Browsing by Author "Gong, Chang"
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Item Open Access Distinct Receptor Tyrosine Kinase Subsets Mediate Anti-HER2 Drug Resistance in Breast Cancer.(J Biol Chem, 2017-01-13) Alexander, Peter B; Chen, Rui; Gong, Chang; Yuan, Lifeng; Jasper, Jeff S; Ding, Yi; Markowitz, Geoffrey J; Yang, Pengyuan; Xu, Xin; McDonnell, Donald P; Song, Erwei; Wang, Xiao-FanTargeted inhibitors of the human epidermal growth factor receptor 2 (HER2), such as trastuzumab and lapatinib, are among the first examples of molecularly targeted cancer therapy and have proven largely effective for the treatment of HER2-positive breast cancers. However, approximately half of those patients either do not respond to these therapies or develop secondary resistance. Although a few signaling pathways have been implicated, a comprehensive understanding of mechanisms underlying HER2 inhibitor drug resistance is still lacking. To address this critical question, we undertook a concerted approach using patient expression data sets, HER2-positive cell lines, and tumor samples biopsied both before and after trastuzumab treatment. Together, these methods revealed that high expression and activation of a specific subset of receptor tyrosine kinases (RTKs) was strongly associated with poor clinical prognosis and the development of resistance. Mechanistically, these RTKs are capable of maintaining downstream signal transduction to promote tumor growth via the suppression of cellular senescence. Consequently, these findings provide the rationale for the design of therapeutic strategies for overcoming drug resistance in breast cancer via combinational inhibition of the limited number of targets from this specific subset of RTKs.Item Open Access Synthetic lethality between HER2 and transaldolase in intrinsically resistant HER2-positive breast cancers.(Nature communications, 2018-10) Ding, Yi; Gong, Chang; Huang, De; Chen, Rui; Sui, Pinpin; Lin, Kevin H; Liang, Gehao; Yuan, Lifeng; Xiang, Handan; Chen, Junying; Yin, Tao; Alexander, Peter B; Wang, Qian-Fei; Song, Er-Wei; Li, Qi-Jing; Wood, Kris C; Wang, Xiao-FanIntrinsic resistance to anti-HER2 therapy in breast cancer remains an obstacle in the clinic, limiting its efficacy. However, the biological basis for intrinsic resistance is poorly understood. Here we performed a CRISPR/Cas9-mediated loss-of-function genetic profiling and identified TALDO1, which encodes the rate-limiting transaldolase (TA) enzyme in the non-oxidative pentose phosphate pathway, as essential for cellular survival following pharmacological HER2 blockade. Suppression of TA increases cell susceptibility to HER2 inhibition in two intrinsically resistant breast cancer cell lines with HER2 amplification. Mechanistically, TA depletion combined with HER2 inhibition significantly reduces cellular NADPH levels, resulting in excessive ROS production and deficient lipid and nucleotide synthesis. Importantly, higher TA expression correlates with poor response to HER2 inhibition in a breast cancer patient cohort. Together, these results pinpoint TA as a novel metabolic enzyme possessing synthetic lethality with HER2 inhibition that can potentially be exploited as a biomarker or target for combination therapy.