Abstract
Gasdermin B (GSDMB) overexpression/amplification occurs in about 60% of HER2 breast cancers, where it promotes cell migration, resistance to anti-HER2 therapies, and poor clinical outcome. Thus, we tackle GSDMB cytoplasmic overexpression as a new therapeutic target in HER2 breast cancers. We have developed a new targeted nanomedicine based on hyaluronic acid-biocompatible nanocapsules, which allow the intracellular delivery of a specific anti-GSDMB antibody into HER2 breast cancer cells both in vitro and in vivo. Using different models of HER2 breast cancer cells, we show that anti-GSDMB antibody loaded to nanocapsules has significant and specific effects on GSDMB-overexpressing cancer cells' behavior in ways such as (i) lowering the in vitro cell migration induced by GSDMB; (ii) enhancing the sensitivity to trastuzumab; (iii) reducing tumor growth by increasing apoptotic rate in orthotopic breast cancer xenografts; and (iv) diminishing lung metastasis in MDA-MB-231-HER2 cells in vivo. Moreover, at a mechanistic level, we have shown that AbGB increases GSDMB binding to sulfatides and consequently decreases migratory cell behavior and may upregulate the potential intrinsic procell death activity of GSDMB. Our findings portray the first evidence of the effectiveness and specificity of an antibody-based nanomedicine that targets an intracellular oncoprotein. We have proved that intracellular-delivered anti-GSDMB reduces diverse protumor GSDMB functions (migration, metastasis, and resistance to therapy) in an efficient and specific way, thus providing a new targeted therapeutic strategy in aggressive HER2 cancers with poor prognosis.
Highlights
Around 20% of breast tumors show Erbb2/HER2 oncogene overexpression/amplification
We have shown that Gasdermin B (GSDMB) overexpression/amplification is a new marker of metastasis and poor prognosis, and is linked to reduced therapeutic response of HER2 breast carcinomas independently of their estrogen receptor status [8]
In order to assess if AbGB-NCs could have a functional effect on GSDMB-positive cancer cells behavior, we first focused on cell migration, because we previously reported that GSDMB overexpression enhances the motility and invasiveness of MCF7 cells, whereas its shRNA silencing diminishes the migratory capacity of HCC1954 cells [9]
Summary
Around 20% of breast tumors show Erbb2/HER2 oncogene overexpression/amplification. This feature is usually associated with aggressiveness and poor prognosis [1, 2]. HER2 tumors are treated with targeted anti-HER2 therapies It has been shown that coamplification of other genes in the proximity of ERBB2/ NEU locus (17q12-21) can modulate HER2 cancer biology [7]. Identification of these coamplified genes, which affects cancer development and drug response, could be a suitable
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