Unexpected complexity in the lactate racemization system of lactic acid bacteria.

Analysis of lactate racemase (Lar) in lactic acid bacteria (LAB) has been a scientific challenge for many years, as indicated by the numerous contradictory reports on this activity. Recently, genetic and biochemical studies of the Lar system of Lactobacillus plantarum have unveiled the complexity of this particular enzymatic system. Lar activity is associated with LarA and its nickel-containing cofactor, synthesized from nicotinic acid adenine dinucleotide by the three biosynthetic enzymes: LarB, LarC, and LarE. In addition to these core Lar enzymes, a nickel transporter (Lar(MN)QO), a lactic acid channel (LarD) and a transcriptional regulator (LarR) which promotes expression of the lar genes in the presence of excess L-lactate are also part of the Lar system of Lb. plantarum and of many other LAB. These proteins promote racemization of external L-lactate, in addition to carrying out intracellular racemization. This additional outcome suggests that racemization of L-lactate is not only required for cell wall biosynthesis, as reported before, but may have additional roles in lactate production and utilization in LAB. Finally, bioinformatics analyses indicate that some Lar homologs probably catalyze reactions other than lactate racemization.