Oxidized low density lipoproteins and lactosylceramide both stimulate the expression of proliferating cell nuclear antigen and the proliferation of aortic smooth muscle cells.

We have previously shown that oxidized low density lipoproteins (Ox-LDL) at low concentrations (10 micrograms/ml) via activating a UDP-galactose: glucosylceramide, beta 1-->4 galactosyl-transferase (GalT-2) and producing lactosylceramide can stimulate the proliferation of aortic smooth muscle cells. In this report, we present evidence that Ox-LDL and LacCer, both can induce the expression of proliferating cell nuclear antigen (cyclin). Ox-LDL and LacCer both exerted a time-dependent stimulation of cyclin expression. Maximum increase (3-fold) in cyclin expression occurred between 30-120 min after Ox-LDL/LacCer addition and decreased thereafter. D-threo-l-phenyldecanoylamino-3-morpholino-1-propanol (D-PDMP), an inhibitor of GalT-2, inhibited cell proliferation as well as cyclin expression. This inhibitor also abrogated the Ox-LDL mediated expression of proliferating cell nuclear antigen (cyclin). In contrast, the L-enantiomer of PDMP (L-PDMP) stimulated the expression of cyclin and augmented the Ox-LDL mediated expression of cyclin in these cells. Maximum increase in the expression of cyclin occurred with 20 mumole of L-PDMP and 10 micrograms of Ox-LDL. This overall pattern of Ox-LDL and LacCer mediated regulation is similar to that of the c-fos protooncogenes reported previously by us. We hypothesize that the early induction of GalT-2 may serve as an "Immediate early gene" that plays a role in the signalling cascade by LacCer and involves the kinase c-fos induction and subsequent expression of cyclins. Thus, GalT-2 may play a role in the proliferative response in aortic smooth muscle cells by Ox-LDL.

Effect of a fatty acid moiety of phospholipid and ceramide on purified GalT-3 (UDP-Gal:GM2 beta 1-3 galactosyltransferase) activity from embryonic chicken brain.

Galactosyltransferase, GalT-3 (UDP-Gal:GM2 beta 1-3 galactosyltransferase) has been characterized and solubilized from 19-day-old embryonic chicken brain, and purified to over 2000-fold using mixed-modal chromatography on a omega-aminohexyl Sepharose column and affinity chromatography on a UDP-hexanolamine Sepharose column. The activity of purified GalT-3 was modulated by phospholipids in vitro with stimulation observed specifically with dipalmitoyl phosphatidylethanolamine (PE). All natural phospholipids tested (PE, PC and PI) inhibited GalT-3 activity. Enzyme activity was affected by the structure of the phospholipid vesicle. It was stabilized by the hexagonal (dipalmitoyl PE) structure and inhibited by the bilayer (dielaidoyl PE) structure. The long-chain fatty acid moiety of the glycosphingolipid substrate, GM2, was found to be necessary for optimum enzyme activity. In the absence of fatty acid, the modified substrates, lyso-GM2 and acetyl-GM2, had a 10-fold increased Km and a 4-8 fold decreased Vmax compared to the normal substrate. We postulate that GalT-3 belongs to a group of glycosyltransferases having recognition for both the carbohydrate as well as the hydrophobic domains (HY-CARS) of their substrates and that the fatty acid moiety of either the substrate (GM2) or a heterotropic effector (phospholipid) plays an important role in regulating the activity of this enzyme.