Enzymatic characterization of isocitrate dehydrogenase from an emerging zoonotic pathogen Streptococcus suis

Streptococcus suis, a Gram-positive coccus, is an emerging zoonotic pathogen for both humans and pigs, but little is known about the properties of its metabolic enzymes. Isocitrate dehydrogenase (IDH) is a key regulatory enzyme in the citric acid cycle that catalyzes the oxidative decarboxylation of isocitrate yielding α-ketoglutarate and NAD(P)H. Here, we report the overexpression and enzymatic characterization of IDH from S. suis Serotype 2 Chinese highly virulent strain 05ZYH33 (SsIDH). The molecular weight of SsIDH was estimated to be 74 kDa by gel filtration chromatography, suggesting a homodimeric structure. Additionally, SsIDH was divalent cation-dependent and Mg2+ was found to be the most effective cation. The optimal pH of SsIDH was 7.0 (Mn2+) and 8.5 (Mg2+), and the maximum activity was around 30 °C (Mn2+) and 50 °C (Mg2+), respectively. Heat inactivation studies showed that SsIDH retained 50% activity after 20 min of incubation at 49 °C. Sequence comparison revealed that SsIDH had a significantly homologous identity to bacterial homodimeric IDHs. The recombinant SsIDH displayed a 117-fold (kcat/Km) preference for NAD+ over NADP+ with Mg2+, and a 80-fold greater specificity for NAD+ than NADP+ with Mn2+. Therefore, SsIDH has remarkably high coenzyme preference toward NAD+. This current work is expected to shed light on the functions of metabolic enzymes in S. suis and provide useful information for SsIDH to be considered as a possible candidate for serological diagnostics and detection of S. suis infection.

► SsIDH is a less effective decarboxylating enzyme comparing to NADP+–IDHs. ► The optimal pH for SsIDH is 7.0 (Mn2+) and 8.5 (Mg2+). ► Its maximum activity is observed at 30 °C (Mn2+) and 50 °C (Mg2+). ► SsIDH is almost totally inactivated after incubation at 52 °C for 20 min. ► SsIDH is totally divalent cation-dependented and Mg2+ is the most favorable cation.