A cell-intrinsic role for TLR2–MYD88 in intestinal and breast epithelia and oncogenesis

被引:0
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作者
Ferenc A. Scheeren
Angera H. Kuo
Linda J. van Weele
Shang Cai
Iris Glykofridis
Shaheen S. Sikandar
Maider Zabala
Dalong Qian
Jessica S. Lam
Darius Johnston
Jens P. Volkmer
Debashis Sahoo
Matt van de Rijn
Frederick M. Dirbas
George Somlo
Tomer Kalisky
Michael E. Rothenberg
Stephen R. Quake
Michael F. Clarke
机构
[1] Stanford Institute for Stem Cell Biology and Regenerative Medicine,Department of Pathology
[2] Stanford University,Department of Surgery
[3] 265 Campus Drive Stanford,Department of Medical Oncology
[4] California 94305,Department of Bioengineering and Howard Hughes Medical Institute
[5] USA,Department of medicine, Division of Oncology
[6] The Netherlands Cancer Institute,undefined
[7] Stanford University,undefined
[8] Stanford University,undefined
[9] Beckman Research Institute and City of Hope Comprehensive Cancer Center,undefined
[10] Stanford University,undefined
[11] Stanford University,undefined
[12] Present addresses: Department of Pediatrics,undefined
[13] University of California at San Diego,undefined
[14] La Jolla,undefined
[15] California 92093,undefined
[16] USA (D.S.); Faculty of Engineering,undefined
[17] Bar-Ilan University,undefined
[18] Ramat Gan 52900,undefined
[19] Israel (T.K.),undefined
来源
Nature Cell Biology | 2014年 / 16卷
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摘要
It has been postulated that there is a link between inflammation and cancer. Here we describe a role for cell-intrinsic toll-like receptor-2 (TLR2; which is involved in inflammatory response) signalling in normal intestinal and mammary epithelial cells and oncogenesis. The downstream effectors of TLR2 are expressed by normal intestinal and mammary epithelia, including the stem/progenitor cells. Deletion of MYD88 or TLR2 in the intestinal epithelium markedly reduces DSS-induced colitis regeneration and spontaneous tumour development in mice. Limiting dilution transplantations of breast epithelial cells devoid of TLR2 or MYD88 revealed a significant decrease in mammary repopulating unit frequency compared with the control. Inhibition of TLR2, its co-receptor CD14, or its downstream targets MYD88 and IRAK1 inhibits growth of human breast cancers in vitro and in vivo. These results suggest that inhibitors of the TLR2 pathway merit investigation as possible therapeutic and chemoprevention agents.
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页码:1238 / 1248
页数:10
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