. As shown in Extended Data Fig. 1a, an ECS signal is visible in P.tricornutum, the characteristics of which depend on the physiological conditions. Deconvolution of the ECS decay-associated spectra (DAS) (see Supplementary Information and Extended Data Fig. 1b,c) explains these observations by revealing the existence of two ECS components (Fig. 1a), respectively characterized by linear and quadratic responses to the ΔΨ (Fig. 1b). The existence of a quadratic ECS, predicted by theory 7 but observed to date only in green algae mutants (Fig. 1c), but was also suppressed by anaerobiosis or by pharmacological inhibition of mitochondrial activity (Fig. 1d, e). This suggests that the PMF is generated in the dark by the plastidial ATPase, which hydrolyses ATP of mitochondrial origin, as previously suggested in green algae 9 .In Viridiplantae (including green algae and higher plants), the AEPs generating additional ATP in the light comprise cyclic electron flow (CEF) around PS1 10 and the water-to-water cycles (WWC). uptake (U 0 ) increased with light, being ~2.5-fold higher at saturating light intensities than in the dark (Extended Data Fig. 2b, d). We further found that the light-stimulated consumption of oxygen was blocked by DCMU (Extended Data Fig. 2c, d), indicating that it was fed by electrons derived from PS2.Moreover, U 0 linearly increased with O 2 evolution, in agreement with earlier findings in the diatom Thalassiosira pseudonana 15, with a slope indicating that ~10% of the electron flow from PSII participate in WWC, regardless of light intensity (Fig 2b). These results indicate that WWC produces a constant extra ATP per photosynthetically-generated NADPH. This is expected for an AEP that contributes to optimizing CO 2 assimilation at any light intensity, and is not the case for CEF, which is completely insensitive to changes in the photosynthetic flux (LEF, Fig 2a).If this WWC is due to the export of photosynthetic products towards the mitochondrial oxidases, then any mitochondrial dysfunction should negatively affect photosynthetic electron transfer rates (ETR PSII ) and light-dependent growth. Mitochondrial respiration comprises a cyanidesensitive pathway (involving Complex III) and an insensitive pathway involving the alternative oxidase (AOX). We therefore modulated mitochondrial activity by adding increasing amounts of Antimycin A (AA) or myxothiazol (Mx), inhibitors of Complex III, in conditions where the AOX was inhibited by SHAM (see legend to Fig. 2d). Both the ΔΨ d and ETR PSII followed respiration linearly (Fig. 2c, d and Extended Data Fig. 3). The almost complete shut-down of respiration resulted in a decrease of photosynthesis which was independent of light intensity (Fig. 3b).Overall we found that in the dark a PMF is generated in the plastid by hydrolysis of ATP produced in mitochondria (Fig 1d,e and Fig. 2c). Conversely, in the light, respiration increases linearly with photosynthesis (Fig. 2b), and vice versa (Fig. 2d). This tight energetic coupling is likely instrumental for adjusting ...
Diatoms are unicellular, mainly photosynthetic, eukaryotes living within elaborate silicified cell walls and believed to be responsible for around 40% of global primary productivity in the oceans. Their abundance in aquatic ecosystems is such that they have on different occasions been described as the insects, the weeds, or the cancer cells of the ocean. In contrast to higher plants and green algae which derive from a primary endosymbiosis, diatoms are now believed to originate from a serial secondary endosymbiosis involving both green and red algae and a heterotrophic exosymbiont host. As a consequence of their dynamic evolutionary history, they appear to have red algal-derived chloroplasts empowered largely by green algal proteins, working alongside mitochondria derived from the non-photosynthetic exosymbiont. This review will discuss the evidence for such an unusual assemblage of organelles in diatoms, and will present the evidence implying that it has enabled them with unorthodox metabolisms that may have contributed to their profound ecological success.
Diatom dominance in contemporary aquatic environments indicates that they have developed unique and effective mechanisms to cope with the rapid and considerable fluctuations that characterize these environments. In view of their evolutionary history from a secondary endosymbiosis, inter-organellar regulation of biochemical activities may be of particular relevance. Diatom mitochondrial alternative oxidase (AOX) is believed to play a significant role in supplying chloroplasts with ATP produced in the mitochondria. Using the model diatom Phaeodactylum tricornutum we generated AOX knockdown lines, and followed sensitivity to stressors, photosynthesis and transcriptome and metabolome profiles of wild-type and knockdown lines. We show here that expression of the AOX gene is upregulated by various stresses including H O , heat, high light illumination, and iron or nitrogen limitation. AOX knockdown results in hypersensitivity to stress. Knockdown lines also show significantly reduced photosynthetic rates and their chloroplasts are more oxidized. Comparisons of transcriptome and metabolome profiles suggest a strong impact of AOX activity on gene expression, which is carried through to the level of the metabolome. Our data provide evidence for the involvement of mitochondrial AOX in processes central to the cell biology of diatoms, revealing that cross-talk between mitochondria and chloroplasts is crucial for maintaining sensitivity to changing environments.
This study was carried out to examine the possible role of interleukin-1 (IL-1) in the functional insufficiency of regulatory T cells in psoriasis, by comparing the expression of IL-1 receptors on healthy control and psoriatic T cells. Patients with moderate-to-severe chronic plaque psoriasis and healthy volunteers, matched in age and sex, were selected for all experiments. CD4+CD25− effector and CD4+CD25+CD127low regulatory T cells were separated and used for the experiments. Expression of the mRNA of IL-1 receptors (IL-1R1, IL-1R2, and sIL-1R2) was determined by quantitative real-time RT-PCR. Cell surface IL-1 receptor expression was assessed by flow cytometry. Relative expression of the signal transmitting IL-1 receptor type 1 (IL-1R1) mRNA is higher in resting psoriatic effector and regulatory T cells, and activation induces higher IL-1R1 protein expression in psoriatic T cells than in healthy cells. Psoriatic regulatory and effector T cells express increased mRNA levels of the decoy IL-1 receptors (IL-1R2 and sIL-1R2) upon activation compared to healthy counterparts. Psoriatic T cells release slightly more sIL-1R2 into their surrounding than healthy T cells. In conclusion, changes in the expression of IL-1 receptors in psoriatic regulatory and effector T cells could contribute to the pathogenesis of psoriasis.
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