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Weaponizing human EGF-containing fibulin-like extracellular matrix protein 1 (EFEMP1) for 21st century cancer therapeutics.


ABSTRACT: De-regulated EFEMP1 gene expression in solid tumors has been widely reported with conflicting roles. We dissected EFEMP1 to identify domains responsible for its cell context-dependent dual functions, with the goal being to construct an EFEMP1-derived tumor-suppressor protein (ETSP) that lacked tumor-promoting function. Exon/intron boundaries of EFEMP1 were used as boundaries of functional modules in constructing EFEMP1 variants, with removal of various module(s), and/or mutating an amino acid residue to convert a weak integrin binding-site into a strong one. A series of in vitro assays on cancerous features, and subcutaneous and intracranial xenograft-formation assays, were carried out for effects from overexpression of wild-type and variant forms of EFEMP1 in two glioma subpopulations characterized as tumor mass-forming cells (TMCs) or stem-like tumor initiating cells (STICs), where EFEMP1 showed cellcontext- dependent dual functions. One of the EFEMP1 variants was identified as the sought-after ETSP, which had a stronger tumor-suppression function in TMCs by targeting EGFR and angiogenesis, and a new tumor-suppression function in STICs by targeting NOTCH signaling and MMP2-mediated cell invasion. Therefore, ETSP may form the basis for further important research to develop a novel cancer therapy to treat many types of cancer by its tumor suppressor effect in the extracellular matrix compartment.

SUBMITTER: Zhou YH 

PROVIDER: S-EPMC5043071 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Weaponizing human EGF-containing fibulin-like extracellular matrix protein 1 (EFEMP1) for 21<sup>st</sup> century cancer therapeutics.

Zhou Yi-Hong YH   Hu Yuanjie Y   Yu Liping L   Ke Chao C   Vo Christopher C   Hsu Hao H   Li Zhenzhi Z   Di Donato Anne T AT   Chaturbedi Abhishek A   Hwang Ji Won JW   Siegel Eric R ER   Linskey Mark E ME  

Oncoscience 20160523 7-8


De-regulated <i>EFEMP1</i> gene expression in solid tumors has been widely reported with conflicting roles. We dissected EFEMP1 to identify domains responsible for its cell context-dependent dual functions, with the goal being to construct an EFEMP1-derived tumor-suppressor protein (ETSP) that lacked tumor-promoting function. Exon/intron boundaries of <i>EFEMP1</i> were used as boundaries of functional modules in constructing EFEMP1 variants, with removal of various module(s), and/or mutating an  ...[more]

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