Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells

Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells

Abstract Background In previous research, we found that lamprey immune protein (LIP) possessed cytocidal activity against tumor cells, but the mechanism of the selective recognition and killing of tumor cells by LIP was not identified. Methods Superresolution microscopy, crystallographic structural...

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Main Authors: Yue Pang, Meng Gou, Kai Yang, Jiali Lu, Yinglun Han, Hongming Teng, Changzhi Li, Haina Wang, Caigang Liu, Kejia Zhang, Yongliang Yang, Qingwei Li
Format: Article
Language:English
Published: BMC 2019-05-01
Series:Cell Communication and Signaling
Subjects:
Lamprey
LIP
Cytotoxic activity
Selective recognition
GPI-APs
Online Access:http://link.springer.com/article/10.1186/s12964-019-0358-y
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spelling doaj-8f60b7e9eb944a89996f7518c5f5dab52020-11-25T03:02:14ZengBMCCell Communication and Signaling1478-811X2019-05-0117112010.1186/s12964-019-0358-yCrystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cellsYue Pang0Meng Gou1Kai Yang2Jiali Lu3Yinglun Han4Hongming Teng5Changzhi Li6Haina Wang7Caigang Liu8Kejia Zhang9Yongliang Yang10Qingwei Li11College of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCollege of Life Science, Liaoning Normal UniversityCenter for Molecular Medicine, School of Life Science and Biotechnology, Dalian University of TechnologyDepartment of Breast Surgery, Shengjing Hospital of China Medical UniversityCollege of Life Science, Liaoning Normal UniversityCenter for Molecular Medicine, School of Life Science and Biotechnology, Dalian University of TechnologyCollege of Life Science, Liaoning Normal UniversityAbstract Background In previous research, we found that lamprey immune protein (LIP) possessed cytocidal activity against tumor cells, but the mechanism of the selective recognition and killing of tumor cells by LIP was not identified. Methods Superresolution microscopy, crystallographic structural analysis, glycan chip assay, SPR experiments, FACS assays, computational studies and mass spectrometric analysis firmly establish the mode of action of LIP, which involves dual selective recognition and efficient binding. Results We determined the overall crystallographic structure of LIP at a resolution of 2.25 Å. LIP exhibits an elongated structure with dimensions of 105 Å × 30 Å × 30 Å containing an N-terminal lectin module and a C-terminal aerolysin module. Moreover, the Phe209-Gly232 region is predicted to insert into the lipid bilayer to form a transmembrane β-barrel, in which the hydrophobic residues face the lipid bilayer, and the polar residues constitute the hydrophilic lumen of the pore. We found that LIP is able to kill various human cancer cells with minimal effects on normal cells. Notably, by coupling biochemical and computational studies, we propose a hypothetical mechanism that involves dual selective recognition and efficient binding dependent on both N-linked glycans on GPI-anchored proteins (GPI-APs) and sphingomyelin (SM) in lipid rafts. Furthermore, specific binding of the lectin module with biantennary bisialylated nonfucosylated N-glycan or sialyl Lewis X-containing glycan structures on GPI-APs triggers substantial conformational changes in the aerolysin module, which interacts with SM, ultimately resulting in the formation of a membrane-bound oligomer in lipid rafts. Conclusions LIP holds great potential for the application of a marine protein towards targeted cancer therapy and early diagnosis in humans.http://link.springer.com/article/10.1186/s12964-019-0358-yLampreyLIPCytotoxic activitySelective recognitionGPI-APs
collection DOAJ
language English
format Article
sources DOAJ
author Yue Pang
Meng Gou
Kai Yang
Jiali Lu
Yinglun Han
Hongming Teng
Changzhi Li
Haina Wang
Caigang Liu
Kejia Zhang
Yongliang Yang
Qingwei Li
spellingShingle Yue Pang
Meng Gou
Kai Yang
Jiali Lu
Yinglun Han
Hongming Teng
Changzhi Li
Haina Wang
Caigang Liu
Kejia Zhang
Yongliang Yang
Qingwei Li
Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
Cell Communication and Signaling
Lamprey
LIP
Cytotoxic activity
Selective recognition
GPI-APs
author_facet Yue Pang
Meng Gou
Kai Yang
Jiali Lu
Yinglun Han
Hongming Teng
Changzhi Li
Haina Wang
Caigang Liu
Kejia Zhang
Yongliang Yang
Qingwei Li
author_sort Yue Pang
title Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
title_short Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
title_full Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
title_fullStr Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
title_full_unstemmed Crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
title_sort crystal structure of a cytocidal protein from lamprey and its mechanism of action in the selective killing of cancer cells
publisher BMC
series Cell Communication and Signaling
issn 1478-811X
publishDate 2019-05-01
description Abstract Background In previous research, we found that lamprey immune protein (LIP) possessed cytocidal activity against tumor cells, but the mechanism of the selective recognition and killing of tumor cells by LIP was not identified. Methods Superresolution microscopy, crystallographic structural analysis, glycan chip assay, SPR experiments, FACS assays, computational studies and mass spectrometric analysis firmly establish the mode of action of LIP, which involves dual selective recognition and efficient binding. Results We determined the overall crystallographic structure of LIP at a resolution of 2.25 Å. LIP exhibits an elongated structure with dimensions of 105 Å × 30 Å × 30 Å containing an N-terminal lectin module and a C-terminal aerolysin module. Moreover, the Phe209-Gly232 region is predicted to insert into the lipid bilayer to form a transmembrane β-barrel, in which the hydrophobic residues face the lipid bilayer, and the polar residues constitute the hydrophilic lumen of the pore. We found that LIP is able to kill various human cancer cells with minimal effects on normal cells. Notably, by coupling biochemical and computational studies, we propose a hypothetical mechanism that involves dual selective recognition and efficient binding dependent on both N-linked glycans on GPI-anchored proteins (GPI-APs) and sphingomyelin (SM) in lipid rafts. Furthermore, specific binding of the lectin module with biantennary bisialylated nonfucosylated N-glycan or sialyl Lewis X-containing glycan structures on GPI-APs triggers substantial conformational changes in the aerolysin module, which interacts with SM, ultimately resulting in the formation of a membrane-bound oligomer in lipid rafts. Conclusions LIP holds great potential for the application of a marine protein towards targeted cancer therapy and early diagnosis in humans.
topic Lamprey
LIP
Cytotoxic activity
Selective recognition
GPI-APs
url http://link.springer.com/article/10.1186/s12964-019-0358-y
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