A number of human xenograft orthotopic models of hepatocellular carcinoma (HCC) have been previously established by growing histologically-intact patient specimens in nude mice. However, the availability of HBV and HCV negative human hepatocellular carcinoma specimens is scarce and the pattern of tumor growth in nude mice varies depending on the tumor type. In the present study, we have established a reproducible xenograft orthotopic model using a human HCC cell line designated HuT7-3 that was derived from two rounds of subcloning of the parental Huh-7 cell line. The tumor growth rate of the HuT7-3 cell line, grown at a primary subcutaneous site, was markedly higher than that of the Huh-7 parental cell line or the human hepatoblastoma Hep-G2 cell line. Furthermore, we have shown that doxorubicin, when administered intravenously, is efficient in inhibiting the development of subcutaneous tumor but leads to the regression of the orthotopic human HCC. Consequently, this novel HCC xenograft orthotopic model can be used for the evaluation of antitumor drugs.
Virus entry into a host cell is an attractive target for therapy because propagation of virus can be blocked at an early stage, minimizing chances for the virus to acquire drug resistance. Anti-infective drug discovery for BSL-4 viruses like Ebola or Lassa hemorrhagic fever virus presents challenges due to the requirement for a BSL-4 laboratory containment facility. Pseudotyped viruses provide a surrogate model in which the native envelope glycoprotein of a BSL-2 level virus (e.g., vesicular stomatitis virus) is replaced with envelope glycoprotein of a foreign BSL-4 virus (e.g., Ebola virus). Because the envelope glycoprotein determines interaction of virus with its cellular receptors, pseudotyped viruses can mimic the viral entry process of the original virus. Moreover, they are competent for only a single cycle of infection, and therefore can be used in BSL-2 facilities. Pseudotyped viruses have been used in high-throughput screening of entry inhibitors for a number of BSL-4 level viruses. This unit includes protocols for preparing pseudotyped viruses using lentiviral vectors and use of pseudotyped viruses for high-throughput screening of viral entry inhibitors.
The anilinouracils (AUs) such as 6-(3-ethyl-4-methylanilino)uracil (EMAU) are a novel class of gram-positive, selective, bactericidal antibacterials which inhibit pol IIIC, the gram-positive-specific replicative DNA polymerase. We have linked various fluoroquinolones (FQs) to the N-3 position of EMAU to generate a variety of AU-FQ "hybrids" offering the potential for targeting two distinct steps in DNA replication. In this study, the properties of a hybrid, "251D," were compared with those of representative AUs and FQs in a variety of in vitro assays, including pol IIIC and topoisomerase/gyrase enzyme assays, antibacterial, bactericidal, and mammalian cytotoxicity assays. Compound 251D potently inhibited pol IIIC and topoisomerase/gyrase, displayed gram-positive antibacterial potency at least 15 times that of the corresponding AU compound, and as expected, acted selectively on bacterial DNA synthesis. Compound 251D was active against a broad panel of antibiotic-resistant gram-positive pathogens as well as several gram-negative organisms and was also active against both AU- and FQ-resistant gram-positive organisms, demonstrating its capacity for attacking both of its potential targets in the bacterium. 251D also was bactericidal for gram-positive organisms and lacked toxicity in vitro. Although we obtained strains of Staphylococcus aureus resistant to the individual parent compounds, spontaneous resistance to 251D was not observed. We obtained 251D resistance in multiple-passage experiments, but resistance developed at a pace comparable to those for the parent compounds. This class of AU-FQ hybrids provides a promising new pharmacophore with an unusual dual mechanism of action and potent activity against antibiotic-sensitive and -resistant gram-positive pathogens.
An increase in the activity of ornithine decarboxylase (ODC), the first and rate-limiting step in polyamine biosynthesis, is one of the early biochemical events regulating lymphocyte mitogenesis. However, the role of intracellular polyamine biosynthesis in lymphocyte effector cell function has not been fully elucidated. Utilizing ..cap alpha..-difluoromethyl-ornithine (DFMO), an irreversible inhibitor of ODC, the authors have evaluated the effect of inhibition of intracellular polyamine biosynthesis on cytolytic T lymphocyte (CTL) induction. The experimental system utilized the concanavalin A (Con A) mediated polyclonal induction of CTL from nylon wool purified T cell populations. The addition of DFMO at the initiation of T cell stimulation with Con A completely abrogated ODC induction. Similarly, by 48 hrs of culture DFMO reduced putrescine and spermidine levels 96% and 91% respectively. DFMO reduced T cell proliferation (/sup 3/H-TdR incorporation) up to 60% in a dose dependent manner. Similarly DFMO treatment reduced CTL (Thy 1.2/sup +/) induction by greater than 50%. This observed reduction in CTL activity was completely reversible by the addition of exogenous putrescine. DFMO treatment did not alter the expression of the CTL response once generated. These results demonstrate that intracellular polyamine biosynthesis is required for optimal CTL induction.
The objective of the present investigation was to compare the effects of three ornithine decarboxylase inhibitors on tumoricidal macrophage and antitumor activities in vivo. alpha-Difluoromethylornithine (DFMO), (2R,5R)-6-heptyne-2,5-diamine, and alpha-(fluoromethyl)dehydroornithine methyl ester (delta MFMOme) were administered continuously in drinking water starting on Day 1 to B16F1 tumor-bearing mice. DFMO, (2R,5R)-6-heptyne-2,5-diamine, and delta MFMOme reduced B16F1 tumor growth, measured on Day 18, up to 87, 79, and 95%, respectively. Similarly, all three ornithine decarboxylase inhibitors reduced B16F1 putrescine and spermidine levels. delta MFMOme was substantially more effective both as an antitumor agent and in reducing polyamines. Both DFMO and delta MFMOme augmented macrophage tumoricidal activity directed against B16F1 target cells. MAP had no effect on macrophage tumoricidal activity. Lipopolysaccharide-stimulated macrophages from delta MFMOme-treated mice also exhibited an increase in interleukin and tumor necrosis factor levels. Furthermore, treatment with a known macrophage activator, gamma-interferon, enhanced the antitumor activity of delta MFMOme. delta MFMOme did not alter natural killer cell activity; however, cytolytic T-lymphocyte induction was reduced by 40 to 50%. These results demonstrate that, in addition to their established antitumor activity, ornithine decarboxylase inhibitors may also potentiate specific tumoricidal effector cell generation in vivo.
Abstract The spectinamides are novel, narrow-spectrum semisynthetic analogs of spectinomycin, modified to avoid intrinsic efflux by Mycobacterium tuberculosis . Spectinamides, including lead MBX-4888A (Lee-1810), exhibit promising therapeutic profiles in mice, as single drugs and as partner agents with other anti-tuberculosis antibiotics including rifampin and/or pyrazinamide. To demonstrate that this translates to more effective cure, we first confirmed the role of rifampin, with or without pyrazinamide, as essential to achieve effective bactericidal responses and sterilizing cure in the current standard of care regimen in chronically infected C3HeB/FeJ mice compared to BALB/c mice. Thus, demonstrating added value in testing clinically relevant regimens in murine models of increasing pathologic complexity. Next we show that MBX-4888A, given by injection with the front-line standard of care regimen, is treatment shortening in multiple murine tuberculosis infection models. The positive treatment responses to MBX-4888A combination therapy in multiple mouse models including mice exhibiting advanced pulmonary disease can be attributed to favorable distribution in tissues and lesions, retention in caseum, along with favorable effects with rifampin and pyrazinamide under conditions achieved in necrotic lesions. This study also provides an additional data point regarding the safety and tolerability of spectinamide MBX-4888A in long-term murine efficacy studies.
