Antineuroblastoma activity of desferoxamine in human cell lines

That ferritin, an iron storage protein, can be produced by neuroblastoma cells raises the possibility that iron may have some role in promoting tumor cell growth. To explore this possibility, we studied the effects of desferoxamine, a compound which chelates iron, on viability of CHP 126 and CHP 100, two human neuroblastoma cell lines. Cells (5 X 10(4)) were incubated with graded amounts of desferoxamine or ferrioxamine, an iron-saturated analogue of desferoxamine. Within 5 days of exposure to 60 microM desferoxamine, approximately 90% of cells from each of these cell lines were dead. This effect was dose dependent, was not seen with ferrioxamine, and could be prevented by coincubation with greater than stoichiometric amounts of ferric citrate. As determined by binding of OK-T9, desferoxamine also resulted in increased expression of receptors for transferrin, an iron transport protein. Desferoxamine had only minimal effects on viability of several non-neuroblastoma cell lines. These results suggest that iron is required for growth of neuroblastoma and that desferoxamine has potent, specific, antineuroblastoma activity in vitro.     

Global transcriptional profiling demonstrates the combination of type I and type II interferon enhances antiviral and immune responses at clinically relevant doses.

A role for type II interferon (IFN-gamma) in resolving viral infection is suggested by the correlation of hepatitis C virus (HCV) clearance with enhancement of IFN-gamma-producing activated T cells in the resolution of acute HCV infection. Using vesicular stomatitis virus (VSV), a synergistic direct antiviral effect was documented using IFN-gamma1b and a potent, consensus type I IFN (IFN alfacon-1). Global expression profiling following EC50 exposure to IFN alfacon-1, IFN-gamma1b, or a cocktail of the two allowed the antiviral state to be correlated with induction of a subset of IFN-stimulated genes (ISGs). Genes identified through this analysis corresponded to classic antiviral components, ISGs more recently associated with direct antiviral functions, as well as expressed sequence tags (ESTs) and hypothetical proteins. The magnitude of these antiviral EC50-correlated expression events in human hepatoma (Huh7) cells exposed to clinically relevant doses of IFN alfacon-1, IFN-gamma1b, or a cocktail of the two was also probed because the standard of care for patients with chronic hepatitis C is type I IFN-containing regimens. Relative to type I IFNs used alone, the addition of type II IFN caused enhanced expression not only of many of the genes correlated with the direct antiviral state but also of genes involved in (1) antigen presentation to cytotoxic T lymphocytes (CTLs), (2) macrophage, natural killer (NK), and T helper 1 (Th1) cell recruitment and activation, (3) complement system function, (4) apoptosis, and (5) ISGs with unknown functions. As many of these processes are correlated clinically with resolution of chronic HCV infection, the combined use of these IFNs could display a beneficial effect on viral clearance in patients infected with HCV and other viruses through enhancement of one of these processes or of the direct antiviral state.     

Treatment of myofascial trigger points in common shoulder disorders by physical therapy: A randomized controlled trial [ISRCTN75722066]

Background  

Shoulder disorders are a common health problem in western societies. Several treatment protocols have been developed for the clinical management of persons with shoulder pain. However available evidence does not support any protocol as being superior over others. Systematic reviews provide some evidence that certain physical therapy interventions (i.e. supervised exercises and mobilisation) are effective in particular shoulder disorders (i.e. rotator cuff disorders, mixed shoulder disorders and adhesive capsulitis), but there is an ongoing need for high quality trials of physical therapy interventions. Usually, physical therapy consists of active exercises intended to strengthen the shoulder muscles as stabilizers of the glenohumeral joint or perform mobilisations to improve restricted mobility of the glenohumeral or adjacent joints (shoulder girdle). It is generally accepted that a-traumatic shoulder problems are the result of impingement of the subacromial structures, such as the bursa or rotator cuff tendons. Myofascial trigger points (MTrPs) in shoulder muscles may also lead to a complex of symptoms that are often seen in patients diagnosed with subacromial impingement or rotator cuff tendinopathy. Little is known about the treatment of MTrPs in patients with shoulder disorders.     

Lack of significant activity of 2'-deoxycoformycin alone or in combination with adenine arabinoside in relapsed childhood acute lymphoblastic leukemia. A randomized phase II trial from the Childrens Cancer Study Group.

Forty-nine children with recurrent acute lymphoblastic leukemia (ALL) were entered into a randomized Phase II trial evaluating 2'-deoxycoformycin (dCF) alone or in combination with adenine arabinoside (ara-A). 2'-Deoxycoformycin is an inhibitor of adenosine deaminase (ADA), an enzyme found in relatively high amounts in malignant lymphoid cells. Ara-A inhibits DNA polymerase and DNA synthesis. Because its efficacy in vivo as an anticancer agent is limited by its rapid inactivation by ADA, ara-A was combined with dCF to produce cytoreductive levels of ara-A. Twenty-four patients were assigned to receive dCF alone and 25 to receive the combination. No patient responded to dCF alone, and one patient developed a complete remission after treatment with the combination. The toxicity of dCF alone was minimal, except for one patient who became obtunded on day 5 following the first cycle of therapy. In contrast, five patients developed severe toxicity with the combination, including renal failure (three patients), hepatic failure (three patients), and neurologic toxicity (two patients). These results indicate that, at the doses and schedule used in this study, the combination of dCF and ara-A has significant toxicity and minimal activity against recurrent ALL in children.     

Mechanism of antineuroblastoma activity of deferoxamine in vitro

Deferoxamine previously has been shown to have potent activity in vitro against human neuroblastoma cells, activity that results from its ability to chelate iron. To further understand the mechanism of deferoxamine-induced cytotoxicity, we looked at its effects on cell cycling and on DNA, RNA, and protein synthesis by CHP 126, a cell line that is derived from tumor tissue of a patient with a neuroblastoma and that is known to be drug sensitive. After 24 hours of exposure to 60 mumol/L deferoxamine, there was a 35% increase in the percent of cells in the nonproliferating and prereplicative phases of the cell cycle and a corresponding decrease in the percent of cells in the DNA synthesis, postreplicative, and mitotic phases of the cell cycle, results that are consistent with a block of cell cycle progression at the early DNA synthesis phase. The inhibitory effects of deferoxamine on DNA synthesis were confirmed by demonstration of a 60% decrease in thymidine incorporation into DNA in short-term cultures of CHP 126. Effects on RNA and protein synthesis were minimal. Equivalent effects on growth were seen by using several chelators that interact with different iron pools, suggesting that both intracellular and extracellular iron are required for growth of neuroblastoma cells.