NUP107-160 nuclear pore sub-complex members determine symbiotic ion channel localization in legumes

Abstract

The nuclear pore complex controls the movement of proteins into and out of the nucleus, allowing cells to regulate protein localization and abundance. This process influences how organisms respond to environmental stimuli. Components of the nuclear pore complex, including the NUP107-160 sub-complex, NUP133, NUP85, and NENA, are required for root nodulation and arbuscular mycorrhization in Lotus japonicus. However, the specific role of these nucleoporins in symbiotic signaling was poorly understood. Through reverse genetics, we discovered that NUP133 is also required for symbiosis in Medicago truncatula, although the mutant phenotypes were less pronounced than in Lotus. Overexpression of the symbiotic ion channels Medicago DMI1 and Lotus Castor and Pollux in the Lotus Ljnup133, Ljnup85, and Ljnena mutants partially alleviated the nodulation defects. Notably, in NUP107-160 sub-complex mutants of Lotus and Medicago, the accumulation of GFP-labeled Pollux and DMI1 on the inner nuclear membrane was reduced, indicating the NUP107-160 sub-complex plays a key role in regulating the distribution of DMI1 and Pollux on the nuclear envelope. This highlights the extreme sensitivity of nodulation in Lotus to changes in the abundance of Pollux on the inner nuclear membrane. In contrast, Medicago appears to exhibit greater tolerance to alterations in the distribution of DMI1 on the nuclear envelope.