Peculiarities of functioning of wheat cut-off root cells at inhibition of complexes I and II of mitochondrial respiratory chain

Abstract

Combined action of rotenone and malonate, inhibitors of complexes I and II of the mitochondrial electron transport chain (ETC), on wheat cut-off root seedlings was studied after 6 h of incubation. Intensity of oxygen consumption and release of potassium ions into incubation medium were determined simultaneously with the study of changes in cell ultrastructure. Malonic acid was added 1 h after the root incubation in the rotenone solution and produced inhibition of respiration, as well as a greater release of K+ into the incubation solution as compared with effect of rotenone alone. After 2 h of the combined action of these inhibitors, many mitochondria acquired a toroidal shape, thereby increasing the outer surface. For the ensuing hours, stimulation of oxygen consumption by the roots and a decrease of K+ content in the incubation medium were observed. Mitochondria once again acquired a round or oval shape and compensation-reparation processes took place. Contacts of endoplasmic reticulum channels with mitochondria were observed, which seems to be due to the synthesis of the enzyme splitting malonate to acetyl-CoA, which in turn can be included both into the Krebs cycle and into lipogenesis. It is suggested that the toroidal form of mitochondria is associated with the activation of the external NAD(P)H-dehydrogenase of the inner mitochondrial membrane, as under these conditions, at the inhibition of the ETC complexes I and II, the activity of other dehydrogenises is blocked. Thus, the use of the external NAD(P)H allows the activity of the ETC mitochondria to be restored, which facilitates the course of the reparation processes and allows cells to be adapted to this action.