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Structural basis of Sphingosine-1-phosphate transport via human SPNS2

No abstract available.

This study solves the structures of human spinster homolog 2 protein (SPNS2) in multiple states, including apo, sphingosine 1-phosphate (S1P)-bound, FTY720-P-bound, and 16d-bound states, providing a structural basis for understanding the S1P transport mechanism.

Through an S1P transport assay, the study reveals that SPNS2 directly transports S1P instead of sphingosine and SPNS2 is not a proton or sodium/potassium-dependent transporter.

These findings provide a framework for understanding the S1P transport mechanism and a rational basis for designing inhibitors targeting SPNS2.

Cell Res. 2024 Feb;34(2):177-180.

DOI: 10.1038/s41422-023-00913-0.

PURSPEC Technologies, founded by mass spectrometry expert Professor Zheng Ouyang, specializes in point-of-care (POC) mass spectrometry and structural lipidomics. We develop portable, high-precision analytical solutions with a team of 100 highly skilled professionals in mass spectrometry and commercialization. We maintain close collaborations with Tsinghua University (China) and Purdue University (USA) to advance cutting-edge research and applications in education, clinical, biomedical, public security, and environmental fields.

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