Changes in glycolytic enzyme levels and isozyme expression in human lymphocytes during blast transformation.

The levels of each of the glycolytic enzymes were observed to exhibit a parallel increase of 200 to 300% when human lymphocytes were stimulated to undergo blast transformation. A series of electrofocusing and electrophoretic studies was utilized to assess the isozyme distribution of the glycolytic enzymes during blastogenesis. Hexokinase (pI = 7.40), glucosephosphate isomerase (pI = 9.35), and enolase (pI = 8.30) existed as single electrophoretic components and were unchanged during blast transformation. Phosphoglycerate mutase was observed to exist as two isozymes (pI = 5.80 and 6.63), which were also unchanged by blastogenesis. Aldolase, which was present as two electrophoretic forms in lymphocytes (pI = 9.25 and 8.75), exhibited a shift in the relative content of each. In addition to the lactate dehydrogenase isozymes at pI 9.50 and 7.60 found in lymphocytes, lymphoblasts contained isozymes with pI values of 7.30, 7.05, and 5.85. Although glyceraldehyde 3-phosphate dehydrogenase was present as a single electrophoretic form (pI ? 8.0) in both lymphocytes and lymphoblasts, the association of the enzyme with actin produced electrophoretic artifacts with lower pI values. Phosphoglycerate kinase, which appeared as a single form in lymphocytes (pI = 9.00), was present as two isozymes (9.00 and 8.74) in lymphoblasts. Similarly, pyruvate kinase (pI = 8.73 and 8.50 in lymphocytes) exhibited additional isozymes (pyruvate kinase, pI = 7.60 and 5.85, and triosephosphate isomerase, pI = 5.20) as a result of cell transformation.