Sialyl Lewisx-P-selectin cascade mediates tumor–mesothelial adhesion in ascitic fluid shear flow

Shan-Shan Li; Carman K. M. Ip; Matthew Y. H. Tang; Maggie K. S. Tang; Yin Tong; Jiangwen Zhang; Ayon Ahmed Hassan; Abby S. C. Mak; Susan Yung; Tak-Mao Chan; Philip P. Ip; Cheuk Lun Lee; Philip C. N. Chiu; Leo Tsz On Lee; Hung-Cheng Lai; Jin-Zhang Zeng; Ho Cheung Shum; Alice S. T. Wong

doi:10.1038/s41467-019-10334-6

Sialyl Lewis^x-P-selectin cascade mediates tumor–mesothelial adhesion in ascitic fluid shear flow

Shan-Shan Li
, Carman K. M. Ip
, Matthew Y. H. Tang
, Maggie K. S. Tang
, Yin Tong
, Jiangwen Zhang
, Ayon Ahmed Hassan
, Abby S. C. Mak
, Susan Yung
, Tak-Mao Chan
, Philip P. Ip
, Cheuk Lun Lee
, Philip C. N. Chiu
, Leo Tsz On Lee
, Hung-Cheng Lai
, Jin-Zhang Zeng
, Ho Cheung Shum^*
, Alice S. T. Wong^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

39 Citations (Scopus)

9 Downloads (CityUHK Scholars)

Abstract

Organ-specific colonization suggests that specific cell–cell recognition is essential. Yet, very little is known about this particular interaction. Moreover, tumor cell lodgement requires binding under shear stress, but not static, conditions. Here, we successfully isolate the metastatic populations of cancer stem/tumor-initiating cells (M-CSCs). We show that the M-CSCs tether more and roll slower than the non-metastatic (NM)-CSCs, thus resulting in the preferential binding to the peritoneal mesothelium under ascitic fluid shear stress. Mechanistically, this interaction is mediated by P-selectin expressed by the peritoneal mesothelium. Insulin-like growth factor receptor-1 carrying an uncommon non-sulfated sialyl-Lewis^x (sLe^x) epitope serves as a distinct P-selectin binding determinant. Several glycosyltransferases, particularly α1,3-fucosyltransferase with rate-limiting activity for sLe^x synthesis, are highly expressed in M-CSCs. Tumor xenografts and clinical samples corroborate the relevance of these findings. These data advance our understanding on the molecular regulation of peritoneal metastasis and support the therapeutic potential of targeting the sLe^x-P-selectin cascade. © 2019, The Author(s).

Original language	English
Article number	2406
Journal	Nature Communications
Volume	10
Online published	3 Jun 2019
DOIs	https://doi.org/10.1038/s41467-019-10334-6
Publication status	Published - 2019
Externally published	Yes

Bibliographical note

Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Funding

This study was supported by the Hong Kong Research Grant Council grants 17122014. A.S.T.W. is a recipient of the Croucher Senior Fellowship.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Publisher's Copyright Statement

This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

RGC Funding Information

RGC-funded

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10.1038/s41467-019-10334-6

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Cite this

Li, S.-S., Ip, C. K. M., Tang, M. Y. H., Tang, M. K. S., Tong, Y., Zhang, J., Hassan, A. A., Mak, A. S. C., Yung, S., Chan, T.-M., Ip, P. P., Lee, C. L., Chiu, P. C. N., Lee, L. T. O., Lai, H.-C., Zeng, J.-Z., Shum, H. C., & Wong, A. S. T. (2019). Sialyl Lewis^x-P-selectin cascade mediates tumor–mesothelial adhesion in ascitic fluid shear flow. Nature Communications, 10, Article 2406. https://doi.org/10.1038/s41467-019-10334-6

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title = "Sialyl Lewisx-P-selectin cascade mediates tumor–mesothelial adhesion in ascitic fluid shear flow",

abstract = "Organ-specific colonization suggests that specific cell–cell recognition is essential. Yet, very little is known about this particular interaction. Moreover, tumor cell lodgement requires binding under shear stress, but not static, conditions. Here, we successfully isolate the metastatic populations of cancer stem/tumor-initiating cells (M-CSCs). We show that the M-CSCs tether more and roll slower than the non-metastatic (NM)-CSCs, thus resulting in the preferential binding to the peritoneal mesothelium under ascitic fluid shear stress. Mechanistically, this interaction is mediated by P-selectin expressed by the peritoneal mesothelium. Insulin-like growth factor receptor-1 carrying an uncommon non-sulfated sialyl-Lewisx (sLex) epitope serves as a distinct P-selectin binding determinant. Several glycosyltransferases, particularly α1,3-fucosyltransferase with rate-limiting activity for sLex synthesis, are highly expressed in M-CSCs. Tumor xenografts and clinical samples corroborate the relevance of these findings. These data advance our understanding on the molecular regulation of peritoneal metastasis and support the therapeutic potential of targeting the sLex-P-selectin cascade. {\textcopyright} 2019, The Author(s).",

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AU - Li, Shan-Shan

AU - Ip, Carman K. M.

AU - Tang, Matthew Y. H.

AU - Tang, Maggie K. S.

AU - Tong, Yin

AU - Zhang, Jiangwen

AU - Hassan, Ayon Ahmed

AU - Mak, Abby S. C.

AU - Yung, Susan

AU - Chan, Tak-Mao

AU - Ip, Philip P.

AU - Lee, Cheuk Lun

AU - Chiu, Philip C. N.

AU - Lee, Leo Tsz On

AU - Lai, Hung-Cheng

AU - Zeng, Jin-Zhang

AU - Shum, Ho Cheung

AU - Wong, Alice S. T.

N1 - Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

PY - 2019

Y1 - 2019

N2 - Organ-specific colonization suggests that specific cell–cell recognition is essential. Yet, very little is known about this particular interaction. Moreover, tumor cell lodgement requires binding under shear stress, but not static, conditions. Here, we successfully isolate the metastatic populations of cancer stem/tumor-initiating cells (M-CSCs). We show that the M-CSCs tether more and roll slower than the non-metastatic (NM)-CSCs, thus resulting in the preferential binding to the peritoneal mesothelium under ascitic fluid shear stress. Mechanistically, this interaction is mediated by P-selectin expressed by the peritoneal mesothelium. Insulin-like growth factor receptor-1 carrying an uncommon non-sulfated sialyl-Lewisx (sLex) epitope serves as a distinct P-selectin binding determinant. Several glycosyltransferases, particularly α1,3-fucosyltransferase with rate-limiting activity for sLex synthesis, are highly expressed in M-CSCs. Tumor xenografts and clinical samples corroborate the relevance of these findings. These data advance our understanding on the molecular regulation of peritoneal metastasis and support the therapeutic potential of targeting the sLex-P-selectin cascade. © 2019, The Author(s).

AB - Organ-specific colonization suggests that specific cell–cell recognition is essential. Yet, very little is known about this particular interaction. Moreover, tumor cell lodgement requires binding under shear stress, but not static, conditions. Here, we successfully isolate the metastatic populations of cancer stem/tumor-initiating cells (M-CSCs). We show that the M-CSCs tether more and roll slower than the non-metastatic (NM)-CSCs, thus resulting in the preferential binding to the peritoneal mesothelium under ascitic fluid shear stress. Mechanistically, this interaction is mediated by P-selectin expressed by the peritoneal mesothelium. Insulin-like growth factor receptor-1 carrying an uncommon non-sulfated sialyl-Lewisx (sLex) epitope serves as a distinct P-selectin binding determinant. Several glycosyltransferases, particularly α1,3-fucosyltransferase with rate-limiting activity for sLex synthesis, are highly expressed in M-CSCs. Tumor xenografts and clinical samples corroborate the relevance of these findings. These data advance our understanding on the molecular regulation of peritoneal metastasis and support the therapeutic potential of targeting the sLex-P-selectin cascade. © 2019, The Author(s).

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