(R)-3-Hydroxybutyrate dehydrogenase (BDH) is a phosphatidylcholine-requiring tetrameric enzyme with two thiol groups (SH-1 and SH-2) per protomer. By first protecting the more rapidly reacting thiol group (SH-1) with diamide [1,1'-azobis-(N N'-dimethylformamide), DM] to form DM(SH-1)BDH, SH-2 can be selectively derivatized by reaction with maleimide reagents such as 4-maleimido-2,2,6,6-tetramethylpiperidine-N-oxyl (MSL), which gives DM(SH-1)MSL(SH-2)-BDH. Reduction with dithiothreitol (DTT) regenerates SH-1, yielding MAL(SH-2)BDH (where MAL is the diamagnetic reduction product of MSL-BDH and DTT). The enzymic activity of DM(SH-1)BDH is decreased to approx. 4% relative to the native purified enzyme, and the apparent K(m) for substrate, K(m)BOH. is increased approx. 100-fold. Reduction of DM(SH-1) BDH with DTT regenerates SH-1 and restores normal enzymic function. Modification of SH-2 with piperidinylmaleimide [MAL(SH-2)BDH] diminishes enzymic activity to approx. 35% of its original value, but has no significant effect on apparent K(m)BOH. The doubly derivatized enzyme, DM(SH-1)MSL(SH-2)-BDH, has lower enzymic activity [about half that for DM(SH-2)-BDH] and a yet higher apparent K(m)BOH than DM(SH-1)BDH. Derivatization of SH-2 with different maleimide reagents results in diminished activity approximately proportional to the size of the maleimide substituent, suggesting that this inhibition is steric. Whereas modification of SH-1 results in marked changes in kinetic parameters (increased apparent Km and reduced apparent V(max)), derivatization of SH-2 has a lesser effect on enzymic function. Thus SH-1 is postulated to be closer to the active centre than is SH-2, although neither is involved in catalysis, since: (1) the activity of the derivatized enzyme is not abolished; and (2) activity can be enhanced by increasing substrate (and cofactor) concentrations.
