Sorting of metabolic pathway flux by the plasma membrane in cerebrovascular smooth muscle cells

We used-escin-permeabilized pig cerebral microvessels (PCMV) to study theorganization of carbohydrate metabolism in the cytoplasm of vascularsmooth muscle (VSM) cells. We have previously demonstrated (Lloyd PGand Hardin CD. Am J Physiol Cell Physiol 277: C1250-C1262,1999) that intact PCMV metabolize the glycolytic intermediate1-¹³C]fructose 1,6-bisphosphate (FBP) to1-¹³C]glucose with negligible production of3-¹³C]lactate, while simultaneouslymetabolizing 2-¹³C]glucose to2-¹³C]lactate. Thus gluconeogenic andglycolytic intermediates do not mix freely in intact VSM cells(compartmentation). Permeabilized PCMV retained the ability tometabolize 2-¹³C]glucose to2-¹³C]lactate and to metabolize1-¹³C]FBP to1-¹³C]glucose. The continued existence ofglycolytic and gluconeogenic activity in permeabilized cells suggeststhat the intermediates of these pathways are channeled (directlytransferred) between enzymes. Both glycolytic and gluconeogenic flux inpermeabilized PCMV were sensitive to the presence of exogenous ATP andNAD. It was most interesting that a major product of1-¹³C]FBP metabolism in permeabilized PCMV was3-¹³C]lactate, in direct contrast to ourprevious findings in intact PCMV. Thus disruption of the plasmamembrane altered the distribution of substrates between the glycolyticand gluconeogenic pathways. These data suggest that organization of theplasma membrane into distinct microdomains plays an important role insorting intermediates between the glycolytic and gluconeogenic pathwaysin intact cells.