Pranay Dey1,2, Mansi Joshi1,2, Aaiyas Mujawar1,2, Renu Malhotra1, Abhijit De3,4. 1. Molecular Functional Imaging Laboratory, KS232c, Advanced Centre for Treatment, Research and Education in Cancer (ACTREC), Tata Memorial Centre, Sector 22, Kharghar, Navi Mumbai, 410210, India. 2. Faculty of Life Sciences, Homi Bhabha National Institute, Mumbai, India. 3. Molecular Functional Imaging Laboratory, KS232c, Advanced Centre for Treatment, Research and Education in Cancer (ACTREC), Tata Memorial Centre, Sector 22, Kharghar, Navi Mumbai, 410210, India. ade@actrec.gov.in. 4. Faculty of Life Sciences, Homi Bhabha National Institute, Mumbai, India. ade@actrec.gov.in.
Abstract
PURPOSE: In this work for the first time, we showed specific and direct knockdown of important oncogenic proteins of interest and their phospho-PTM targets in tripartite motif containing-21 (TRIM21) overexpressing breast cancer (BC) cells. We revealed the functional and therapeutic consequences of this protein knockdown approach called 'TRIM-ing'. METHODS: To target HER2, HER3, STAT3 or their activated forms, electroporation and puls-in transfection were standardized for mAb delivery in AU565 and MCF7 BC cell lines. Cancer cells were treated with HER2-targeted medicines (Trastuzumab and Neratinib) or STAT3 targeted inhibitors (Stattic and Niclosamide) with or without respective target TRIM-ing. Real-time PCR, immunoblotting, immunofluorescence, cytotoxicity, short- and long-term cell survival assessments were done following standard methodologies. 3-D structure modelling was used to verify the binding of mAb onto the STAT3 target. RESULTS: TRIM-ing of HER2 or HER3 receptors or their activated phospho-forms in BC cells showed rapid degradation of respective protein forms, shattering down the downstream signaling (p-ERK, p-AKT) that lasts for up to 7-8 days. This significantly inhibited BC survival (p < 0.001), showing a synergistic therapeutic effect with HER2 medicine trastuzumab or neratinib. Additionally, specific TRIM-ing ability of canonical pY705 or non-canonical pS727 PTMs of STAT3 protein was demonstrated in MCF7 cells, causing significant cytotoxicity (p < 0.05). TRIM-ing of STAT3 PTM, when combined with the same PTM-specific inhibitors, a synergistic treatment effect was observed. CONCLUSION: The work demonstrated that TRIM-ing could directly reduce various oncogenic targets or their specific activated form inside the cancer cells without compensatory pathway activation, a conundrum limiting the therapeutic benefit of current personalized medicines.
PURPOSE: In this work for the first time, we showed specific and direct knockdown of important oncogenic proteins of interest and their phospho-PTM targets in tripartite motif containing-21 (TRIM21) overexpressing breast cancer (BC) cells. We revealed the functional and therapeutic consequences of this protein knockdown approach called 'TRIM-ing'. METHODS: To target HER2, HER3, STAT3 or their activated forms, electroporation and puls-in transfection were standardized for mAb delivery in AU565 and MCF7 BC cell lines. Cancer cells were treated with HER2-targeted medicines (Trastuzumab and Neratinib) or STAT3 targeted inhibitors (Stattic and Niclosamide) with or without respective target TRIM-ing. Real-time PCR, immunoblotting, immunofluorescence, cytotoxicity, short- and long-term cell survival assessments were done following standard methodologies. 3-D structure modelling was used to verify the binding of mAb onto the STAT3 target. RESULTS: TRIM-ing of HER2 or HER3 receptors or their activated phospho-forms in BC cells showed rapid degradation of respective protein forms, shattering down the downstream signaling (p-ERK, p-AKT) that lasts for up to 7-8 days. This significantly inhibited BC survival (p < 0.001), showing a synergistic therapeutic effect with HER2 medicine trastuzumab or neratinib. Additionally, specific TRIM-ing ability of canonical pY705 or non-canonical pS727 PTMs of STAT3 protein was demonstrated in MCF7 cells, causing significant cytotoxicity (p < 0.05). TRIM-ing of STAT3 PTM, when combined with the same PTM-specific inhibitors, a synergistic treatment effect was observed. CONCLUSION: The work demonstrated that TRIM-ing could directly reduce various oncogenic targets or their specific activated form inside the cancer cells without compensatory pathway activation, a conundrum limiting the therapeutic benefit of current personalized medicines.
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