Nucleolin inhibits Hdm2 by multiple pathways leading to p53 stabilization.

Nucleolin is a c-Myc-induced gene product with defined roles in ribosomal RNA processing and the inhibition of chromosomal DNA replication following stress. Here we find that changes in nucleolin protein levels in unstressed cells cause parallel changes in the amount of p53 protein. Alterations in p53 levels arise from nucleolin binding to the p53 antagonist Hdm2, resulting in the inhibition of both p53 ubiquitination and Hdm2 auto-ubiquitination. Nucleolin does not alter p53 ubiquitination by human papillomavirus E6, indicating that the effect is specific for Hdm2. Although the inhibition of ligase activity would be expected to stabilize Hdm2, we instead find that nucleolin also reduces Hdm2 protein levels, demonstrating that nucleolin inhibits Hdm2 using multiple mechanisms. Increases in nucleolin levels in unstressed cells led to higher expression of p21(cip1/waf1), a reduced rate of cellular proliferation, and an increase in apoptosis. Thus, nucleolin has a number of properties in common with the tumor suppressor ARF (alternate reading frame). We propose that nucleolin, like ARF, responds to hyperproliferative signals by upregulation of p53 through Hdm2 inhibition.

Current and Emerging Targeting Strategies for Treatment of Pancreatic Cancer.

With a dismal 5-year survival rate of only 8%, pancreatic cancer still remains a very lethal disease. As with most cancers, pancreatic cancer is treated with different combinations of chemotherapeutic drugs which result in side effects and potential drug resistance leading in many cases to the unfortunate demise of the patient. Over recent years, a number of therapies have been developed against numerous molecular targets in cancers. Kinase inhibitors and monoclonal antibodies have been shown to target numerous kinases, growth factor receptors, and cell signaling pathways. This can lead to effects on tumor cell growth, angiogenesis, apoptosis, and the microenvironment. Most recent findings are very promising as they relate to the use of immunotherapy to treat certain cancers. Immune checkpoint inhibitors and cancer vaccines are currently being investigated. In this review, we will highlight some novel molecular targeted strategies that are being used or considered as potential therapeutics to treat patients with pancreatic cancer.

Characterization of SWI/SNF protein expression in human breast cancer cell lines and other malignancies.

Organization of genomic DNA into chromatin aids in the regulation of gene expression by limiting access to transcriptional machinery. The SWI/SNF family of complexes, which are conserved from yeast to humans, are ATP-dependent chromatin-remodeling enzymes required for the transcription of a number of genes in yeast. In humans, the gene encoding the BAF47/hSNF5 subunit of the complex, located at 22q11.2, has been found to be mutated in a number of human tumors including rhabdoid, rhabdomyosarcoma, chronic myeloid leukemia, and CNS tumors such as medulloblastomas and choroid plexus carcinomas. In addition, loss of heterozygosity (LOH) has been reported for the BAF47 region in breast and liver cancer. LOH has also been reported in breast and ovarian cancer within 17q12-25, a gene-rich area including BRCA1, BAF60B, and BAF57. Interestingly, the gene encoding the BAF155/hSWI3 subunit of the complex maps to 3p21-p23, an area of chromosomal deletion seen in a number of human adenocarcinomas including breast, kidney, pancreas, and ovary. To look for abnormalities in these proteins as well as the SWI/SNF complex in general, we have determined the protein status of core human SWI/SNF components BAF170, BAF155, BAF57, BAF53a, and BAF47 in 21 breast cell lines. The complex status in other human tumor cell lines of various tissue types was also examined. We also determined the protein status of the human SWI2 homologues, hBRM/SWI2alpha and BRG1/SWI2beta as well as two other proteins found in human SWI/SNF complexes, BAF180 and BAF250. In this study, we identified the first cell line negative for the BAF57 protein as well as a pancreatic carcinoma cell line negative for both the BRG-1 and hBRM proteins.