Anticancer effects of radiation therapy combined with Polo-Like Kinase 4 (PLK4) inhibitor CFI-400945 in triple negative breast cancer

Parsyan, Armen; Cruickshank, Jennifer; Hodgson, Kate; Wakeham, Drew; Pellizzari, Sierra; Bhat, Vasudeva; Cescon, David W.

doi:10.1016/j.breast.2021.03.011

Cited by 17 publications

(22 citation statements)

References 29 publications

(17 reference statements)

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“…17,52,53 As a critical regulator of cancer development, PLK4 has emerged as a therapeutic target for multiple cancers. 42,43,56 PLK4 inhibitors, such as CFI-400945, 15 centrinone, 57,58 Cen-B, 27,59 YLZ-F5, 26 and YLT-11, 25 have shown anticancer effects in multiple cancers. In this study, Cen-B, a potent and highly selective PLK4 inhibitor, 60 In summary, we reported herein that keloids expressed high levels of PLK4, which induced tumor-like malignant biological behaviors in KFs, including enhanced proliferation, migration, and invasion.…”

Section: Discussionmentioning

confidence: 99%

“… 10 The PLK4 enzyme is expressed at low levels in proliferating tissues and has pleiotropic functions in processes related to mitotic progression, including cytokinesis, cell mobility, and DNA damage repair. 11 , 12 Increasing evidence indicates that PLK4 is aberrantly expressed in patient‐derived tumor samples, including colorectal cancer, 13 , 14 breast cancer, 15 , 16 bladder cancer, 17 and melanoma, 18 but is also expressed at low levels in proliferative tissues. 19 , 20 , 21 However, its expression level differs among cancers and proliferative tissues.…”

Section: Introductionmentioning

confidence: 99%

“… 22 , 23 Blockade of PLK4 by selective small‐molecule inhibitors or RNA interference impairs centriole duplication, enhances genomic instability, and ultimately causes mitotic defects and cell death. 24 In addition, inhibition of PLK4 by small‐molecule inhibitors, including CFI‐400945, YLT‐11, and centrinone B (Cen‐B), could suppress tumor growth 25 , 26 or increase sensitivity to radiation 15 , 27 and chemotherapy. 28 , 29 Due to its key role in tumor growth and development, PLK4 is considered one of the most promising therapeutic targets in cancer.…”

Section: Introductionmentioning

confidence: 99%

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Downregulation of PLK4 expression induces apoptosis and G0/G1‐phase cell cycle arrest in keloid fibroblasts

Huang

Liu

et al. 2022

Cell Proliferation

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Objectives: Keloids are benign fibroproliferative tumors that display many cancer-like characteristics, such as progressive uncontrolled growth, lack of spontaneous regression, and extremely high rates of recurrence. Polo-like kinase 4 (PLK4) was recently identified as a master regulator of centriole replication, and its aberrant expression is closely associated with tumorigenesis. This study aimed to investigate the expression and biological role of PLK4 in the pathogenesis of keloids. Materials and Methods:We evaluated the expression of PLK4 in keloids and adjacent normal skin tissue samples. Then, we established PLK4 knockdown and overexpression cell lines in keloid fibroblasts (KFs) and normal skin fibroblasts (NFs), respectively, to investigate the roles of PLK4 in the regulation of proliferation, migration, invasion, apoptosis, and cell cycle in KFs. Centrinone B (Cen-B), a highly selective PLK4 inhibitor, was used to inhibit PLK4 activity in KFs to evaluate the therapeutic effect on KFs.Results: We discovered that PLK4 was overexpressed in keloid dermal samples and KFs compared with adjacent normal skin samples and NFs derived from the same patients. High PLK4 expression was positively associated with the proliferation, migration, and invasion of KFs. Furthermore, knockdown of PLK4 expression or inhibition of PLK4 activity by Cen-B suppressed KF growth, induced KF apoptosis via the caspase-9/3 pathway, and induced cell cycle arrest at the G0/G1 phase in vitro.Conclusions: These findings demonstrate that PLK4 is a critical regulator of KF proliferation, migration, and invasion, and thus, Cen-B is a promising candidate drug for keloid treatment. | INTRODUCTIONKeloids are benign fibroproliferative reticular dermal tumors of unknown etiopathogenesis that can occur following any dermal injury, leading to an exophytic protuberant outgrowth that invades the adjacent normal skin beyond the original wound boundary. [1][2][3] Keloids are uniquely characterized by their aggressiveness, persistence, and progressive perilesional expansile behaviors. Due to their continued growth and lack of spontaneous regression, patients usually experience intense pain and pruritus, especially for keloid contractures located near the joints, which may lead to serious dysfunction and thus affect patients' physiological and psychological health.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Downregulation of PLK4 expression induces apoptosis and G0/G1‐phase cell cycle arrest in keloid fibroblasts

Huang

Liu

et al. 2022

Cell Proliferation

View full text Add to dashboard Cite

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“…PLK4 inhibitors would potentiate aneuploidy and genomic instability and lead to cancer cell death (102). An in vitro experimental study showed that a novel inhibitor of PLK4, CFI-400945, in combination with radiation, exhibited a synergistic anticancer effect in TNBC cell lines and patient-derived organoids and led to a significant increase in survival to tumor endpoint in xenograft models in vivo, compared to control or single-agent treatment (44). However, overactivation of PLK4 is always correlated with centrosome amplification (CA) promoting a high risk of breast cancer (103).…”

Section: Inhibition Of Cell Cycle In Tnbcmentioning

confidence: 99%

Targeted Therapeutic Strategies for Triple-Negative Breast Cancer

Zhan

Yin

et al. 2021

Front. Oncol.

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Triple-negative breast cancer (TNBC) is the most aggressive subtype of breast cancer, which is characterized by the absence of estrogen receptor (ER) and progesterone receptor (PR) expression and the absence of human epidermal growth factor receptor 2 (HER2) expression/amplification. Conventional chemotherapy is the mainstay of systemic treatment for TNBC. However, lack of molecular targeted therapies and poor prognosis of TNBC patients have prompted a great effort to discover effective targets for improving the clinical outcomes. For now, poly (ADP-ribose) polymerase (PARP) inhibitors (PARPi’s) and immune checkpoint inhibitors have been approved for the treatment of TNBC. Moreover, agents that target signal transduction, angiogenesis, epigenetic modifications, and cell cycle are under active preclinical or clinical investigations. In this review, we highlight the current major developments in targeted therapies of TNBC, with some descriptions about their (dis)advantages and future perspectives.

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“…Irradiated nanoparticles enhance the dose deposited locally by producing secondary electrons that add to ROS production and DNA damage within the cell [ 56 ]. Another important strategy has been to repurpose already known small molecule inhibitors and chemotherapeutic drugs to complement irradiation and function as radiosensitizers [ 59 , 60 , 61 , 62 ]. In a recent study, Speers et al analyzed the radiation responses of 21 breast cancer cell lines using a high-throughput novel drug radiosensitivity screen where the androgen receptor was identified as the optimal target for radiosensitization [ 63 ].…”

Section: Current Preclinical Tools To Evaluate Effects Of Radiation Therapymentioning

confidence: 99%

3D Breast Tumor Models for Radiobiology Applications

Ravichandran

Clegg

Adams

et al. 2021

Cancers

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Breast cancer is a leading cause of cancer-associated death in women. The clinical management of breast cancers is normally carried out using a combination of chemotherapy, surgery and radiation therapy. The majority of research investigating breast cancer therapy until now has mainly utilized two-dimensional (2D) in vitro cultures or murine models of disease. However, there has been significant uptake of three-dimensional (3D) in vitro models by cancer researchers over the past decade, highlighting a complimentary model for studies of radiotherapy, especially in conjunction with chemotherapy. In this review, we underline the effects of radiation therapy on normal and malignant breast cells and tissues, and explore the emerging opportunities that pre-clinical 3D models offer in improving our understanding of this treatment modality.

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Anticancer effects of radiation therapy combined with Polo-Like Kinase 4 (PLK4) inhibitor CFI-400945 in triple negative breast cancer

Cited by 17 publications

References 29 publications

Downregulation of PLK4 expression induces apoptosis and G0/G1‐phase cell cycle arrest in keloid fibroblasts

Downregulation of PLK4 expression induces apoptosis and G0/G1‐phase cell cycle arrest in keloid fibroblasts

Targeted Therapeutic Strategies for Triple-Negative Breast Cancer

3D Breast Tumor Models for Radiobiology Applications

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