The mitochondrial external NADPH dehydrogenase modulates the leaf NADPH/NADP+ ratio in transgenic Nicotiana sylvestris

Plant mitochondria contain alternative external NAD(P)H dehydrogenases,which oxidize cytosolic NADH or NADPH and reduce ubiquinonewithout inherent linkage to proton pumping and ATP production.In potato, St-NDB1 is an external Ca²⁺-dependent NADPH dehydrogenase.The physiological function of this enzyme was investigated inhomozygous Nicotiana sylvestris lines overexpressing St-ndb1and co-suppressing St-ndb1 and an N. sylvestris ndb1. In leafmitochondria isolated from the overexpressor lines, higher activityof alternative oxidase (AOX) was detected. However, the AOXinduction was substantially weaker than in the complex I-deficientCMSII mutant, previously shown to contain elevated amounts ofNAD(P)H dehydrogenases and AOX. An aox1b and an aox2 gene wereup-regulated in CMSII, but only aox1b showed a response, albeitsmaller, in the transgenic lines, indicating differences inAOX activation between the genotypes. As in CMSII, the increaseof AOX in the overexpressing lines was not due to a generaloxidative stress. The lines overexpressing St-ndb1 had consistentlylowered leaf NADPH/NADP⁺ ratios in the light and variably decreasedlevels in darkness, but unchanged NADH/NAD⁺ ratios. CMSII insteadhad similar NADPH/NADP⁺ and lower NADH/NAD⁺ ratios than thewild type. These results demonstrate that St-NDB1 is able tomodulate the cellular balance of NADPH and NADP⁺ at least inthe day and that reduction of NADP(H) and NAD(H) is independentlycontrolled. Similar growth rates, chloroplast malate dehydrogenaseactivation and xanthophyll ratios indicate that the change inreduction does not communicate to the chloroplast, and thatthe cell tolerates significant changes in NADP(H) reductionwithout deleterious effects.