Current cancer drug targets
-
Curr Cancer Drug Targets · Jan 2015
ReviewPotential anti-cancer drugs commonly used for other indications.
An increasing resistance of mammalian tumor cells to chemotherapy along with the severe side effects of commonly used cytostatics has raised the urgency in the search for new anti-cancer agents. Several drugs originally approved for indications other than cancer treatment have recently been found to have a cytostatic effect on cancer cells. These drugs could be expediently repurposed as anti-cancer agents, since they have already been tested for toxicity in humans and animals. ⋯ The present review summarizes recent information about the anti-cancer effects of selected drugs commonly used for other medical indications. Our aim is not to collect all the reported results, but to present an overview of various possibilities. Advantages, disadvantages and further perspectives regarding individual drugs are discussed and evaluated.
-
Curr Cancer Drug Targets · Jan 2015
ReviewChemotherapy Delivery Strategies to the Central Nervous System: neither Optional nor Superfluous.
Malignant brain tumors including primary brain tumors (e.g., glioblastoma multiforme) and metastases, are aggressive and lethal entities for the majority of affected patients. Current standard treatments involving combinations of surgery, radiotherapy and systemic chemotherapy offer only modest improvements in survival. Faced with dismal survival, great efforts are deployed to find interesting treatment alternatives. ⋯ Certain interesting strategies use surgical or physical techniques to enhance the distribution of therapeutic agents to the central nervous system. The following strategies will be discussed in this review: intra-arterial delivery, osmotic BBB disruption, intranasal delivery, convection-enhanced delivery and osmotic pumps, implanted polymers, magnetic microspheres and ultrasound BBB disruption. The purpose of this paper is to review the importance of the BBB and the BTB and to review the current status and future perspectives of these delivery procedures.
-
Curr Cancer Drug Targets · Jan 2015
ReviewImmune Checkpoint Inhibitors for Cancer Therapy: Clinical Efficacy and Safety.
A major breakthrough in cancer immunotherapy was the discovery of immune checkpoint proteins, which function to effectively inhibit the immune system through various mechanisms. The first of such molecules shown to inhibit both T-cell proliferation and IL-2 production was cytotoxic T-lymphocyte associated protein 4 (CTLA-4). With this discovery, efforts turned to blocking this inhibitory pathway in an attempt to activate dormant T-cells directed at cancer cells. ⋯ Unfortunately, the untoward effects of blocking the immune system's natural inhibitory mechanisms have manifested clinically as diarrhea, rash, and hepatitis. Nevertheless, the exciting field of immune checkpoint inhibitors offers a potential curative option for many cancer patients who previously had a more dismal prognosis. The authors aim to provide a comprehensive review of the literature and update on the use of CTLA-4, PD-1 and PD-L1 targeted therapy in the treatment of cancer and other molecules still in the early development phase.
-
Curr Cancer Drug Targets · Mar 2013
ReviewTargeting tyrosine kinase receptors in hepatocellular carcinoma.
The recent discoveries of genomic and molecular markers in hepatocellular carcinoma (HCC) have improved the understanding about the complexity of the signal transduction pathways as well as their relevance in normal and liver cancer cells. The identification of the functional repercussions of punctual mutations and crosstalk among cell signaling will promote the identification of specific combinatorial targeted molecular therapies to specific subsets of patients which will allow the development of personalized-based therapy and increase the survival of patients. Numerous molecular targets are in the cross-road between oncogenic and anti-apoptotic programs, genetic or epigenetic alterations, which overall may have a similar cellular phenotype. ⋯ In this sense, Sorafenib recently approved for renal cell carcinoma, represents the first tyrosine kinase inhibitor (TKI) licensed for the treatment of patients with advanced HCC. This review summarizes the current status of molecular receptor TKI-based targeted therapy in HCC driving different pathways involved in cell survival, proliferation, migration, angiogenesis and metastasis, which include the regulation of Raf/MEK/ERK, PI3K/Akt/mTOR, and Jak/STAT cell signaling. The study also provides information about cell signaling crosstalk relevant in tyrosine kinase receptors (TKR)-based systemic therapy in HCC.