Cooperation between Cdk4 and p27kip1 in Tumor Development: A Preclinical Model to Evaluate Cell Cycle Inhibitors with Therapeutic Activity (original) (raw)

Related papers

A Preclinical Model to Evaluate Cell Cycle Inhibitors with Therapeutic Activity

2005

Deregulation of the G1-S transition of the cell cycle is a common feature of human cancer. Tumor-associated alter- ations in this process frequently affect cyclin-dependent kinases (Cdk), their regulators (cyclins, INK4 inhibitors, or p27Kip1), and their substrates (retinoblastoma protein). Although these proteins are generally thought to act in a linear pathway, mutations in different components frequently cooperate in tumor development.

Cell Cycle as a Target of Antineoplastic Drugs

Current Pharmaceutical Design, 2010

The cell cycle consists of a number of complex biochemical pathways that ensure that the start of a particular event depends on the successful and right end of previous steps in the pathway. An important role is played by cyclin/cyclin-dependent kinase (cdk) complexes which are critical regulators of cell cycle progression and RNA transcription. To ensure proper progression through each phase, cells have developed a series of orchestrated checkpoints that govern the different cellular kinases required for distinct cell cycle events. In particular, several cell cycle protein kinases, including members of the Aurora family and the Polo-like kinases, play critical roles in mitotic entry and chromosome segregation that ensure the correct formation of daughter cells. Tumour cell proliferation is frequently associated to both genetic and epigenetic mechanisms commonly affecting the expression of cell cycle regulatory proteins or causing an incompetent checkpoint control, resulting in aberrant responses to cellular damage. These alterations result not only in proliferative advantages but also in an increased susceptibility to the accumulation of additional genetic alterations that contribute to tumour progression and acquisition of more aggressive phenotypes. In the last years, the identification of anticancer drugs directed against critical cell cycle regulators has received particular attention. Specifically, several preclinical and clinical trials are addressing cdks or cell cycle protein kinase inhibitors. Starting from a description of cell cycle, this review summarizes the most recent studies on drugs targeting cell cycle regulators that are being used in cancer therapy.

Cell cycle control and cancer chemotherapy

Journal of Cellular Biochemistry, 1994

As detailed information accumulates about how cell cycle events are regulated, we can expect new opportunities for application to cancer therapy. The altered expression of oncogenes and tumor suppressor genes that commonly occurs in human cancers may impair the ability of the cells to respond to metabolic perturbations or stress. Impaired cell cycle regulation would make cells vulnerable to pharmacologic intervention by drug regimens tailored to the defects existing in particular tumors. Recent findings that may become applicable to therapy are reviewed, and the possible form of new therapeutic stratagems is considered.

Cyclin-Dependent Kinase 4 and 6 Inhibitors in Cell Cycle Dysregulation for Breast Cancer Treatment

Molecules, 2021

In cell development, the cell cycle is crucial, and the cycle progression’s main controllers are endogenous CDK inhibitors, cyclin-dependent kinases (CDKs), and cyclins. In response to the mitogenic signal, cyclin D is produced and retinoblastoma protein (Rb) is phosphorylated due to activated CDK4/CDK6. This causes various proteins required in the cell cycle progression to be generated. In addition, complexes of CDK1-cyclin A/B, CDK2-cyclin E/A, and CDK4/CDK6-cyclin D are required in each phase of this progression. Cell cycle dysregulation has the ability to lead to cancer. Based on its role in the cell cycle, CDK has become a natural target of anticancer therapy. Therefore, understanding the CDK structures and the complex formed with the drug, helps to foster the development of CDK inhibitors. This development starts from non-selective CDK inhibitors to selective CDK4/CDK6 inhibitors, and these have been applied in clinical cancer treatment. However, these inhibitors currently req...

Cancer - dysregulation of the cell cycle and transduction of cascade signals

Romanian Journal of Rhinology

According to scientific data, cancer is a very ancient disease, and along with the perfection of humanity it becomes more progressive. The development of technologies that detect molecular changes in the pathogenesis and subsequent development of carcinogenesis has led to the beginning of a new era in oncology. The cell cycle is tightly controlled by a group of protein kinases, including cyclin and cyclin-dependent kinases. These events occur in a strictly regulated time sequence supported by consistent restriction points. p53, p21, p16, retinoblastoma (and other proteins), cyclins and cyclin-related kinases repair DNA before the cell cycle enters the phase of synthesis and mitosis. Loss of regulatory activity of p53 and pRB, stable activation of E2F stimulates uncontrolled cell proliferation, leading to neoplastic cell growth. The Ras/Raf/MEK/ERK signalling pathway is also a complex network of sequentially activated proteins that play a major role in the onset and development of ca...

Targeting cell cycle and hormone receptor pathways in cancer

Oncogene, 2013

The cyclin/cyclin-dependent kinase (CDK)/retinoblastoma (RB)-axis is a critical modulator of cell cycle entry and is aberrant in many human cancers. New nodes of therapeutic intervention are needed that can delay or combat the onset of malignancies. The antitumor properties and mechanistic functions of PD-0332991 (PD; a potent and selective CDK4/6 inhibitor) were investigated using human prostate cancer (PCa) models and primary tumors. PD significantly impaired the capacity of PCa cells to proliferate by promoting a robust G 1 -arrest. Accordingly, key regulators of the G 1 -S cell cycle transition were modulated including G1 cyclins D, E and A. Subsequent investigation demonstrated the ability of PD to function in the presence of existing hormone-based regimens and to cooperate with ionizing radiation to further suppress cellular growth. Importantly, it was determined that PD is a critical mediator of PD action. The anti-proliferative impact of CDK4/6 inhibition was revealed through reduced proliferation and delayed growth using PCa cell xenografts. Finally, first-in-field effects of PD on proliferation were observed in primary human prostatectomy tumor tissue explants. This study shows that selective CDK4/6 inhibition, using PD either as a single-agent or in combination, hinders key proliferative pathways necessary for disease progression and that RB status is a critical prognostic determinant for therapeutic efficacy. Combined, these pre-clinical findings identify selective targeting of CDK4/6 as a bona fide therapeutic target in both early stage and advanced PCa and underscore the benefit of personalized medicine to enhance treatment response.

The Influence of Cell Cycle Regulation on Chemotherapy

International Journal of Molecular Sciences, 2021

Cell cycle regulation is orchestrated by a complex network of interactions between proteins, enzymes, cytokines, and cell cycle signaling pathways, and is vital for cell proliferation, growth, and repair. The occurrence, development, and metastasis of tumors are closely related to the cell cycle. Cell cycle regulation can be synergistic with chemotherapy in two aspects: inhibition or promotion. The sensitivity of tumor cells to chemotherapeutic drugs can be improved with the cooperation of cell cycle regulation strategies. This review presented the mechanism of the commonly used chemotherapeutic drugs and the effect of the cell cycle on tumorigenesis and development, and the interaction between chemotherapy and cell cycle regulation in cancer treatment was briefly introduced. The current collaborative strategies of chemotherapy and cell cycle regulation are discussed in detail. Finally, we outline the challenges and perspectives about the improvement of combination strategies for ca...