Augmented Antitumor Activity for Novel Dual PI3K/BDR4 Inhibitors, SF2523 and SF1126 in Ewing Sarcoma

The effectiveness and mechanical properties of chemotherapy-impregnated cement in Ewing sarcoma

Bone cement is often used in the surgical treatment of Ewing sarcoma (ES). Chemotherapy-impregnated cement (CIC) has never been tested in slowing ES growth. The purpose of the study is to determine if CIC can decrease cell proliferation, and to assess changes in the mechanical qualities of the cement. Chemotherapeutic agents including doxorubicin, cisplatin, etoposide, and SF2523 were mixed with bone cement. ES cells were plated and exposed to cell growth media that had contained CIC or regular bone cement (RBC) as a control, and cell proliferation assays were performed daily for 3 days. Mechanical testing on RBC and CIC was also performed. There was a significant decrease (p < 0.001) in cell proliferation among all cells treated with CIC compared to cells treated with RBC by 48 h postexposure. Additionally, there was a synergistic effectiveness of the CIC noted when multiple antineoplastic agents were combined. Three-point bending tests did not reveal substantial reductions in tolerated maximum bending load and maximal displacement at maximal bending load between CIC and RBC. Statement of Clinical Significance: CIC does appear to be effective at decreasing cell growth and does not appear to substantially alter the mechanical properties of the cement.

Drugging Hijacked Kinase Pathways in Pediatric Oncology: Opportunities and Current Scenario

Childhood cancer is considered rare, corresponding to ~3% of all malignant neoplasms in the human population. The World Health Organization (WHO) reports a universal occurrence of more than 15 cases per 100,000 inhabitants around the globe, and despite improvements in diagnosis, treatment and supportive care, one child dies of cancer every 3 min. Consequently, more efficient, selective and affordable therapeutics are still needed in order to improve outcomes and avoid long-term sequelae. Alterations in kinases' functionality is a trademark of cancer and the concept of exploiting them as drug targets has burgeoned in academia and in the pharmaceutical industry of the 21st century. Consequently, an increasing plethora of inhibitors has emerged. In the present study, the expression patterns of a selected group of kinases (including tyrosine receptors, members of the PI3K/AKT/mTOR and MAPK pathways, coordinators of cell cycle progression, and chromosome segregation) and their correlation with clinical outcomes in pediatric solid tumors were accessed through the R2: Genomics Analysis and Visualization Platform and by a thorough search of published literature. To further illustrate the importance of kinase dysregulation in the pathophysiology of pediatric cancer, we analyzed the vulnerability of different cancer cell lines against their inhibition through the Cancer Dependency Map portal, and performed a search for kinase-targeted compounds with approval and clinical applicability through the CanSAR knowledgebase. Finally, we provide a detailed literature review of a considerable set of small molecules that mitigate kinase activity under experimental testing and clinical trials for the treatment of pediatric tumors, while discuss critical challenges that must be overcome before translation into clinical options, including the absence of compounds designed specifically for childhood tumors which often show differential mutational burdens, intrinsic and acquired resistance, lack of selectivity and adverse effects on a growing organism.