CD44细胞
透明质酸
细胞生物学
肿瘤微环境
受体
伤口愈合
免疫系统
糖胺聚糖
炎症
TLR2型
化学
癌细胞
肿瘤进展
细胞迁移
癌症研究
生物
细胞
癌症
免疫学
先天免疫系统
生物化学
解剖
基因
遗传学
作者
Muhan Liu,Cornelia Tölg,Eva A. Turley
标识
DOI:10.3389/fimmu.2019.00947
摘要
Hyaluronan (HA) is a glycosaminoglycan with a simple structure but diverse and often opposing functions. The biological activities of this polysaccharide depend on its molecular weight and the identity of interacting receptors. HA is initially synthesized as high molecular-weight (HMW) polymers, which maintain homeostasis and restrain cell proliferation and migration in normal tissues. These HMW-HA functions are mediated by constitutively expressed receptors including CD44, LYVE-1 and STABILIN2. During normal processes such as tissue remodeling and wound healing, HMW-HA is fragmented into low molecular weight polymers (LMW-HA) by hyaluronidases and free radicals, which promote inflammation, immune cell recruitment and the epithelial cell migration. These functions are mediated by RHAMM and TLR2,4, which coordinate signaling with CD44 and other HA receptors. Tumor cells hijack the normally tightly regulated HA production/fragmentation associated with wound repair/remodeling, and these HA functions participate in driving and maintaining malignant progression. However, elevated HMW-HA production in the absence of fragmentation is linked to cancer resistance. The controlled production of HA polymer sizes and their functions are predicted to be key to dissecting the role of microenvironment in permitting or restraining the oncogenic potential of tissues. This review focuses on the dual nature of HA in cancer initiation versus resistance, and the therapeutic potential of HA for chemo-prevention and as a target for cancer management.
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