期刊
CURRENT BIOLOGY
卷 31, 期 2, 页码 433-+出版社
CELL PRESS
DOI: 10.1016/j.cub.2020.10.051
关键词
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资金
- Australian Research Council [DP110104601, DP170102353]
- Natural Science Foundation of Shandong Province [ZR2019BD003]
- China Postdoctoral Science Foundation [2019M652498]
- China Scholarship Council visiting scholar grant
The study found that there is a biosynthetic loop of arginine-citrulline in sponge larval holobiont, where symbionts can synthesize arginine and larvae can convert arginine from seawater into NO and citrulline. The results support the holobiont complementation of the arginine-citrulline loop and NO biosynthesis in Amphimedon larvae, suggesting a critical role for bacterial symbionts in sponge development.
Larval settlement and metamorphosis are regulated by nitric oxide (NO) signaling in a wide diversity of marine invertebrates.(1-10) It is thus surprising that, in most invertebrates, the substrate for NO synthesis-arginine-cannot be biosynthesized but instead must be exogenously sourced.(11) In the sponge Amphimedon queenslandica, vertically inherited proteobacterial symbionts in the larva are able to biosynthesize arginine.(12,13) Here, we test the hypothesis that symbionts provide arginine to the sponge host so that nitric oxide synthase expressed in the larva can produce NO, which regulates metamorphosis,(8) and the byproduct citrulline (Figure 1). First, we find support for an arginine-citrulline biosynthetic loop in this sponge larval holobiont by using stable isotope tracing. In symbionts, incorporated C-13-citrulline decreases as C-13-arginine increases, consistent with the use of exogenous citrulline for arginine synthesis. In contrast, C-13-citrulline accumulates in larvae as C-13-arginine decreases, demonstrating the uptake of exogenous arginine and its conversion to NO and citrulline. Second, we show that, although Amphimedon larvae can derive arginine directly from seawater, normal settlement and metamorphosis can occur in artificial sea water lacking arginine. Together, these results support holobiont complementation of the arginine-citrulline loop and NO biosynthesis in Amphimedon larvae, suggesting a critical role for bacterial symbionts in the development of this marine sponge. Given that NO regulates settlement and metamorphosis in diverse animal phyla(1-10) and arginine is procured externally in most animals,(11) we propose that symbionts might play an equally critical regulatory role in this essential life cycle transition in other metazoans.
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