期刊
MATRIX BIOLOGY
卷 118, 期 -, 页码 92-109出版社
ELSEVIER
DOI: 10.1016/j.matbio.2023.03.005.
关键词
Proteoglycans; Hyaluronan synthase; Cancer growth; Autophagy; ATG5
The accumulation of pro-angiogenic and pro-tumorigenic hyaluronan in the tumor stroma contributes to tumorigenesis and metastatic potential. The primary enzyme promoting hyaluronan build-up in breast cancer is HAS2. This study found that endorepellin, a fragment of perlecan, targets endothelial HAS2 and hyaluronan through autophagy, leading to the suppression of breast cancer growth and angiogenesis.
The tumor stroma of most solid malignancies is characterized by a pathological accumulation of pro-angiogenic and pro-tumorigenic hyaluronan driving tumorigenesis and metastatic potential. Of all three hyaluronan synthase isoforms, HAS2 is the primary enzyme that promotes the build-up of tumorigenic HA in breast cancer. Previously, we discovered that endorepellin, the angiostatic C-terminal fragment of perlecan, evokes a catabolic mechanism targeting endothelial HAS2 and hyaluronan via autophagic induction. To explore the translational implications of endorepellin in breast cancer, we created a double transgenic, inducible Tie2CreERT2;endorepellin(ER)Ki mouse line that expresses recombinant endorepellin specifically from the endothelium. We investigated the therapeutic effects of recombinant endorepellin overexpression in an orthotopic, syngeneic breast cancer allograft mouse model. First, adenoviral delivery of Cre evoking intratumor expression of endorepellin in ERKi mice suppressed breast cancer growth, peritumor hyaluronan and angiogenesis. Moreover, tamoxifen-induced expression of recombinant endorepellin specifically from the endothelium in Tie2CreERT2;ERKi mice markedly suppressed breast cancer allograft growth, hyaluronan deposition in the tumor proper and perivascular tissues, and tumor angiogenesis. These results provide insight into the tumor suppressing activity of endorepellin at the molecular level and implicate endorepellin as a promising cancer protein therapy that targets hyaluronan in the tumor microenvironment.
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