Jaydutt V. Vadgama scite author profile

To understand the mechanisms leading to trastuzumab resistance in HER2-overexpressing breast tumors we created trastuzumab insensitive cell lines (SKBR3/100-8 and BT474/100-2). The cell lines maintain HER2 receptor overexpression, and show increase in EGFR. Upon trastuzumab treatment, SKBR3/100-8 and BT474/100-2 cell lines displayed increased growth rate and invasiveness. The trastuzumab resistance in SKBR3/100-8 and BT474/100-2 was accompanied with activation of the Wnt/β-catenin signaling pathway. Further investigation found that Wnt3 overexpression played a key role toward the development of trastuzumab resistance. The expression of Wnt3 in trastuzumab resistant cells increased nuclear expression of β-catenin and transactivated expression of EGFR. The increased Wnt3 in the trastuzumab resistant cells also promoted a parental EMT-like transition (epithelial to mesenchymal transition), increased N-cadherin, Twist, SLUG and decreased E-cadherin. Knockdown of Wnt3 by siRNA restored cytoplasmic expression of β-catenin, and decreased EGFR expression in trastuzumab resistant cells. Furthermore the EMT markers were decreased, E-cadherin was increased and the cell invasiveness was inhibited in response to the Wnt3 down-regulation. Conversely, SKBR3 cells which had been stably transfected with full-length Wnt3 exhibited EMT-like transition. The Wnt3 transfectants, SKBR3/Wnt3-7 and SKBR3/Wnt3-9, showed a significant decrease in E-cadherin and increase in N-cadherin, Twist and SLUG. The cells were less sensitive to trastuzumab compared to parental SKBR3 and vector transfected cells. In summary, our data suggests that Wnt3 overexpression activates Wnt/β-catenin signaling pathway that leads to transactivation of EGFR and promotes EMT-like transition. This could be an important mechanism leading to trastuzumab resistance in HER2 overexpressing breast cancer cells.

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The Clinical Utilization of Circulating Cell Free DNA (CCFDNA) in Blood of Cancer Patients

Elshimali

Khaddour

Sarkissyan

et al. 2013

IJMS

211

158

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CCL2/CCR2 signaling in cancer pathogenesis

2020

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Chemokines are a family of small cytokines, which guide a variety of immune/inflammatory cells to the site of tumor in tumorigenesis. A dysregulated expression of chemokines is implicated in different types of cancer including prostate cancer. The progression and metastasis of prostate cancer involve a complex network of chemokines that regulate the recruitment and trafficking of immune cells. The chemokine CCL2 and its main receptor CCR2 have been receiving particular interest on their roles in cancer pathogenesis. The up-regulation of CCL2/CCR2 and varied immune conditions in prostate cancer, are associated with cancer advancement, metastasis, and relapse. Here we reviewed recent findings, which link CCL2/CCR2 to the inflammation and cancer pathogenesis, and discussed the therapeutic potential of CCL2/CCR2 axis in cancer treatment based on results from our group and other investigators, with a major focus on prostate cancer.

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