Combination of human tumor necrosis factor-alpha (hTNF-alpha) gene delivery with gemcitabine is effective in models of pancreatic cancer.

Pancreatic adenocarcinoma is an aggressive and highly lethal malignancy. Currently, gemcitabine is commonly used in patients with pancreatic cancer. However, the life expectancy of pancreatic cancer patients remains poor. We explored the possibility of increased anti-tumor activity by combining human tumor necrosis factor-alpha (hTNF-alpha) with current front-line therapy. Human TNF-alpha displays potent anti-tumor activity, but its use is limited by the toxicity of systemic administration. We developed a gene delivery approach using intratumoral injections of an adenoviral vector expressing hTNF-alpha, AdEgr.TNF.11D (TNFerade), to increase local concentrations of hTNF-alpha within the tumor, thereby maximizing local anti-tumor activity and yet minimizing the systemic toxicities. An ongoing phase III clinical trial is testing the efficacy of AdEgr.TNF.11D-injected intratumorally and combining with chemotherapy in locally advanced pancreatic cancer. In this study, we show that treatment with AdEgr.TNF.11D and gemcitabine results in a high level of hTNF-alpha expression in human pancreatic cancer cell lines. The combined treatment was well tolerated, highly active and produced marked delays in the growth of human pancreatic xenograft tumors relative to either agent alone. Our results strongly suggest that combination of AdEgr.TNF.11D and gemcitabine may be a potentially useful therapeutic approach for the improved treatment of pancreatic cancer.

Human immune response to Pseudomonas aeruginosa mucoid exopolysaccharide (alginate) vaccine.

Chronic lung infection with mucoid Pseudomonas aeruginosa is the major pathologic feature of cystic fibrosis. Previous studies suggested that a failure to produce opsonic antibody to the mucoid exopolysaccharide (MEP; also called alginate) capsule is associated with the maintenance of chronic bacterial infection. Provision of MEP-specific opsonic antibodies has therapeutic potential. To evaluate the ability of MEP to elicit opsonic antibodies, humans were immunized with two lots of MEP vaccine that differed principally in molecular size. Lot 2 had a larger average MEP polymer size. Both vaccines were well tolerated, but lot 1 was poorly immunogenic, inducing long-lived opsonic antibodies in only 2 of 28 vaccinates given doses of 10 to 150 micrograms. In contrast, at the optimal dose of 100 micrograms, lot 2 elicited long-lived opsonic antibodies in 80 to 90% of the vaccinates. The antibodies elicited by both lots enhanced deposition of C3 onto mucoid P. aeruginosa cells and mediated opsonic killing of heterologous mucoid strains expressing distinct MEP antigens. These results indicate that the polymers of MEP with the largest molecular sizes safely elicit opsonic antibodies in a sufficiently large proportion of vaccinates to permit studies of active and passive immunization of cystic fibrosis patients against infection with mucoid P. aeruginosa.

Antagonism of androgen and estrogen effects in guinea pig seminal vesicle epithelium and fibromuscular stroma by keoxifene (LY156758).

Using separated epithelium (SVE) and fibromuscular stroma (SVM) of guinea pig seminal vesicle, the antihormonal effects of daily subcutaneous administration (14 and 28 days) of the benzothiophene keoxifene (LY156758; [6-hydroxy-2-(4-hydroxyphenyl)benzo(b) thien-3-yl] [4-(2-1-piperidinyl) ethoxyl] phenyl) methanone hydrochloride) in intact, castrate, and androgen/estrogen-maintained castrate animals was evaluated. The compound was devoid of agonist activity in castrated males, in that the compound had no stimulatory effect on SVM wet weight or DNA content. In vitro cytosolic binding of [3H]estradiol (E2) in the SVM was decreased in a concentration-dependent manner by keoxifene, but the compound did not perturb the binding of [3H]dihydrotestosterone (DHT) in the SVM or SVE. Likewise, keoxifene administration to castrated males treated with exogenous steroids antagonized the estrogen-induced hyperplastic response of the SVM, whereas no interference with androgen-induced growth of the SVM or SVE was observed. Keoxifene treatment of intact male guinea pigs produced regression of the androgen-sensitive SVE as well as the androgen/estrogen-sensitive SVM. Keoxifene-induced decreases in guinea pig serum testosterone levels were associated with this activity. Histological analysis of the seminal vesicle under these conditions suggests androgen deprivation. These findings indicate that keoxifene is a physiological antagonist of androgen action in the intact male guinea pig. The pure estrogen antagonist properties of keoxifene and its ability to decrease accessory sex organ epithelium and fibromuscular stroma in vivo suggest potential applications of the benzothiophenes in the medical management of prostatic neoplasia.