Navitoclax (ABT-263) and bendamustine ± rituximab induce enhanced killing of non-Hodgkin's lymphoma tumours in vivo.

BACKGROUND AND PURPOSE: Bendamustine with or without rituximab provides an effective and more tolerable alternative to the polytherapy cyclophosphamide-doxorubicin-vincristine-prednisolone (CHOP) in the treatment of haematological tumours and is currently approved for the treatment of many haematological malignancies. Navitoclax (ABT-263) is a potent inhibitor of Bcl-2, Bcl-x(L) and Bcl-w, which has demonstrated efficacy in haematological tumours alone and in combination with other agents. This paper describes the in vivo efficacy of combining either bendamustine or bendamustine plus rituximab (BR) with navitoclax in xenograft models of non-Hodgkin's lymphoma EXPERIMENTAL APPROACH: Activity was tested in xenograft models of diffuse large B-cell lymphoma (DoHH-2, SuDHL-4), mantle cell lymphoma (Granta 519) and Burkitt's lymphoma (RAMOS). Activity was also monitored in a systemic model of Granta 519. KEY RESULTS: Navitoclax potentiated bendamustine activity in all cell lines tested. Bendamustine activated p53 in Granta 519 tumours, concurrent with activation of caspase 3. Navitoclax also improved responses to bendamustine-rituximab (BR) in a subset of tumours. CONCLUSIONS AND IMPLICATIONS: Navitoclax in combination with bendamustine and BR is a viable combination strategy for use in the clinic and demonstrated superior efficacy compared with previously reported data for navitoclax plus CHOP and rituximab-CHOP.

Novel erythromycin derivatives with aryl groups tethered to the C-6 position are potent protein synthesis inhibitors and active against multidrug-resistant respiratory pathogens.

A novel series of erythromycin derivatives has been discovered with potent activity against key respiratory pathogens, including those resistant to erythromycin. These compounds are characterized by having an aryl group tethered to the C-6 position of the erythronolide skeleton. Extensive structural modification of the C-6 moiety led to the discovery of several promising compounds with potent activity against both mef- and erm-mediated resistant Streptoccoccus pneumoniae. Preliminary mechanistic studies indicated that the new macrolides are potent protein synthesis inhibitors, which interact with methylated ribosomes isolated from resistant organisms. In experimental animal models, these compounds exhibited excellent in vivo efficacy and balanced pharmacokinetic profiles.

Efficacies of ABT-773, a new ketolide, against experimental bacterial infections.

ABT-773 is a novel ketolide effective against antibacterial-resistant respiratory tract pathogens. The pharmacokinetic profile of ABT-773 was studied in rats and consisted of a mean peak concentration in plasma of 1.07 microg/ml and an area under the concentration-time curve (AUC) of 12.03 microg. h/ml when the compound was delivered at a dose of 25 mg/kg of body weight. It concentrated in rat lung tissue, with a lung tissue-to-plasma ratio of 29 based on the AUC. In acute systemic infections in mice, ABT-773 showed efficacy against macrolide-susceptible strains of Staphylococcus aureus, Streptococcus pneumoniae, S. pyogenes, and Listeria monocytogenes. Additionally, ABT-773 improved the survival of mice infected with resistant S. pneumoniae containing either the ermB gene, the mefE gene, or altered penicillin binding protein genes. In a rat lung model of infection, ABT-773 demonstrated 50% effective doses lower than those of comparator macrolides when evaluated against the following strains of S. pneumoniae: a macrolide-lincosamide-streptogramin B-susceptible strain, an ermB strain, and an mefE strain. ABT-773 was also effective against Haemophilus influenzae lung infections in rats. Thus, ABT-773 may prove to be a useful new antibacterial agent for the treatment of respiratory tract infections.

Legal issues affecting medical clearance to resume play after mild brain injury.

Physician care of athletes suffering mild brain trauma involves medical and legal considerations. Physicians must adhere to their primary responsibility to protect their athletes' health by following good medical practice and not allowing nonmedical factors to unduly influence their judgment. Courts recognize the team physician's role as gatekeeper and generally defer to his or her medical judgment in return-to-play decisions.

Discovery of a series of cyclohexylethylamine-containing protein farnesyltransferase inhibitors exhibiting potent cellular activity.

Synthesis of a library of secondary benzylic amines based on the Sebti-Hamilton type peptidomimetic farnesyltransferase (FTase) inhibitor FTI-276 (1) led to the identification of 6 as a potent enzyme inhibitor (IC(50) of 8 nM) which lacked the problematic thiol residue which had been a common theme in many of the more important FTase inhibitors reported to date. It has previously been disclosed that addition of o-tolyl substitution to FTase inhibitors of the general description 2 had a salutary effect on both FTase inhibition and inhibition of Ras prenylation in whole cells. Combination of these two observations led us to synthesize 7, a potent FTase inhibitor which displayed an IC(50) of 0.16 nM for in vitro inhibition of FTase and an EC(50) of 190 nM for inhibition of whole cell Ras prenylation. Modification of 7 by classical medicinal chemistry led to the discovery of a series of potent FTase inhibitors, culminating in the identification of 25 which exhibited an IC(50) of 0.20 nM and an EC(50) of 4.4 nM. In vivo tests in a nude mouse xenograft model of human pancreatic cancer (MiaPaCa cells) showed that oral dosing of 25 gave rise to impressive attenuation of the growth of this aggressive tumor cell line.

Second-generation peptidomimetic inhibitors of protein farnesyltransferase demonstrating improved cellular potency and significant in vivo efficacy.

The synthesis and evaluation of analogues of previously reported farnesyltransferase inhibitors, pyridyl benzyl ether 3 and pyridylbenzylamine 4, are described. Substitution of 3 at the 5-position of the core aryl ring resulted in inhibitors of equal or less potency against the enzyme and decreased efficacy in a cellular assay against Ras processing by the enzyme. Substitution of 4 at the benzyl nitrogen yielded 26, which showed improved efficacy and potency and yet presented a poor pharmacokinetic profile. Further modification afforded 30, which demonstrated a dramatically improved pharmacokinetic profile. Compounds 26 and 29 demonstrated significant in vivo efficacy in nude mice inoculated with MiaPaCa-2, a human pancreatic tumor-derived cell line.

In vivo efficacy of ABT-255 against drug-sensitive and -resistant Mycobacterium tuberculosis strains.

Current therapy for pulmonary tuberculosis involves 6 months of treatment with isoniazid, pyrazinamide, rifampin, and ethambutol or streptomycin for reliable treatment efficacy. The long treatment period increases the probability of noncompliance, leading to the generation of multidrug-resistant isolates of Mycobacterium tuberculosis. A treatment option that significantly shortened the course of therapy, or a new class of antibacterial effective against drug-resistant M. tuberculosis would be of value. ABT-255 is a novel 2-pyridone antibacterial agent which demonstrates in vitro potency and in vivo efficacy against drug-susceptible and drug-resistant M. tuberculosis strains. By the Alamar blue reduction technique, the MIC of ABT-255 against susceptible strains of M. tuberculosis ranged from 0.016 to 0.031 microg/ml. The MIC of ABT-255 against rifampin- or ethambutol-resistant M. tuberculosis isolates was 0.031 microg/ml. In a murine model of pulmonary tuberculosis, 4 weeks of oral ABT-255 therapy produced a 2- to 5-log10 reduction in viable drug-susceptible M. tuberculosis counts from lung tissue. Against drug-resistant strains of M. tuberculosis, ABT-255 produced a 2- to 3-log10 reduction in viable bacterial counts from lung tissue. ABT-255 is a promising new antibacterial agent with activity against M. tuberculosis.

Dynamics of clarithromycin and azithromycin efficacies against experimental Haemophilus influenzae pulmonary infection.

The dynamics of clarithromycin and azithromycin efficacy against pulmonary Haemophilus influenzae infection in rats were evaluated. Efficacy was measured by reduction in pulmonary H. influenzae burden on days 3 and 7 postinoculation. Clarithromycin therapy was effective on day 3 or 7 of therapy, while azithromycin was effective on day 7 but not on day 3 of therapy. Both macrolides produced marked efficacy against all six strains of H. influenzae tested, including four strains for which MICs were above the susceptible breakpoint (8 microgram/ml) concentration of clarithromycin. The two macrolides demonstrated markedly different pharmacokinetic characteristics, with clarithromycin present in both blood and tissue, while azithromycin was concentrated primarily in tissue. During pulmonary infection in rats, H. influenzae was found in both intracellular locations and an extracellular location in the lung. Blood concentrations of clarithromycin and azithromycin approximated human pharmacokinetics, and the blood concentrations for either macrolide rarely exceeded MICs for H. influenzae. At dosages producing blood concentrations similar to values achieved clinically, clarithromycin produced efficacy on day 3 of therapy, while both clarithromycin and azithromycin were equally effective on day 7. The different dynamics of clarithromycin and azithromycin suggest that length of therapy should be considered as a key parameter in evaluations of drug efficacy.

Relevance of the ferret model of Helicobacter-induced gastritis to evaluation of antibacterial therapies.

OBJECTIVES: The goals of the study were 1) to evaluate the efficacy of clinically relevant antibacterial therapies in the ferret model of Helicobacter-induced gastritis and 2) to compare these results to the efficacy achieved clinically in humans. METHODS: Ferrets were inoculated with H. mustelae, and gastritis was allowed to develop. The double therapy of clarithromycin and omeprazole and the triple therapies of clarithromycin or amoxicillin with metronidazole and omeprazole were administered. Efficacy was evaluated by Helicobacter burden cultured from biopsy samples and by histopathological evaluation of Helicobacter burden and gastric inflammation with pylorus and fundus samples obtained 4 wk after the end of antibacterial therapy. RESULTS: Clarithromycin-based double and triple therapies significantly reduced Helicobacter burden and decreased gastric inflammation. Clarithromycin-based double therapy was more effective than amoxicillin-based triple therapy. Reduction of the length of clarithromycin therapy from 14 to 7 days decreased efficacy. Antibacterial therapies in the ferret did not produce eradication rates comparable to clinical results, even though the serum concentrations of clarithromycin in ferret were in excess of concentrations used in humans. Relapse of Helicobacter infection after the end of therapy occurred in some cases. CONCLUSIONS: Although the ferret model of Helicobacter gastric infection underestimated the clinical efficacy of antibacterial treatments in humans, the model was valuable for comparing the relative efficacy of antibacterial therapies.

Model of Streptococcus pneumoniae meningitis in adult rats.

The purpose of this study was to develop a model of bacterial meningitis in young adult rats for assessing the efficacy of antimicrobial agents. Sixty 200- to 300-g male Sprague Dawley CD rats were inoculated intracisternally with 5.78 log10 CFU of a clinical isolate of Streptococcus pneumoniae in 5% hog gastric mucin. Inoculated rats were assigned to six groups containing 10 animals each. Group-1 rats served as controls and did not receive antibiotics. Rats of groups 2 to 4 received (subcutaneously every 12 h) cefotaxime (25, 6.25, and 1.56 mg/kg of body weight respectively). Rats of groups 5 and 6 received ampicillin (50 and 12.5 mg/kg respectively) and gentamicin (2.0 and 0.5 mg/kg respectively). Five additional Sprague Dawley CD rats were inoculated with only gastric hog mucin and were assigned to group 7. At postinoculation day 4 all animals were euthanized. Cerebral spinal fluid was collected for culturing. Brains were harvested for histologic examination and culturing. Untreated, infected control (group-1) animals were culture-positive for S. pneumoniae in the brain and cerebral spinal fluid. Of the antibiotic regimens evaluated, only cefotaxime (25 mg/kg) eradicated bacteria from the cerebral spinal fluid and brain. Cefotaxime at 25 or 6.25 mg/kg significantly (P < or = 0.05) decreased the bacterial burden of S. pneumoniae, whereas cefotaxime at 1.56 mg/kg and ampicillin/gentamicin combinations did not. There was histopathological evidence of subacute meningitis in infected rats. No meningitis was observed in rats receiving 25 mg of cefotaxime/kg. This model demonstrates the ability to induce bacterial meningitis with S. pneumoniae in adult rats and the ability to clear infection in 90 to 100% of the animals by administration of cefotaxime at dosages of 6.25 and 25 mg/kg given subcutaneously every 12 h.

When Is Disqualification From Sports Justified? Medical Judgment vs Patients' Rights.

An important medicolegal issue is how best to resolve disputes about an athlete's medical eligibility. Team physicians typically recommend against athletic participation when they feel that it will pose an unreasonable risk of injury to an athlete who has an abnormality. But such athletes may cite federal laws designed to protect the disabled and claim a right to participate. The legal framework for resolving sports-participation disputes involving physically impaired athletes is still developing. Recent case law reflects a split decision regarding the legality of excluding athletes whose condition, in the opinion of the team physician, exposes them to an increased risk of significant harm.

Efficacies of ABT-719 and related 2-pyridones, members of a new class of antibacterial agents, against experimental bacterial infections.

The 2-pyridones are a new class of broad-spectrum orally bioavailable antibacterial agents. These compounds are potent bacterial DNA gyrase inhibitors which differ from fluoroquinolones by placement of the nitrogen atom in the ring juncture. ABT-719 is an S isomer and a representative 2-pyridone. ABT-719 administered orally or subcutaneously was 4- to 10-fold more effective than ciprofloxacin against Staphylococcus aureus, Streptococcus pneumoniae, and Streptococcus pyogenes infections in normal mice. ABT-719 was equivalent in efficacy to ciprofloxacin for treatment of gram-negative bacterial infections caused by Pseudomonas aeruginosa or Escherichia coli. The racemate and R forms of ABT-719 produced similar results against gram-positive and gram-negative bacterial infections. The 50% effective doses of ABT-719 were at least threefold lower than those of ciprofloxacin for therapy of intracellular infections caused by Salmonella typhimurium or Listeria monocytogenes. In immunosuppressed mice, ABT-719 was more effective than ciprofloxacin against quinolone-sensitive S. aureus, Enterococcus faecalis, and Enterococcus faecium. The pharmacokinetic properties of ABT-719 were consistent with its relative efficacy. The 2-pyridones are potent, orally available antibacterial agents with efficacy against gram-positive and gram-negative bacterial infections in mice.

Legal considerations in treating the injured athlete.

This article is intended to inform physical therapists about legal considerations impacting the practice of sports physical therapy. Our objective is to generate an awareness of these issues to enhance the quality of physical therapy provided to injured athletes and to minimize potential legal liability. Three areas in which physical therapists who treat injured athletes need to be particularly careful are: 1) providing treatment designed to enable continued play with an injury before it is fully healed, 2) informing an athlete of the potential health risks of continued athletic activity in his or her physical condition, and 3) evaluating and advising an athlete concerning his or her ability to resume athletic activity. Based on the parallels between industrial rehabilitation and sports physical therapy, the authors propose that consensus objective criteria and guidelines should be established to assist therapists in advising referring physicians and athletes whether return to play is appropriate under the circumstances.

Enteral formula composition does not affect response to lethal infectious challenge in mice.

The effects of enteral formulations on the response of mice to infectious challenge with Listeria monocytogenes, influenza A or Candida albicans were studied to test the efficacy of specialized ingredients. CF-1 outbred female mice (12-15 g) were fed nonpurified diet (Purina No. 5002) or commercially available liquid formulas: Osmolite HN, Perative or Impact. There were no differences between the groups fed the liquid formulas with regards to mean survival time or percentage of survivors in any of these models of infection. Examination of spleens from the groups challenged with L. monocytogenes, lungs from mice infected with Influenza A and kidneys from the groups challenged with C. albicans revealed no differences in cure rate of survivors. Pre-feeding periods of up to 8 d before infection produced similar results for mice fed enteral formulations compared to nonpurified diet. Contrary to previous reports, the use of Impact did not improve resistance to disease in mice challenged with lethal doses of L. monocytogenes, as compared with mice fed Osmolite HN. Additionally, mice fed Impact, Perative, or nonpurified diet responded similarly to challenge with L. monocytogenes, C. albicans or influenza A. The results indicate that these acute lethal animal models of infectious challenge may be of limited use to distinguish effects of modified nutrient composition of enteral formulas.