidase digestions, Surprisingly, the major products within the Golgi mere two sialylated xylosides (Sia alpha 2,3Gal beta 1,4Xyl beta MU and Sia alpha 2,8Sia alpha 2,3Gal beta 1,4Xyl beta MU) rather than the expected group of partially completed GAG core structures, Less than 10% of the products within the Golgi are the expected core structures containing a second Gal residue or, in addition, GlcUA. The amount of the sialylated products is only partially decreased if the chase is omitted or if the chase is done in the absence of added CMP-Sia, suggesting a pool of previously transported CMP-Sia drives synthesis of the major products, Conversely, when detergent permeabilized vesicles are provided with high concentration of the same sugar nucleotides, the ratio of sialylated products is reduced and replaced by an increase in GAG-like products. These results argue that GAG core-specific Gal transferase I and II are not extensively co-localized within the same Golgi compartment. By contrast, glycosaminoglycan core Gal transferase I is substantially co-localized with an alpha-2,3-sialyltransferase and an alpha-2,8-sialyltransferase. Incubating intact Golgi vesicles with exogenous diffusible accepters offers a novel method to assess the functional co-localization of glycosyltransferases of multiple pathways within the Golgi compartments.
